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The OHIO Ecohouse Residential Guide is a binder that was created as a resource for Ecohouse residents. The guidebook contains sections that relate to administrative materials, syllabi for the Ecohouse seminar, instructional content for all house features, workshops created by residents, and garden/landscape instructions and applications.
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5/16/13 4:40 PM
RESIDENTIAL GUIDE
Ohio University Ecohouse Residential Guide
1. Administrative
2. Ecohouse Seminar
3. House Features
a. Electricity
b. Compost
c. Gray Water
4. Workshops
5. Garden/Landscape
Ohio University Ecohouse Residential Guide
Welcome to the OHIO Ecohouse!
Dear OHIO Ecohouse Residents, Congratulations on being selected to live in the OHIO Ecohouse this year. You are joining a small but diverse group of OU students who have benefited from this sustainable living and learning experience. Your role as a resident is an important tool in our effort to better educate the campus and community about the importance of incorporating sustainability into every aspect of our lives. This experience will be as robust as you make it. As long as you take the initiative to explore
the many opportunities made available to you, your year as a resident of the Ecohouse will serve you well in your future. You will develop strong leadership skills, improve your communication skills, explore professional development opportunities, better prepare yourself for a job search and gain valuable skills and memories that will last throughout your adult life. My role as the advisor of this program makes me more than a landlord. I will serve as a mentor through the Ecohouse seminar you will each register for, a peer in our collaborative exploration of sustainable living habits, a support system as you navigate this experience and, hopefully, a reference as you advance into future job and leadership opportunities. While the Office of Sustainability will work to support you in a variety of ways, please keep in mind that certain small repairs or purchases will be treated much in the same way as any rental unit (i.e.: you are responsible for cleaning, repairs to damages you cause, general everyday
maintenance and care of the interior and exterior of the house). We will provide you with support in the following ways:
- Professional Development: We have a student position in the Office of Sustainability (“Professional Development Coordinator”) who you are able to work with to fine projects to fit into your “projects” requirement of your role as a resident. You may also work with this individual to assist you with resume building, email signatures, workshop hosting/attendance, etc. You will work with this individual to determine if OoS can assist with financially supporting and project ideas you wish to pursue.
- Tour Payment: You have the option to either allow tours to serve as your project hours or to be paid separately for them. Tours will not take up 20 hours in a semester, so you must also create other project ideas. If you wish to be paid for your efforts as a
Ohio University Ecohouse Residential Guide
tour guide, you must undergo a training from OoS and submit all necessary paperwork to HR.
- Maintenance: If the house is ever in need of maintenance, contact the Director of Sustainability and she will submit a work order for repairs. If it is an emergency repair, follow the emergency protocol provided in this binder.
I genuinely want this to be a positive experience for all of you. Please take advantage of the many opportunities that will be made available to you during your time as a resident of the Ecohouse!
***Annie Laurie Cadmus Director of Sustainability Ohio University 740-593-0026 [email protected]
General Office of Sustainability & Ecohouse information: Access and Inclusion: We are dedicated to offering all students fair access to sustainability resources and involvement. In your conversations with other students, please always be sensitive to their unique needs and alert the Director of Sustainability if any of our programs are not able to
accommodate any needs. Such access and inclusion concerns also apply to our office’s volunteers, interns and staff. Any student who feels s/he may need an accommodation based on the impact of a disability should contact the Director of Sustainability privately to discuss specific needs. The student should be able to provide written documentation from the Office of Disability Services. Any student not yet registered as a student with a disability can do so by contacting the Office of Disability Services at 740-593-2620 or by visiting the office in 348 Baker University Center. Defining Sustainability Sustainability is the ability to meet the needs of today’s society without compromising the ability of future generations to meet their needs. That means we must appropriately utilize
Ohio University Ecohouse Residential Guide
resources and advance our own knowledge in all disciplines in order to contribute to the success of future generations. At Ohio University, we look at Sustainability through the lens of the Triple Bottom Line: People, Planet and Prosperity.
- People: We believe in personal sustainability…we must manage our own health and well-being so we may care for others within our community. We must invest in community growth.
- Planet: We encourage the conservation, preservation and restoration of our Earths precious natural resources.
- Prosperity: A thriving local economy is paramount in our efforts to achieve true sustainable development.
What the Office of Sustainability Does Mission: Ohio University’s Office of Sustainability provides services and support to the campus community; advocates for innovation and research; and ensures fulfillment of institutional commitments to environmental, social and economic well-being. Our office works to provide the campus community with the support they need to implement sustainability in their respective units on campus. We collect and report on our progress toward sustainable development. We offer professional development opportunities to students interested in infusing sustainability into their academic and professional careers.Professional
Development:
-‐ Anyone who works (paid or unpaid) in the Office of Sustainability is asked to spend time on
Professional Development.
-‐ For your convenience, we do have a Professional Development Coordinator Intern who is
responsible for ensuring that you are supported in your efforts.
-‐ Samples of professional development projects can include, but are not limited to:
o Online portfolio/blog
o Resume building
o Conference attendance
o Workshop hosting
o Webinar attendance
-‐ It is our goal to assist students with job attainment upon graduating from OU. Please utilize the
resources in the office whenever necessary.
Ohio University Ecohouse Residential Guide
-‐ Upon graduating, all former office staff members will be asked to complete an Exit Survey so we
can continually improve our professional development efforts.
Personal Sustainability:
It is important to establish clear boundaries in your development of a work/life/school balance. We will
talk frequently of the important role “Personal Sustainability” plays in our lives. You are encouraged to
explore this conversation deeply throughout the year. Here are some quick pointers that you may or
may not appreciate:
-‐ Create email filters for certain emails. For example, if your place of employment regularly uses
your personal email address, create a filter so those emails are sent to a folder that you check at
designated times. This way, when you’re working on personal or academic items, work does
not distract you.
-‐ If you have a one-on-one or small group meeting scheduled, consider hosting the meeting
outside. Take a walk or sit in the grass….get some fresh air!
-‐ Create outdoor workspace where you’re able to easily complete school or personal work
outdoors without being distracted. (Of course, there’s nothing wrong with an occasional break
to climb a good lookin’ tree!)
-‐ If you know you have a really busy week coming up, consider being flexible with your Ecohouse
hours. Work with the other residents and the Director of Sustainability to see if you can
rearrange Ecohouse seminar dates (since we will have several weeks that we don’t meet – those
can be rearranged!).
-‐ Constantly reassess! If you’re feeling overwhelmed or stressed, figure out what is causing the
stress and try to renegotiate your priorities that week. Can OoS assist in any way? You should
love what you do and the Ecohouse should not be a source of stress or resentment.
-‐ Work in the Ecohouse Garden – If you’re feeling particularly stressed or uninterested in your
work, consider doing some yard work or garden work…it’s surprisingly therapeutic to pull
weeds!
-‐ Sustainability is a truly interdisciplinary topic. If there are ever any activities or practices that
you haven’t participated in but would like to, consider exploring them for your professional
development hours. This experience should be about personal growth!
Communications Protocol:
The following Communications Protocol is relevant to any communication that occurs on behalf of the Office of
Sustainability. All staff, interns and Ecohouse residents must be aware of this protocol and follow it carefully.
Ohio University Ecohouse Residential Guide
With a great deal of turn-over in the office, it is imperative that the Director of Sustainability is included in any
communication intentions external to our office.
If any OoS staff wishes to set-up an interview with a specific individual, please follow the following
procedures:
-‐ Send an email to [email protected] outlining:
o Individual you wish to interview
o Purpose of article
o List of no more than 5 questions that will be asked
o Preference of Phone, email or in-person interview
-‐ Requests for interviews must be made at least 2 weeks in advance of desired interview date.
OU staff and faculty receive a LOT of requests for interviews, so we have to be careful not to inundate
others with lengthy questions.
ANY time an OoS staff/intern wants to represent OoS and connect with someone outside of the office,
they must go through the Director of Sustainability first so she knows what type of communication is
happening on behalf of this office.
Remember: Routes (or any communication done by OoS student staff/interns) is not
investigative reporting. Our student positions are responsible for managing the sustainability profile
of the campus by: 1.) providing updates on positive efforts being made toward progress within the
Sustainability Plan and Climate Action Plan, 2.) providing students with an outlet for getting involved, 3.)
providing the Director of Sustainability with suggestions for future sustainable efforts that could happen
on campus. So, detailed, probing questions should not be necessary for any interview conducted on
behalf of the OoS.
Important Websites:
Yammer:
www.yammer.com
-‐ All staff and interns are required to sign-up for Yammer. Ecohouse residents are welcome to
participate in Yammer, as well, if you wish to keep up-to-date with what we’re doing in the
office. Staff members are expected to log-in to Yammer and post something at least once per
shift, so there’s always something happening!.
-‐ Navigate to www.yammer.com and sign up for Yammer using your OHIO email address.
-‐ When setting up your profile, request to join the Office of Sustainability group.
Ohio University Ecohouse Residential Guide
-‐ Play around! Learn important features of Yammer since this is how our staff will communicate:
o OHIO network versus OoS Network
o Various features for posting
o File Sharing
o Posting Praise/Questions/Polls/Comments
Office of Sustainability Website:
www.ohio.edu/sustainability.
-‐ All members of the staff and Ecohouse residents should be familiar with the website and its
contents.
o Please pay special attention to the Sustainability Plan and the Climate Action Plan
Facebook:
www.facebook.com/sustainableou
-‐ All members of the staff and Ecohouse residents are invited and encouraged to “like” the Office
of Sustainability facebook page.
-‐ If you have any items that you’d like us to feature on the facebook page, please email them to
the Social Media Coordinator.
Gmail Calendar:
www.gmail.com
-‐ All Ecohouse residents are required to assist with tours. As such, we need to know your
availability for tours. Please log-in to our staff calendar on gmail using the following log-in:
o Log-in: SustainableOU
o Password: s0larw1nd
-‐ The details regarding how to utilize that calendar are available in the Sunday entry of each
month.
o The requirements for Ecohouse residents are slightly different…
§ Create a calendar with your name as explained in the protocol. Instead of
noting a shift (as our staff would do), merely note times that you would be free
to give a tour (example: If you’re usually free on Fridays from 8am-10am, create
a recurring event that always occurs at that time and name it, “FirstName
LastName-Free for Ecohouse Tours”). This way, if we get a request at that
time, we can simply call you up and see if you’d be willing to take the tour.
§ Also, on a regularly basis, scroll through the next month on the calendar and
look for Tours (light blue calendar label) that are named as “NEED GUIDE” – if
you’re free at that time, email our Tour and Presentations Coordinator to take
that shift.
Ohio University Ecohouse Residential Guide
Emergency ONLY Numbers: FIRE or OTHER EMERGENCY: 911 OU Police Department, Emergency: 740-‐593-‐1911 Annie Laurie Cadmus, Cell: 815-‐238-‐2473 For a recorded message outlining existing OU Emergency situations: 740-‐597-‐1800 Information regarding OU Emergency procedures: http://www.ohio.edu/emergency/
Non-‐Emergency Numbers: Ohio University Facilities Dispatch: 740-‐593-‐2911 Athens Police Department, Non-‐Emergency: 740-‐592-‐3315 Office of Sustainability, Student Office: 740-‐593-‐0460 Office of Sustainability, Annie Laurie Cadmus: 740-‐593-‐0026 Environmental Health and Safety: 740-‐593-‐1666 Tracy Crabtree, Residential/Off-‐Campus Housing: 740-‐597-‐2571
Emergency Protocol: -‐ For all emergency situations, please first call 911. If time permits, please also immediately
call Annie Laurie’s cell phone. If time during the crisis does not allow for a call to Annie Laurie, please be sure to contact her when the situation allows.
-‐ For non-‐emergency concerns that require immediate attention (such as fallen tree limbs, electricity outage, flooding, roof leaks, etc.), please first call Ohio University Facilities Dispatch.
o If the situation is deemed unsafe for living, please call Annie Laurie’s cell phone so she can make alternate living arrangements while the situation is being managed. Or, if the situation is resolved, please call her office number to notify her of the issue so she may ensure that the proper account is charged for repairs.
-‐ For minor maintenance issues (i.e., cracked rain barrel, garden damage, etc.), please wait to submit repair needs during your weekly Ecohouse session or by sending an email to [email protected].
Ohio University Ecohouse Residential Guide
To log into workforce, follow the steps below:
1. Go to www.ohio.edu/finance 2. Click on Payroll 3. Scroll down and click workforce login 4. Sign in using your OAK ID and Password 5. Log your hours worked accordingly 6. At the end of the pay period, click submit hours worked 7. Your hours will be sent to Annie Laurie for approval
To access direct deposit pay slip:
1. Go to www.ohio.edu 2. Click on Current Students on the side panel 3. Go to “my Ohio” 4. Scroll down to “My Personal Information” 5. On the right hand sign click the log in link 6. Enter OAK ID and Password 7. Click on pay slip
Ohio University Ecohouse Residential Guide
Ohio University Office of Sustainability
Tour Training (Present) Last Updated: 8/16/12
All Office of Sustainability staff are expected to be able to facilitate the full Sustainability Tour as outlined here.
• The full Sustainability Tour is a three-part tour: Class II Compost Facility, The Ridges and OHIO Ecohouse.
• Anyone (faculty, staff, student, community member, outside entity) can request a tour, as long as there are a minimum of 8 participants (and a maximum of 25). To request a
tour, they must complete the Tour Request Form and email to [email protected].
• Participants are permitted to take photos. • If any questions are asked that cannot be answered, please take note of the questions
and tell the participants that the answers will be emailed to the individual that scheduled the tour. Then, email your questions to [email protected] along with the name and email address of the individual to send the response.
• Accessibility: This tour requires a great deal of walking (and light hiking). At the start of the tour, assess the mobility of the group. Does anyone have a difficult time walking? If so, those individuals may drive to the compost site and to the Ecohouse – they may want to opt out of The Ridges nature walk.
• Office of Sustainability does NOT provide transportation to tour participants. It is their responsibility to get to the site on time. Our tour guides will meet them on site and leave directly following the tour.
• All Tours will be scheduled using the Tour/Presentations calendar in gmail. ALL Office staff are responsible for checking this calendar during every shift.
• All office staff are required to provide the Tour and Presentation Coordinator with their availability for tours or presentations so as to streamline the tour process.
Ohio University Ecohouse Residential Guide
Compost: Location: The Class II Compost Facility is located on Dairy Lane, just west of the Dairy Barn. If using GPS or Google Maps, the following address will work: 7876 Blackburn Road, Athens, OH. Parking: A parking lot is located on site upon entering the driveway to the facility. All cars must park at the bottom of the hill and walk to the facility – unless there are any mobility concerns (those individuals may drive up to the facility). Parking is free for the duration of the tour but must be removed from the lot upon completion of the tour. Note: If you have anyone with mobility restrictions in your group, have then drive to the top of the hill and, instead do this section at the site of the facility. While still in the parking lot:
-‐ Introduce yourself (name, year in school, major, position in the Office of Sustainability). Thank them for joining you on a tour today.
-‐ Define sustainability. Sustainability is the ability to use resources today in a manner that does not negatively impact future generations’ ability to utilize resources. Or, at least, that’s the textbook definition. To take it one step further, OU’s Office of Sustainability looks at sustainability through the Triple Bottom Line of People, Planet and Profit. People: We believe in the power of personal health and wellness and in the importance of contributing to the vitality of our communities. Planet: We’re concerned about the responsible management, conservation and preservation of our earth’s natural resources. And, Profit: A strong local economy is a key aspect of a truly sustainable community…We need to invest in economic development and proper utilization of the resources at hand so as to allow us to grow in a healthy manner.
-‐ Define composting. Ask if anyone is familiar with composting – does anyone compost at home? Composting is the natural decomposition of organic materials into a nutrient rich soil. Organic materials can include things such as food scraps, leaves and landscape waste. The key is to get an even ratio of carbon to nitrogen. Then, allow the waste to heat and aerate and natural decay will occur, turning your food waste into valuable fertilizer.
As you walk the gravel road up to the facility:
Ohio University Ecohouse Residential Guide
-‐ This road was an old farm road which had to be improved in 2009 when truck traffic was going to start coming through. It is now made of reclaimed asphalt from demolished parking lots at OU.
Top of the Hill:
-‐ Stop at the top of the hill (at the fork in the road) before you get to the facility. -‐ The site is located on land that we now call The Ridges which used to be a part of
the State Psychiatric Hospital. The facility that sits on this land was originally called the Athens Lunatic Asylum. Since it has undergone so many name changes (9 different names!), we’ll call it The Ridges for the remainder of this tour for the sake of clarity.
-‐ The Ridges has received plenty of local and national attention for its unique history. The Office of Sustainability is particularly interested in this history due to its unique connection to sustainability.
-‐ There are approximately 700 acres at The Ridges. We’ll only cover a small portion of that today.
-‐ Facilitate Questions: If appropriate, talk to the participants about their relationship to food. Issues that come up in their own lives would be appropriate. People may mention that they eat “bad” or lots of processed foods. They may say they don’t eat fruits and vegetables or they grow a garden or shop at farmers market. How do they dispose of food? Does their kitchen trash can get stinky?
o When you can, tie their responses back to ecology (see “Phrases and Concepts” section).
Walk toward Composter, stand near collection bins:
-‐ Ohio University currently produces Class II Compost (food and landscape waste) and Class IV Compost (landscape).
-‐ Collection: o Food is currently collected from Central Foods Facility and dining halls. Both
pre- and post- consumer waste is collected. Though, it should be noted that our kitchen preparation process is incredibly streamlined, so a significant portion of the weight collected comes from post-consumer waste.
§ This is one area that our office is currently working to rectify through behavior change programming.
o With the previous system, we were only able to collect approximately 40% of the food waste generated on campus. The expansion project will allow us
Ohio University Ecohouse Residential Guide
to capture 100% of our organic waste on campus. There are conversations with the city to potentially capture some of their landscape waste, as well.
o The food is collected from each of the sites from these green collection bins, wheeled onto the loading dock and picked up daily by our compost staff.
o We do not use plastic liners in the bins. Many other colleges that compost do use compostable liners. We save the resources and money by not using the liners and, instead, using a high pressure wash of rainwater in the bins…
Walk to the rainwater harvesting system:
-‐ This is a rainwater harvesting system. While we do have plumbing up on this site, we use rain water instead of municipal water for the use of the facility. Rain is collected through gutters on the roof and then funneled into the cistern at each
building. The biofilter is located here in the box that you can see, that filters the water. Then, it is collected and stored in two large containers buried under the ground. The two cisterns are connected underground.
-‐ Water is a limited natural resource. What water conservation efforts do you do at home? What ideas do you have for additional water conservation efforts at OU?
-‐ We’ll talk more about the process of cleaning the bins when we get inside the building and I can show you the process.
Walk into the new pole barn.
-‐ Point out the bin washing station. -‐ When you walk in the pole barn you can have people look around and see what
seems “sustainable” about the site. They might notice the windows to provide day lighting, the insulation, and the boxes on the wall (invertors). The boxes on the wall
are invertors; they show how much energy is being generated by the solar arrays at the moment. They also convert AC power to DC power. Some people who have solar at their house will try to buy AC appliances so that they don’t have to lose some power in conversion. But most electric outlets provide DC current and that’s what we use at the site.
-‐ In 2009, Ohio University became the university with the largest in-vessel compost facility in the nation thanks, in great part, to a $350,000 grant from Division of Recycling and Litter Prevention within the Ohio Department of Natural Resources that allowed the institution to purchase a 2 ton in-vessel composting system from Wright Environmental Management Inc. (a Canadian company). o We received an additional $35,105 for the solar array from the Department of
Development's Energy Loan Fund grant program.
Ohio University Ecohouse Residential Guide
o The remaining funding was provided through the operational budgets of two Ohio University departments: Facilities Management and Auxiliaries.
-‐ The original system (Wright Environmental Management, Inc. WEMI-4000) that was installed in 2009 cost $355,370.00. However, the total start-up costs associated with the project were more than twice that, or about $800,000.00. Some of the costs included a road upgrade, a cement pad, and a heated pole barn. The total cost also included bringing utilities to the site, creating a leach field, installing a 10 kWh solar array and installing a rainwater harvesting system.
-‐ The facility was expanded in 2012 thanks to an American Recovery and Reinvestment Act grant in the amount of $1,088,571. The expansion included the addition of: a 4-ton expandable in-vessel system (WEMI-8000EX), enabling the university to compost 100% of its pre- and post-consumer dining waste; a 31.1
kilowatt solar array to completely power the current site and expansion; a 1.4 gallon solar thermal water heating system to improve the ability of workers to clean the collection bins with harvested rainwater; a windrow turner; and a waste-oil burner to heat the pole barn. o The ARRA funds do not encompass all of the costs for this project. Ohio
University has committed to $579,646 of matching funds for successful implementation of the compost expansion.
-‐ The In-Vessel Composting Machine: Ohio University elected to employ this type of in-vessel composting system for management of all its food waste for several reasons: the system features a highly efficient contained system, which has the capacity to manage all forms of organic waste (including meat, dairy, biodegradable service-ware and landscape waste); it speeds the processing of waste into usable soil; it controls odors, vectors and leachates; and minimizes staff time needed for
operation. The tunnel optimizes the natural composting process by controlling airflow, moisture levels and temperatures thereby accelerating the decomposition cycle of organic wastes. Composting material is moved in a plug flow fashion through the tunnel in the designated number of retention days. Material is supported on a series of stainless steel perforated trays that form the tunnel floor. The trays are pushed forward as a continuous unit by an external hydraulic ram. When the ram is moving an empty tray into the tunnel, all trays within the tunnel are moving forward. As an empty tray is being inserted, compost from a single tray is being unloaded at the tunnel discharge end using a series of vertical breaker bars and a discharge auger. The auger discharges the compost from the unloading tray onto a conveyor and the empty tray emerges from the tunnel ready for inspection and re-use. Surges of waste quantities or changes in composition can be
Ohio University Ecohouse Residential Guide
accommodated by inserting and filling more trays than the number required on a typical loading day. The tunnel is controlled for air supply and temperature using dedicated control proves, supply and exhaust fan and an air circulation system with associated air plenums. Composting material then moves through a set of spinners that act to invert, homogenize, agitate and stack the material into the next zone. Water is added during material cross-mixing (if needed) to re-establish proper moisture levels. Material remains in the second zone for an addition number of days equivalent to the retention time in Zone 1 (e.g. 7 days in Zone 1 and 7 days in Zone 2 equals 14 retention days) while significant stabilization occurs through control of air supply, water and temperature. The tunnel is equipped with a series of probes that monitor temperatures. These temperatures, in relation to control panel set points, are used to operate supply fans. The optimum temperature range for
composting organic waste is 50 degrees Celsius to 65 degrees Celsius. The temperature set point in the first composting zone is typically set between 58 degrees Celsius and 60 degrees Celsius for greater than three days to ensure pathogen reduction. A set point between 52 degrees Celsius and 54 degrees Celsius is used in the second zone to maximize conversion of putrescible materials. Any moisture that drains out of the composting material flows into the plenums that run along the base of the tunnel and from the plenums to sump boxes through pipes located at the sides of the tunnel. Leachate is pumped back onto the composting materials from the sump boxes through pipes located at each sump box. Some leachate is released to the on-site septic system when the overall water balance is positive inside the machine. The organic waste is combined with bulking agents (wood chips from landscape waste are commonly used) and then processed in the in-vessel system for approximately 14 days.
-‐ Note: The new facility has an electronic weighing station and conveyor belt to increase worker safety/facility efficiency.
-‐ You can let the group walk up to the top of the system to see where the material is loaded. After the arms turn the material around a few times the bottom is dropped out and the material falls onto one of the trays below. OU added the splash guard, the railing, the safety chain, and the controls up top.
-‐ The University has spent several years testing out a variety of biodegradable/compostable service-ware (plates, cups, forks, etc.). It was discovered that certain products, particularly potato starch-based, do not break down quickly enough to be used with our system. We have had recent success in PLA (polylactic acid) service-ware. During our transition from a 2-ton daily load to 6+-ton daily loads, the use of service-ware as a bulking agent slowed. Once our new system is
Ohio University Ecohouse Residential Guide
running (Fall 2012), we are hopeful that we can reintroduce service-ware as a primary bulking agent in the compost recipe. o Note: Details regarding the “compost recipe” are not provided here since it can
be a temperamental process depending on individual batches of organic matter, among other things. This is a learning process that can only be mastered by experiencing it first-hand. Typically, we strive for 60% food waste and 40% bulking agents.
-‐ The compost staff was trained by Wright Environmental following the installation of each facility. o Additionally, various other staff members at the institution have completed
trainings for successful operation of the facilities. o Currently, waste pick-up and management is handled by one full-time staff
member and approximately 5 part-time student staff members. It is anticipated that staffing will increase in FY 12.
Temperature Gauge:
-‐ When you come back down the machine you can see a temperature gauge. By providing insulation the machine helps control temperature, but it does not heat or cool the material. The temperature of the material is a result of the heat created as the material breaks down. Highlighted in yellow is the ideal zone that the system should be in for optimal break down.
Walk to the rear of the machine (outside portion):
-‐ Explain the process of the waste being pushed out the end of the machine and then placed in windrows on site.
-‐ Once removed from the system, the compost needs to cure for at least 90 days. -‐ Point out the windrows and the windrow turner - The windrows are turned
regularly to offer a more homogenous mix to the compost. The 2012 expansion project included the purchase of a Windrow Turner which is expected to streamline this turning process.
-‐ The resulting nutrient-rich soil is used on-campus (intramural athletic fields, gardens used by Plant Biology students, Ecohouse community garden, etc.).
Walk to the solar Panels:
-‐ The original compost facility had a 10kw solar array and the new system features an additional 30.1 kw. We are still in our first year of the expanded program, so we can’t offer hard data on this, but we’re anticipating that we’ll be generating 100% of
Ohio University Ecohouse Residential Guide
our usage. Both systems are grid-tied. “Grid tied” means that we sell our generated electricity back to the power company. You can also set-up systems that have battery packs and the energy is stored (we do not do that). And, then there’s also the option to remain off-grid where you are dependent upon battery packs and use a different type of converter. What are the pros and cons to each of these options?
o Possible Answers: § Battery packs are often times inefficient and the batteries contain
harmful materials (and need to be replaced frequently). § Grid-tied systems allow you to utilize electricity from the grid should
you need more electricity than you produce. § Back-up battery on a grid-tied system requires more maintenance and
has more start-up costs, but can provide comfort in emergencies. § Off-grid systems are not dependent upon local power and less
vulnerable to black-outs.
-‐ The solar panels are on a Manual Tilt. Twice annually, we tilt the panels to maximize their efficiencies.
-‐ Point out the Solar Thermal panels: Those panels may look like regular Photovoltaic Arrays, but they’re actually part of a solar thermal system. These panels use a glycol solution to heat the water used to clean the bins. We’ll explain solar thermal more in-depth at the Ecohouse because we can get closer to the panels and it will make more sense.
Walk to the opposite side of the Pole Barn:
-‐ Point out the stormwater management site.
-‐ We worked closely with EPA to develop an acceptable stormwater management plan for this facility. The first thing is to note that leachate (excess fluid) from the machine is funneled from the machine to a bioswale that naturally filters the fluid. It is then piped to this retention pond that has been carefully dug to offer an even flow of excess water (in the case of heavy rains) into bioswales.
-‐ Why is stormwater management an important feature to a facility like this? o Possible answers:
§ The leachate contains toxins (from the food) that could contaminate local waterways.
§ Oil/grease from foods and from vehicles will naturally occur in runoff, so it needs to be cleaned before it comes in contact with our water supply.
Ohio University Ecohouse Residential Guide
Closing:
-‐ While composting is an excellent way to divert waste from the landfill, Ohio University is also excited to be able to use this project as a way to promote student engagement and academic programs while improving the efficacy and sustainability of our program. The opportunities for research studies and programming surrounding soil analysis, PLA testing, sociological impacts, behavior change, etc. is at the heart of what we hope to offer. Students are encouraged to contact the Office of Sustainability with research requests as they relate to the Compost Facility.
-‐ Talk about how our goal is not to maximize compost, but to minimize food waste. You want your food waste to be zero. You want to put the compost system operation out of business. You may also talk about how Ohio U’s food waste per
person was twice that of students at other institutions who did food waste audits. Why might that be the case? What can individuals do to change that statistic?
If continuing to The Ridges: Next we’ll take a small hike through The Ridges and talk about Sustainability and its relationship to community and history.
Ohio University Ecohouse Residential Guide
The Ridges: Location: The Ridges is situated between Route 682 and Dairy Lane in Athens, OH. Both of the previous tour sites are located on The Ridges. Parking: If this is the first or only portion of the tour, participants may park in metered parking. For an accessibility map of The Ridges, view: http://www.ohio.edu/disabilities/upload/the_ridges.pdf. Introduction: Begin the tour at the crest of the hill at the compost facility. (This section is also included at the start of the compost tour, so you may omit it if you already said this part)
-‐ The site is located on land that we now call The Ridges which used to be a part of the State Psychiatric Hospital. The facility that sits on this land was originally called the Athens Lunatic Asylum. Since it has undergone so many name changes (9 different names!), we’ll call it The Ridges for the remainder of this tour for the sake of clarity.
-‐ The Ridges has received plenty of local and national attention for its unique history. The Office of Sustainability is particularly interested in this history due to its unique connection to sustainability.
-‐ There are 668 acres attached to The Ridges. We’ll only cover a small portion of that today.
Begin Walking toward trail:
-‐ It started as a psychiatric facility in 1874 and functioned as such until 1991 when it was shut down. It transitioned to university-owned property in 1988, leasing the space in the overlap.
-‐ The land around the compost site was orchards or was farmed, and the dairy barn we passed on the way to the site provided the dairy for the Hospital. It was almost self-sufficient, as the patients were the workers, providing their own food. Eventually it was ruled inhumane for patients to work the land or in the dairy barn and then the operations began to fall apart. The brick for the buildings was mined and fired on these grounds. All of their needed services, such as barbers and doctors, had space on site in the lower levels of the buildings. So, this is its own little sustainability project. When the hospital shut down it was gifted to the University for a fee of $1.
Ohio University Ecohouse Residential Guide
-‐ The reasoning behind the beautiful landscape as the setting for this facility suggested a strong connection to the environment. Mental Health Professionals felt that the serene beauty of this space would naturally improve the health of some patients. This is a belief that we still hold onto today. Many of us find great peace and relief in the silence and beauty of nature. In fact, the Office of Sustainability works very hard to focus on something we call Personal Sustainability. We believe that strengthening our own mental and physical health is the very first step toward achieving true sustainable development of our communities, economy and environment.
When you reach the first cemetery:
-‐ A number of cemeteries were developed on the grounds of The Ridges to serve as the final resting place for any bodies that were unclaimed by their families.
-‐ The earliest headstones were numbered, rather than provide specific information about the deceased. In 1943, they began adding names and dates – but, still on a stone that eroded quickly. Any newer headstones were provided by families who, in more recent years, were able to trace their relatives’ locations and offer them a newer headstone.
-‐ Burials at this time were much more environmentally-friendly than more contemporary burials. Bodies were not embalmed, were wrapped in a light cloth and placed in a simple, unfinished coffin. All of these practices allow decomposition to occur more naturally, faster and with fewer toxins present in the soil.
-‐ Sadly, due to budgetary restraints, many of the headstones entered a state of disrepair and, in turn, many rumors regarding the haunted activity of The Ridges has become one of OU’s biggest mysteries.
-‐ Superstitions aside, we in the Office of Sustainability feel deeply connected to this space. Our contemporary beliefs regarding personal well-being are grounded deeply in the history of the Mental Health Professions. We are now told that regular exercise, exposure to nature, meditation and stress-relief are essential if we wish to be responsible stewards of our space.
-‐ The land on this site has always been manipulated by humans, and like the rest of SE Ohio, anything here is second growth.
As you walk toward the clearing:
-‐ Deer and turkey frequent the open areas we can see from here. Bobcat, first sighted in 2004, may be responsible for the piles of turkey feathers sometimes found here and elsewhere on the walk. Open areas such as that at the base of the hill and in all
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the cemeteries are ideal feeding grounds for bluebirds attracted by the dozen nesting boxes erected for them in these areas.
At clearing:
-‐ Have the participants sit in a circle. Ask them to close their eyes. -‐ Read the following script: I have spoken, on several accounts, of the importance of
personal sustainability and generating connections with nature. In our busy lives as college students, parents, siblings, friends (insert any other nouns here), we are rarely presented with interruption-free time to reconnect with our own thoughts and values. We are constantly plugged in, literally – we’re connected to electronic devices and are limiting our own creativity by stifling free, uninterrupted thought. Keeping your eyes closed, I want you to think about one thing you’ve done this week that required an electronic device. (pause) Now, I want you to think about
one thing you’ve done this week that required the absence of electronic devices, or machines. (pause) Which activity caused you more stress? Why do you think that is? Take a minute to think about your own life and the stresses you encounter…what can you do to remove those stresses? (long pause). Now I want you to open your eyes. Thank you. Based on all we’ve already already discussed today, can anyone talk about their own personal impacts on sustainability? (long pause, allow them time to think…if no one answers, then offer a story of your own). Thank you for your thoughtful reflection. We have another ¼ mile to the Ecohouse, where we will talk about sustainable living. On that walk, I want us to really take advantage of the opportunity to be outside and away from our computers. I challenge you to keep your phones and ipods in your pockets and to take in your surroundings. Listen and look for wildlife. Reflect on the historical surroundings. Simply be present with your classmates/colleagues and enjoy their
company.
-‐ We will be taking the stairs down to Dairy Lane and turning left. I ask that you stay on the grassy area to the left of the road.
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Other Ridges Facts:
-‐ The residents of Athens purchased this land from the Coates family in 1867 and
then donated the 150 acres to the state for construction of the facility.
-‐ Athens was selected for this facility since its location was centrally located among
the rail lines at the time.
-‐ There was ready access to pure soft water thanks to a variety of springs on the land.
-‐ The land is positioned in such a way that is favorable to natural drainage.
-‐ Henry O’Bleness was hired for the making and laying of the bricks needed for the
initial construction.
o The bricks were made on site from clay dug on site.
o It is predicted that there are approximately 19 million bricks used in the
facilities.
-‐ The buildings are constructed using the Kirkbride model (named after architect
Thomas Kirkbride, who believed that beautiful and serene settings promoted healing
in the mentally ill).
-‐ Food was prepared on site in the kitchen and then distributed to the wings by
transporting on a small railroad in the basement and up to the appropriate floors via
dumbwaiters
-‐ The campus was really a self-sustaining system (in fact, the only real cost was
purchase of local coal and oil for heating and electric).
o The food was harvested and prepared on site through the garden, dairy barn
and orchard.
§ By 1911, the dairy provided enough milk to supply each patient with
one pint per day!
o Amenities and resources such as a barber and medical services all had offices
on site.
o Other facilities included a sewing room, kitchens, bathrooms, chapel, a
visitor’s room, an amusement hall and staff quarters.
o Under the direction of George Link, over 10 miles of roads and walks were
constructed using one horse carts and manual labor.
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o In 1913, a still for making alcohol was discovered on the grounds.
§ It turned out to be the product of a patient, with the help of
carpenters and maintenance personnel.
-‐ The original facility (1874) had enough beds for 570 patients. Additional buildings
were added throughout the years, reaching approximately 600, 000 square feet of
building space and accommodating as many as 1, 362 patients by November of 1911.
-‐ The rechanneling of the Hocking River in 1968 destroyed much of the carefully
constructed grounds (including 4 ponds- shaped like a heart, spade, club and
diamond - that were used as ice skating ponds in the winter and for ice for the
facility).
o This shift in grounds also shifted community use of the space – community
members no longer utilized the facility for recreational purposes.
-‐ By 1981, there were fewer than 300 patients in the facility.
-‐ In 1982, Ohio University was gifted 344 acres of the facility and received the
remaining acreage in 1988.
-‐ The mental health facility transitioned to a new space in 1993.
Ohio University Ecohouse Residential Guide
Ecohouse: Location: The Ecohouse is located at 8133 Dairy Lane, Athens OH. Parking: This is a private residence. So, we ask that tours do not park at the house (park at the Compost facility or The Ridges). The exception to this is for one single transport vehicle to park at the house to take a carload of participants (drivers of other cars) back to their vehicles. Begin at the bottom of the hill:
-‐ This is the OHIO Ecohouse. It is a student residence with a sustainable twist. -‐ The house is 100 years old, and for most of its existence it served as a single family
residence. OU acquired the Ecohouse when it purchased all of the Ridges, and it was used for years as a temporary housing for visiting professors or professors in transition that haven’t yet found a home in Athens. In 2005, with the help of motivated students, professors, and community members the Ecohouse project was launched. The 2005/2006 school year was the first year students lived in the house, and it was an Ecohouse in name only. At first, it was all about the motivation of the students who lived there. They were interested in sustainability and experimenting with different ways of living to reduce their impact on the environment. Since then, there has been a lot of money invested in the house, but it is constantly changing and continues to be a place that is led by the motivations of its residents.
-‐ Students are chosen to live here after participating competitive application process. The next round of applicants will be selected in October for the following academic year.
-‐ Three students currently reside in the house. And, they are asked to learn about and practice a sustainable lifestyle. They aren’t asked to be experts on sustainable living, merely to learn about the lifestyle and help us educate others.
-‐ The entire goal of the Ecohouse Project is to show that it is possible to live a sustainable life in an affordable and respectable manner. Sustainable can look nice and be affordable! It’s also a great time for self reflection. With that said, going back to our earlier conversation, what have you thought about in your own life that may have a connection with sustainability? (let all who want to answer the question, if there’s silence, tell them something you do that is NOT very sustainable---it helps break the ice and remove the guilt).
-‐ Many of the features of this house are so subtle, we won’t even talk about them. Sustainable living can be as simple as recycling, bringing your own bag to the grocery
Ohio University Ecohouse Residential Guide
store or humanely managing rodent problems to more obvious such as the Solar Thermal array here.
Walk to the Solar Thermal array:
-‐ We talked briefly about Solar Thermal at the Compost facility. You’ll recall that the array at the compost facility was on the roof. This one is ground mounted. Both are completely acceptable styles of installation.
-‐ So, let’s start with the basics…what is a solar thermal array? (pause for answers). It’s essentially a hot water heater….It’s a sustainable way to heat your water. See, we use a glycol solution in the tubes that run along these panels and the water flows through those tubes, the water passes through the glycol loop and heats the water.
o Glycol solution- like antifreeze. 1. More efficient at transferring heat. 2.
Doesn’t freeze
-‐ In warmer climates, you will see water piping painted black on the exterior of homes. That’s actually a cheaper, even more efficient way to heat your water---but, it’s just not as sexy as a panel in your yard.
-‐ So, if Solar Thermal is using the power of the sun for the purpose of heating water and a Photovoltaic array is using the power of the sun to create electricity, which of these two technologies do you think is more efficient? The Solar Thermal! Why? Well, we’re using heat to create heat, so nothing is lost in the conversion. But, with PVs, we’re using light and converting it to electricity, so we lose some efficiencies in the process.
-‐ Costs: $7000, payback in 5-7 years. fast payback. Great investment for most homes. Can be subsidized by government.
Solar Powered Clothes Dryer:
-‐ Make a joke about the “expensive solar powered clothes dryer” and talk about how the residents save electricity by allowing the clothes to air dry.
Rain Barrel:
-‐ Much like the rainwater harvesting cistern at the compost facility, we collect rain and use it for a variety of purposes: flushing the toilet, watering the lawn/garden, washing garden equipment, etc.
Compost:
-‐ This is a more traditional in-home composter. The general idea is still the same, but on a much smaller scale than the university-wide compost facility. The food waste and landscape waste from the house is placed in the barrel, which is rotated
Ohio University Ecohouse Residential Guide
regularly (about once per week) and that allows the breakdown of materials to happen faster.
-‐ A third and fourth example of composting are available in the basement (vermicomposting) and in the community garden (bin composting) – and, all are acceptable ways to compost in the home.
Photovoltaic Array:
-‐ We have a 2.4kW, grid-tied system installed by Dovetail solar and wind. OU paid $20,000 for the solar array after government rebates/subsidies/incentives. The cost of solar has decreased significantly since this was installed, making it much more accessible for the average homeowner.
-‐ There are 2 kinds of electricity demand: instant high demand and long-run total demand. Our system is grid tied because we use more electricity than we produce. However, even if we produced enough on average, we still might not produce enough for short periods of high demand. In addition, battery storage is inefficient and it is more efficient to use the grid as our battery.
-‐ Efficiency of the PV array is relatively low, about 12%. Our array is not in an ideal spot because we live in a holler and therefore don’t get as much direct sunlight as we would in a flatter area or higher up. The PV panels work more efficiently in the winter, but they provide more electricity in the summer because there are many more hours of good sunlight. What about solar electricity in SE Ohio in general. We already have good high voltage power lines infrastructure which are good for connecting to solar. We don’t get as much sun as many places, but we do have population centers nearby. Energy is also lost in the transport of electricity. Because of this, a desert out west might seem like a great place for solar, but there
aren’t any population centers nearby and the electricity has to be transported and so it loses a lot in transmission.
-‐ Downsides to solar: not affordable, takes up a lot of space, not enough power, embodied energy (the amount of energy needed to create the panels), PVs need to work for 10 years before they repay embodied energy, wind energy is much better, PV panels are made from mined silicon with a limited supply
-‐ Upsides: some places solar is critical if the location is off the grid, creates incentives for R & D, everything first generation costs a lot, over time price declines, economies of scale, cleaner option, many of the costs of fossil fuels are not economic such as air quality and health.
-‐
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Community Garden:
-‐ This space was once just a garden for our residents, but we’ve spent a lot of time and energy converting it to a campus garden. Any student, faculty or staff member is able to adopt a plot for free!
-‐ Everything grown in the garden is organic. What is organic? Why does it matter? Organic among commercial products is a certification that verifies that something was grown without chemical fertilizers or pesticides. Chemicals are all around us, why should it matter if they’re used in growing our food? First of all, fertilizers and pesticides are usually petroleum based; this increases our reliance and dependency on foreign oil. Also, these chemicals may have a negative impact on our health in the long run. However, there is no conclusive research that shows how chemical pesticides affect our health. Chemical fertilizers can seep into groundwater or get carried off in rainwater runoff into surface bodies of water such as streams, lakes and oceans.
-‐ Why is that bad? When a water bodied is contaminated with excess nutrients, it can stimulate the rapid reproduction of algae causing an algal bloom. These algae multiply and use up the majority of these excess nutrients until there is no longer enough nutrients in the water to support the large population of algae. As a result, the algae begin to die. At this time, there is a lot of dissolved oxygen in the water, a necessity for aquatic life. As the algae die, they are decomposed by aerobic bacteria which themselves quickly multiply and use up all of the oxygen in the water. The bacteria continue to do so until there is no oxygen left. At this point, the affected area becomes a dead zone where plants and animals can no longer live, and the remainder of the algae are decomposed by anaerobic bacteria which produce greenhouse gas.
-‐ Chemical pesticides can create resistance among the pests that they target, and as a result higher and higher doses of the toxic chemicals must be used.
-‐ How else is conventional agriculture petroleum dependent? -‐ Transportation- farm goods are mass produced in certain regions and then shipped
throughout the country. This may actually be more efficient use of fossil fuels overall if sufficient economies of scale reduce the fuel used per unit produced.
-‐ Mechanization- Modern agriculture is extremely capital/machine intensive and uses very little human power. All of these machines require fossil fuel.
-‐ Does anybody recognize anything in the garden? Does anyone have any gardening/farming experience? Has anyone been to the Athens farmers’ market? Why? Know who grew your food. Eating seasonal is natural and good for the earth.
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There are natural conditions favorable for different foods at different times. Creating artificial conditions requires more resources such as fuel/water/nutrients/etc. Our market was rated in the top 10 farmers’ markets in the country by the Audubon Society. Sustainability is not about depriving yourself, rather it is a way to have a higher quality of life and not degrade the environment.
-‐ Does anyone have a diet that has an impact on resource use? Local? Meat? Vegan? Fast food? Slow food?
-‐ Point out the compost pile – it’s different than the other two we have viewed today. There are as many ways to compost as there are people who compost.
Optional: Indoor Tour: Note: Participants are only allowed in the kitchen and basement out of respect for our residents’ privacy.
-‐ Kitchen: o Compost collection o Appliances- Energy Star- EPA rating for energy efficiency. This is a
mandatory labeling to assist consumers. Also for buildings (like LEED). Shows operating costs instead of just initial costs. Electricity only, not water.
o Dishwasher- small, more likely to be full, water efficient o Fridge- energy star, freezer on bottom o Insulation- house re-insulated to reduce heating/cooling costs. Windows
insulated o Programmable thermostat- allows us to save energy when house doesn’t
need to be hot because people are sleeping or not home
-‐ Bathroom (talk about it, but stay in the kitchen): o Grey water system- save water, $, energy; don’t need drinking water to flush
toilet. Use rainwater, dishwater, dehumidifier water o showerhead- saves water, low-flow, and kill switch on showerhead
-‐ Basement o Vermicomposter o Washing machine- water efficient, energy star, uses less detergent,
manufactured in ohio, $1200 o Dryer- manufactured in Ohio, lint goes to worms o On-demand water heater- gas powered, heats water as needed instead of
having a full tank of hot water 24 hours a day, costs $900 (private homes can get $300 rebate)
o Insulated hot water tank - pays off very fast, should be standard
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o A-Maize-ing heat- can use recycled wood but doesn’t always if demand is too high, carbon neutral because trees are part of the current carbon cycle unlike fossil fuels which are stored carbon (terminology debatable), dirtier with respect to particulate matter
§ wood vs. maize- wood is not a food product, price difference, also wood has higher heat potential per weight, (BTUs),
§ self-augering, different than a traditional wood stove that needs human-powered fuel addition, $2000 cost of furnace, can save money (depends on fuel costs)
o Inverter- DC to AC current. Panel produces DC, most home appliances use AC. 2 kW inverter, but we have a 2.4 kW array, more cost efficient because we rarely produce full capacity, right sizing- buy a cheaper inverter that will
have sufficient capacity most of the time
Ohio University Ecohouse Residential Guide
Questioning Techniques Effective questioning techniques can be easily developed with practice. Some guidelines to keep in mind
are:
• Keep the wording of the questions free of jargon
• Use familiar terms – familiar to both you AND your audience
• Use age-appropriate language
• Be clear and direct
• Pose questions one at a time – not in rapid-fire succession
• Allow time for answers, rephrasing the question if necessary. When rephrasing, make sure you
don’t totally change the question or the answer desired.
• Not all questions need to be answered
• Above all, be flexible!
Levels of Questioning:
1.) Focus Questions – the most basic type of question, this level of questioning allows the
interpreter to sum up background information the visitor may have. It requires the visitor to
obtain specific information using perceptual skills (listen, see, touch, smell, taste) or language
skills (verbal, written).
a. Answers require knowledge of the subject
b. Allows interpreter to determine if information is already known or is being learned
c. Involves recall/identification/definition
d. Sometimes a yes-no or a one-word answer
e. Key Words/phrases: Name, List, Count, Define, Label, Identify
f. Sample Question: Can you describe the types of food you eat in the dining halls that can
be composted?
2.) Process Questions – This type of question has a wider scope of possible responses. The
audience is asked to integrate information rather than just remember or describe. At this level,
the participant will build on information acquired earlier and apply reasoning skills to
information about objects.
a. Require application of reasoning
b. Require organization of information to form an opinion or justify it
c. Involve explanations of relationships between objects, things, etc.
d. Integration of new information into previous experience
i. Key words/phrases: Compare, explain, justify, organize, categorize, plan,
summarize, develop and argument.
e. Sample Question: Why do we compost?
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3.) Evaluative Questions – At this level, questions are used to ask the participant to go beyond
the known. The questions deal with matters of value, choice or judgment of the audience. This
type of question will often stimulate interest and creativity. They encourage the participant to:
a. Transfer new information or ideas, then make judgments
b. Go beyond known or given information
c. Make predictions
d. Formulate hypotheses
e. Key words/phrases: Suppose, speculate, imagine, revise, compose, decide
f. Sample Question: Imagine what our world would look like if everyone composted
instead of sending so much to the landfill…how would our lives be different?
4.) Affective Questions – This type of question deal less with the cognitive aspect of the
experience and instead focuses on the emotional aspects. Affective questions are those that
enable participants to clarify values and explore feelings; that enable participants to get in touch
with some intangible elements of their experience.
a. Sample question: What personal changes do you feel you can make in your life to assist
with our sustainability efforts?
Adapted from Questioning Techniques by Tess Schatzer
Ohio University Ecohouse Residential Guide
Presentation and Group Facilitation Tips:
When Asking Questions: • Direct most questions to the entire audience rather than a single individual. This
indicates to the group that everyone is expected to think. • Ask only one question at a time. • Allow time for an answer. This is called “wait time.” Try not to answer your
own question. If no one offers a response, leave it open to be answered later, or rephrase the question.
• Do not start a question with “Does anyone know…” or “Can anyone tell me…” Such phrases express doubt that the question can be answered.
• Pace questions to the ability of the group. • Develop ideas and concepts through a series of questions. Build from focus
questions to process questions to evaluative questions. This challenges your group to higher levels of thinking.
• Accept answers gracefully, even if the answers are wrong. Never make someone feel foolish for participating in the program.
• Avoid asking questions that require a simple yes or no. When Using Props:
• Involve different senses with props. Odors and noises capture a group’s attention. The sound of a ringing bell, a rifle firing, even a silence can all be powerful tools (though, Office of Sustainability discourages the use of firearms).
• Use historical artifacts (or reproductions). They can be used to invoke a bygone era, helping the visitor to travel back in time.
• Involve the visitor with the propr. When possible allow them to touch the object, to hold it. We remember what we experience.
• Use familiar objects in unfamiliar ways in order to help you draw analogies between common objects and the natural world. For example, assembling a flashlight clearly shows the concept of interdependence – the ideas that different parts work together to make a system.
When Using Humor:
• Relate the story to the talk. Humor should be used only if it illustrates an important point. If it is used only to gain a laugh, it is inappropriate.
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• Use a story only if it is not offensive and is one with which the audience can identify. It is important to exercise good taste and not embarrass your audience or the Office. If anyone is the target of the humor, make it you.
• A humorous story or anecdote should arrive unannounced. It should drift in and out of the plot unobtrusively.
• Humor requires timing and delivery to be effective. Use it only if you feel comfortable with it and understand it.
Ohio University Ecohouse Residential Guide
When Using Guided Imagery:
• Use guided imagery to transport people to a time and place where they cannot physically go.
• Research your subject to create accurate images. • Develop a script that relates to the sequential images in story form. • Place your audience in a setting conducive to entering their imagination. Create a
peaceful, trusting atmosphere. • Use good storytelling techniques to guide the group through the experience.
Take the time to allow people to visualize the scene. • Have the group share their experience.
For Storytelling:
• Select stories that mean something to you and that you like to tell. Good stories relate to a group’s common experiences
• Select stories that are relevant to your interpretive goals. • Research the facts of fthe story. You have to know your subject to do more
than simply entertain. • Select a point of view. Will you tell the story from an omniscient perspective in
the third person or in the first person as if it happened to you? • Memorize a sequence of images for the story, but not necessarily the words. • When telling the story, keep the listener’s imagination engaged with sequential
images. Use voice reflection that fits the action, use gestures to paint images, recreate sounds for dramatic effect, or create distinct characters and have them speak to each other.
• Use frequent pauses so the imagery can unfold. Avoid going more than 10-12 syllables without a pause, but do so at random so there is no distracting pattern. Hold pauses longer to create suspense.
• Storytelling is an intimate medium. Everyone should feel that you are talking directly to them. Make random eye contact and focus on individuals.
• Avoid using props. Imagery is the storyteller’s tool. When props are used, listeners focus on them rather than the story being told.
• Avoid over-illustrating and telling too many details. • Believe in yourself. Enjoy what you are doing and the audience will, too.
Compiled from The Interpreter’s Guidebook: Techniques for Programs and Presentations by Kathleen Regnier,
Michael Gross and Ron Zimmerman. University of Wisconsin Foundation Press, Inc. 1992.
Ohio University Ecohouse Residential Guide
Facilitating Questions to Children
Why does “going green” matter?
What do you do or see other people doing that is good or bad for the environment?
How is eating connected to going green?
Does anyone know anyone who doesn’t eat any meat?
What is neat about getting food locally?
Does anyone live on a farm?
How much food do you throw away?
Why does food end up in the trash?
How do your parents get you to eat food?
Where does the food go when it ends up in the trash? What’s the problem with that?
Does anyone’s food at home go somewhere else but to the landfill? Tell me about it. What goes in
your compost pile? What happens to the food? Why is composting good for the Earth?
What else around here do you notice that might be considered green?
Do solar panels collect more energy in one hour of sun in the winter or the summer? Do they collect
more energy overall in the winter or summer? How would we generate electricity without solar panels?
What is the problem with fossil fuels?
Other points to touch on: the rainwater harvesting system, the road, the Ridges history
Walk around and look at the compost machine—how it loads the organic waste, turns it, and produces
a soil amendment.
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As a closing activity, talk about Ohio U. wasting a lot of food in the dining halls. Ask them why they
think kids on campus wastes large amounts of food. How do they think they can reduce their food
waste? Give each child a card and they can make a commitment to reduce their waste at the dining hall
during lunch.
Phrases and Concepts
Food and Ecology: Food Chain: In ecology, the sequence of transfers of matter and energy from
organism to organism in the form of food. Food chains intertwine locally into a food web because most
organisms consume more than one type of animal or plant. Plants, which convert solar energy to food
by photosynthesis, are the primary food source. In a predator chain, a plant-eating animal is eaten by a
flesh-eating animal. In a parasite chain, a smaller organism consumes part of a larger host and may itself
be parasitized by even smaller organisms. In a saprophytic chain, microorganisms live on dead organic
matter.
Because energy, in the form of heat, is lost at each step, or trophic level, chains do not normally
encompass more than four or five trophic levels. People can increase the total food supply by cutting
out one step in the food chain: instead of consuming animals that eat cereal grains, the people
themselves consume the grains. Because the food chain is made shorter, the total amount of energy
available to the final consumers is increased.
- Encyclopedia Britannica, Inc.
Biofilter, Biofiltration: A pollution control technique using living material to capture and biologically
degrade process pollutants. Common uses include processing waste water, capturing harmful chemicals
or silt from surface runoff, and microbiotic oxidation of contaminants in air.
-‐ Wikipedia
Bioswale: Landscape elements designed to remove silt and pollution from surface runoff water. They
consist of a swaled drainage course with gently sloped sides (less than six percent) and filled with
vegetation, compost and/or riprap. The water's flow path, along with the wide and shallow ditch, is
designed to maximize the time water spends in the swale, which aids the trapping of pollutants and silt.
Depending upon the geometry of land available, a bioswale may have a meandering or almost straight
channel alignment. Biological factors also contribute to the breakdown of certain pollutants.
A common application is around parking lots, where substantial automotive pollution is collected by the
paving and then flushed by rain. The bioswale, or other type of biofilter, wraps around the parking lot
and treats the runoff before releasing it to the watershed or storm sewer.
-‐ Wikipedia
Ohio University Ecohouse Residential Guide
Ohio University Ecohouse Residential Guide
(Past Tour Script) OHIO Ecohouse Notes
By: Kylie Johnson
Tour Interaction
When conducting a tour at the Ecohouse, the emphasis should be placed on stimulating
conversation with visitors about sustainability issues. It is important to engage visitors in critical
self-‐reflection instead of just delivering information. When beginning a tour, start out by getting a
baseline understanding of the knowledge level of the group. This can be done by asking questions
about their individual backgrounds and this will stimulate conversation and help engage the group
throughout the tour.
Background Information
The OHIO Ecohouse is a residence for OU students and is considered a university housing
option. The house is over 100 years old and was a family residence for many years. The Ecohouse
was acquired by Ohio University along with the ridges property. When it was first purchased by the
university, the Ecohouse was a normal home used to house visiting faculty members or other short
term visitors.
In 2005, the Ecohouse project was launched with the first set of students living in the house.
At this time, there were no physical changes made to the house that defined it as being an eco-‐
friendly home. Rather, the emphasis was placed on the attitude of the residents who were expected
to be eco-‐minded and supportive of sustainability issues.
Group Discussion
After background information has been given about the house, initiate group conversation
in a circle setting. Ask visitors general questions such as their names, what they are studying/where
they work, and something about their current lifestyle that can be related to sustainability issues.
To stimulate discussion, visitors could be asked where they are living or how they are currently
living. This does not necessarily mean how “green” they are living, but rather opening the door to
see what issues can be explored.
Ohio University Ecohouse Residential Guide
While discussing issues with a tour group, it is important to make it clear that you have an
open and critical mind and are aware of the challenges associated with living sustainably. When
asking questions and conversing, make sure comments are phrased in a non-‐judgmental manner so
that people do not feel they are being criticized for their current lifestyle choices. An example of this
is when discussion is generated about water conservation and taking long showers. Instead of
criticizing someone that admits to taking long showers, keep your reaction light-‐hearted but also
thought provoking. An example response could be, “Wow, what are you doing in the shower that
long?”
In addition, do not let every group member give the same answers in response to questions.
Make this apparent in the beginning so that they know individual critical thinking is encouraged
throughout the tour. An example of a critical thinking question could be phrased in a way such as,
“do you think overall OU students are good or bad recyclers?” This type of open-‐ended question can
generate productive discussion.
Garden
The Ecohouse is the only residence on campus where you can grow your own food. Everything in
the garden is grown organically. Explore topics related to food and food production with visitors.
� What is the difference between organic and non-‐organic, and why does it matter? Organic foods are grown without chemical fertilizers and pesticides. Being organic refers to the actual certification of the food. � What is the problem with chemicals? When asking this type of question, play the part of an open-‐minded thinker. We have chemicals all around us, so what is so bad about them? � Chemical fertilizers-‐ These are petroleum derived along with plastics, paint, etc. Because fossil fuels are stored up energy, they provide a rich source of nutrients. This is why chemical fertilizers are effective on plants. However, they are very detrimental to waterways for the same reason. Chemical fertilizers are full of nitrogen that cause algae blooms in waterways because of the rich nutrients they provide. The aerobic bacteria thrive on these nutrients from the algae blooms, causing the whole system to become anaerobic which creates “dead zones” in the waterways. With fertilizers, only a small portion is actually absorbed by the plant and the excess creates issues for the ground and water systems. � Chemical Pesticides-‐ These are also petroleum derived. No significant research exists that link pesticides to negative impacts on humans. However, it creates other problems, including insect tolerance and petroleum dependency.
Solar Array
Ohio University Ecohouse Residential Guide
The solar array was installed by Dovetail Solar & Wind and is a 2.4 kilo-‐watt system. It is a PV
(photovoltaic array), and is grid tied. It can provide 40% of the energy for the house. The cost of the
array was $20,000 after rebates provided by the state of Ohio. There is a subsidy for alternative
energy installations that applies to PV, wind, and solar thermal. Efficiency is low for PV, and is about
12%. There are constraints with PV cells associated with losses from transmission and issues with
climate.
� What are the advantages of a grid tied system? � Why bother with solar? Where does our energy come from? � When are solar panels the most efficient, in the summer or winter?
Problems associated with solar power:
� Not efficient � Battery & transmission � Location (Ohio not an ideal location) � Embodied energy-‐energy used to make the product. Solar panel made from silicon which is a mined resource
Why bother then?
� Investing in solar created demand for further research and development into more
efficient designs
� Solar is critical in certain locations such as phone boxes on the highway that are off the grid
� The more we deploy, the more the industry will be able to develop and reduce costs associated with manufacturing � Still a cleaner option if you take costs of mining, waste, burning, damages into account
Solar Thermal
The solar thermal system was installed by Third Sun and they usually range from $4,000-‐$7,000.
This specific panel was $4,000. The system works by the heat of the sun heating a glycol solution
that is running through the pipes that are visible in the panel. It is a PV solar array that works by
light hitting the surface of the panel, which provides energy that is pumped into the house to heat
the water. This system is more efficient than traditional water heating systems because it uses heat
to make heat. The glycol solution is needed because if just water was heated, it would freeze in the
winter and burst the pipes. This system is a good investment because the payback period is only 5-‐
7 years.
Ohio University Ecohouse Residential Guide
� Why is this system more efficient than a traditional system? � Why would you need a glycol solution running through the pipes instead of water?
Compost
Composting is the process where organic matter decomposes at an accelerating rate. This is
different from biodegrading because composting is accelerated because a higher temperature is
achieved during the breakdown process. This is an aerobic process that requires the correct carbon
to nitrogen ratio of 3:1 for proper breakdown to occur. If your compost smells, then you are doing
something wrong like possibly not adding enough brown material or putting rotten food in the
compost pile. Rotting is an anaerobic process. Composting is temperature dependent and
determines the speed at which the material breaks down.
� What do you notice that Ecohouse residents eat? How sustainable is their diet? � Why should we bother with composting? � What is the connection between composting and landfills?
You can also mention at this station that verma-‐composting is another option using tropical red
worms to break down material. Additionally, you can mention the in-‐vessel composting system
used at OU that is just up the road from the Ecohouse.
Kitchen
When you walk into the kitchen with a group, you can ask what features they notice that are
sustainable as far as technology or practices. Features they may point out include: recycling bins,
reusable containers, refrigerator with freezer on the bottom, composting bowl, ceiling fan, compact
dishwasher, etc. Mention the energy star label located on the fridge and other appliances in the
house, and explain what it means. Energy star is an EPA program that requires mandatory labeling
for appliances. All appliances are rated on the same scale of efficiency, and this program is a
counterpart to LEED. If there is time, you can have a conversation with your group about the value
of rightsizing appliances and the efficiency of electricity versus that of gas stoves.
Other sustainable house features include:
� Insulation. Blown cellulose insulation made from reused newspaper fiber. It is blown through small holes in the wall. � Plastic covering on windows � Programmable thermostat � Grey water system
Ohio University Ecohouse Residential Guide
� Shower head nozzle. It is low flow but preferable over standards � Water-‐saving bottles in top of toilet tank
Basement
Washing machine-‐ It saves water because it spins clockwise instead of circularly. It is an energy
star appliance and uses less soap than traditional washers. It was manufactured in Ohio by Staber.
The cost was $1200.
Dryer-‐ Not necessarily considered sustainable, but it was purchased locally. Also, the dryer lint can
be fed to the red worms in the verma-‐compost.
On-‐Demand heater-‐ When the solar thermal does not produce enough heat, the on-‐demand system
kicks in to heat the water the rest of the way. The advantage to this system is that the gas heat is
used less than in a traditional setup. The hot water tank is insulated on the outside, which is not
standard for most systems. It helps retain some of the heat. This system was $900.
A-‐maize-‐ing heat furnace-‐This furnace was originally meant to use maize for its heat source, but
corn is more expensive to use and it also takes away from a food source if it is used instead as a
biofuel. Instead, wood pellets are used. The pellets can be made out of recycled wood, which is also
a more sustainable practice than using corn. Just like any other furnace, the efficiency depends on
temperature, time of year, flame, etc. The cost of this system is $2,000 and it can save on fuel
expenses depending on the variables mentioned above.
� Why would burning wood be better than regular furnaces? � What are some negative issues associated with burning wood?
Burning wood is better than burning fossil fuels that add greenhouse gases into the atmosphere.
Some consider wood to be cleaner than coal for this reason, but calling wood a cleaner source could
raise issues for some because burning wood still involves cutting down trees that leads to
degradation and habitat loss. However, wood is a renewable resource unlike fossil fuels. Also,
Ohio University Ecohouse Residential Guide
particulate matter is much worse when burning coal compared to wood, and dangerous toxins such
as mercury are released when burning coal.
Inverter-‐ This unit changes the electric current from the solar panel from DC (direct current) to AC
(alternating current). It is a 2kw inverter compared to the 2.4 kw array. The inverter has a smaller
capacity because it costs more to have a large inverter, and it wouldn’t be that much more efficient
if it were the same size because you do not normally produce the maximum amount of energy. It is
more efficient to “right size” in this case.
Ohio University Ecohouse Residential Guide
Ecohouse Walkthrough (Past Tour Script)
Transportation
Bicycling
Residents of the Ecohouse choose to walk or bicycle to class or around campus as much s
possible. Some residents do own cars, but they are not normally used for daily transportation. The
Ecohouse has a bike rack out front for residents or visitors to use.
Greasel Collective
The Ecohouse sponsors a greasel collective in its garage. Local residents who have properly
converted their own diesel cars to run on filtered grease collect grease from local restaurants and
bring it to the Ecohouse garage for filtration. The collective helps to intercept waste grease from
local restaurants like Casa Nueva from being sent to a landfill. Although the Ecohouse residents do
not use the biodiesel in their own cars, the Ecohouse supports the use of alternative fuels.
Efficiency
Insulation
The Ecohouse is committed to reducing energy consumption as much as possible. During
the beginning stages of the renovations, COAD performed an audit on the house in order to
determine what efficiency measures would be most effective. Insulation was one of the main areas
that needed to be addressed. The Ecohouse has been insulated with Nu-‐Wool blown cellulose and
R19 in the attic, sidewalls, crawl space, and basement walls, which has increased efficiency
significantly. Another step residents take to insulate the house is to keep the storm windows in at
all times and they add shrinking or plain window plastic to the windows in the winter in order to
retain heat.
Energy Star Appliances
Several main appliances in the house are Energy Star appliances. Energy Star appliances are
more efficient in use of energy than other appliances of a similar capacity, and they can be
Ohio University Ecohouse Residential Guide
purchased at any major appliance store. The Energy Star appliances in the Ecohouse are the
refrigerator, the dishwasher, the clothing washer, and the dehumidifier.
Refrigerator
The refrigerator uses 1000 watts, which is approximately 40% of the output of the solar
panels. One aspect of its design that lends to its efficiency is that the freezer is on the bottom. Since
heat rises, having the freezer closer to the floor means that the freezer must use less energy to stay
cold.
Dishwasher
The European-‐designed dishwasher is smaller than a standard dishwasher because the
Ecohouse has a small number of residents. The smaller size is more efficient because when it is
used to wash the dishes in the house it is more likely to be full.
Washing Machine
The Staber washing machine is an Energy Star certified appliance that uses significantly less
water than a regular washing machine. It was manufactured by Staber Industries of Groveport,
Ohio, and ordered through Dovetail. In a large load, it uses about 16 gallons; a standard washer
would use about 35 gallons. The machine is able to use significantly less water because it works
like a front load washer where the clothes are spun through the water in the way that a dryer
tumbles clothes. The washer does not need to fill up as much because the clothes all pass through
the water constantly. The washer is not front load; there is a cage in the unit that can be opened
from the top and locked in place. Although it is not energy efficient, the dryer was also purchased
from Staber Industries because it is a local product. the dryer is mostly used during the winter
when the clothesline is difficult to use.
Dehumidifier
Compact Fluorescent Light bulbs
Using compact fluorescent light bulbs (CFLs) can be the easiest way to save energy in the
home. They can be purchased anywhere that sells light bulbs, and although they have a higher up
front cost, they save much more in energy costs and replacement costs over their lifetimes. A CFL
uses about 2/3 less energy than a standard incandescent one and it can last from five to nine years.
Ohio University Ecohouse Residential Guide
Most of the light fixtures use 13 or 23 watt CFLs that give off the same amount of light as a 60 or
100 watt incandescent bulb. The solar array produces enough energy to power about 185 13 watt
CFLs compared to only 40 60 watt bulbs for one hour.
Power
Solar Array
The Ecohouse Solar Array is a 2.4 Kilowatt system, which would provide about the amount
of energy that it would take to light 40 60-‐watt light bulbs for 1 hour or to power 2.5 standard
refrigerator units. The panels, which cost approximately $23,000, were manufactured in Spain and
they were installed by Dovetail Solar and Wind.
Heating/Cooling
Biomass Furnace
The Ecohouse is heated by a biomass furnace that furnace cost $2,450 and was purchased
from a company in Iowa. The furnace runs on wood pellets, corn kernels, or other biotized pellet
fuel. A full load can keep the house heated for two weeks. It is only used when it is needed with the
help of the programmable thermostat. The biomass furnace is considered to be carbon neutral
because the carbon that is emitted equals that which the corn or trees sequestered.
Programmable Thermostat
The thermostat in the Ecohouse is programmable so that the house is heated only when
heating is necessary. This can save energy because it eliminates unnecessary use of the furnace
during warmer winter days.
Whole House Fan
During the renovations process, the house received baffles, roof vents and an attic
fan to take care of the air flow issues. The house does have central air.
Ohio University Ecohouse Residential Guide
Water
Solar Thermal Water
The solar hot water heater was purchased from Third Sun for approximately $4000. The
Ecohouse purchased solar installations from both of the area's solar installers. Southeast Ohio is
home to two out of the three solar installers in Ohio, Dovetail and Third Sun. The heater uses a
water/glycol solution to prevent the pipes from freezing during the winter. The system's PV pump
works when the sun is shining. When purchasing a solar product, a solar hot water heater is a good
investment because it has a short payback time of only five to seven years.
Tankless Water Heater
The on demand water heater uses gas to heat up water in the winter if the solar does not
reach 110 degrees.
Water Conservation
The Ecohouse residents work hard to conserve water both by using water conservation
systems and through lifestyle choices. The dishwasher is designed to be . The shower is equipped
with a low-‐flow high-‐pressure showerhead that greatly reduces the amount of water consumed
from showering. Also, residents of the Ecohouse collect rainwater for use in their organic garden.
Food
Garden
Aside from driving, food is the most energy intensive human activity on a per person basis.
Much of this energy goes in the form of petroleum-‐based chemicals, production machinery,
packaging, and transportation. The Ecohouse residents choose to grow some of their own food in
their organic garden. They grow low-‐maintenance, organic, seasonal crops. The garden is
surrounded by a solar-‐powered electric fence in order to keep deer from consuming the crops.
Residents of the house also prefer to buy from the farmer’s market in for the same reasons that
they grow their own food.
Ohio University Ecohouse Residential Guide
Waste
Heap Composting
The heap compost pile has diverted about 90% of the food waste from the Ecohouse from
going to a landfill. Landfills purposely do not allow waste to degrade, and so maintaining a
composting system allows organic waste to be used productively on a garden or farm. The heap
composting system breaks down vegetation using bacterial composting, and if it is done properly it
does not produce a bad odor. The bottom of the heap is open for worms to come up, but most of the
work is done by bacteria. Residents put scraps of fruits, vegetables, eggshells, and small scraps of
bread in the heap. The heap compost cannot receive any meat or dairy, nor can it process large
amounts of oily foods. Ecohouse residents add newspaper or leaves in a 1 part food waste to 3 or 4
parts newspaper ratio.
Worm Composting
A worm composting system is located in the basement of the Ecohouse. The framework for
the system consists of a series of bins stacked vertically in which the worms reside. As they process
the food waste and turn it into compost, they travel vertically through the bins. Moist newspaper is
added to the bins in order to stabilize moisture for the worms. Residents add half of a pound of
food per pound of worms. The worms were provided by Matt Peters and the bins were purchased
on the Internet. The worm bins produce better quality compost faster than the heap compost does.
Recycling and Waste Minimization
Residents of the Ecohouse participate in recycling and waste minimization practices. The
Ecohouse residents sort their recyclables into paper, plastic, newspaper, cardboard, aluminum and
steel. They send less materials to landfills by recycling, composting, purchasing products that have
less non-‐recyclable packaging, and by using reusable plates, cups, utensils, and containers for daily
use and larger events like potlucks.
Sustainable Living
Green Purchasing
Ohio University Ecohouse Residential Guide
Many products purchased by members of the Ecohouse are sustainable for a variety of
reasons. Some products are sustainable because they come from local producers and so they
contribute less to green house gas emissions. Other items used by Ecohouse residents are
secondhand or they were produced with environmentally-‐friendly materials.
Clothesline
During the spring, summer, and fall laundry can be dried using the solar dryer – otherwise
known as a clothesline -‐ located at the rear of the house.
Landscaping
The Ecohouse yard has many trees in it that help to clean the air and sequester carbon
dioxide. They also help to keep the temperature of the house cooler in the summer, which reduces
the amount of energy needed for cooling. Groundskeepers have greatly reduced the number of
times that they spray the lawn with herbicides, pesticides, and fertilizers in order to reduce the
amount of chemical runoff that contaminates groundwater.
Ohio University Ecohouse Residential Guide
OHIO Ecohouse
Resident Application and Guidelines
The mission of the OHIO Ecohouse is to demonstrate affordable green technology and
sustainable living in order to inform, engage and inspire both residents and visitors.
The OHIO Ecohouse is not just a place -‐-‐ it is a dynamic educational experience
which promotes critical thinking and tangible actions toward sustainability.
The OHIO Ecohouse is located at 8133 Dairy Lane, Athens OH 45701
More information about the Ecohouse is available at www.ohio.edu/ecohouse.
Application & Deadline:
Applications for residing in the OHIO Ecohouse will be accepted until 8 p.m. on Sunday, March 18,
2012 for the following lease year (August 1-‐May 31). Applications may be obtained online at the
University Apartments Website (www.ohio.edu/housing, University Apartments) Online Forms
section or the Office of Sustainability (www.ohio.edu/sustainability).
Interested and eligible students must complete a comprehensive application that lists their
interests, goals and past experiences as it relates to sustainable living as well as agree to sign a 10
month lease (August 1, 2012 – May 31, 2013). A balance of graduate and undergraduate students
(maximum of three) will share the living space. The monthly rent for each room is $395. Note: This
rate is based on 2011-‐2012 lease year rate and is subject to change. Such changes are based on board
approval. Candidates selected for Ecohouse residency will be notified of any lease changes prior to
signing a lease.
Ohio University Ecohouse Residential Guide
Eligibility:
• Students must be eligible to live off campus by having either 90 credit hours, 6 quarters in residency, or be eligible for a standard exemption.
• All applicants must commit to upholding the residential expectation as in any other University owned apartment.
• Completed application, essay and references. • Agree to all terms and conditions of the lease and student lifestyle guidelines listed on the
following page.
Please Note: The Ecohouse has three (3) single-‐occupancy rooms available. Multiple residents are not
permitted in single rooms. Each individual wishing to live in the Ecohouse must submit a separate
application. Additionally, no resident is permitted to house pets of any kind in the home or on the
Ecohouse property.
Selection Process:
Selection is a competitive process. Applications and essay of eligible students will be reviewed by a
selection committee on a rolling basis with interviews held to select final candidates. Current
tenants of Ecohouse will be invited to interview the final candidates and make recommendations to
the committee.
Ohio University Ecohouse Residential Guide
OHIO Ecohouse Student Lifestyle Guidelines
• Residents will follow Ohio University Student Code of Conduct. • Residents will minimize consumption, refraining from accumulating unnecessary products. • Residents will work to minimize waste, using durable goods in place of disposables and
reusing materials whenever possible.
• Residents will sort the waste that is generated appropriately, emphasizing recycling and composting whenever possible.
• Residents will work to increase self-‐sufficiency by growing/harvesting their own food. The Ecohouse garden will serve as a Community Garden space for on-‐campus residents. Ecohouse residents are responsible for engaging in work days with volunteers and offering them harvested produce as appropriate.
• Residents will agree with a house consensus before planting new crops or making landscaping changes.
• Residents will buy local first, especially food, and consider lifecycle costs in all purchases. • Residents will emphasize the use of low impact chemicals for things like cleaning, (such as
bio-‐degradable soaps) and, whenever possible, will avoid the use of unnecessary chemicals altogether.
• As this is a living and learning experience, residents are expected to assist with maintenance of sustainable technology, when appropriate. Residents will maintain an agreed upon, equitable division and distribution of labor.
• Residents will keep a written record of all projects and experiments, and their results, for continuous improvement of the home.
• Residents will maintain an appropriate exterior house presentation. Interior furniture should be inside. The Director of Sustainability will serve as an authority to residents regarding appropriate appearance.
• Residents will not litter and will maintain a litter free property. • Residents will maintain cleanliness and organization of their belongings to accommodate
tours.
• Residents will use low impact transportation whenever possible, such as a bike. • Residents will appropriately conserve and recycle resources such as water, electricity, heat,
space, and goods. This means reducing waste both directly and indirectly. The residents will work to generate ideas and procedures to increase self-‐sufficiency with respect to resource use.
• Upon moving out of the Ecohouse, residents are expected to completely empty the home of personal belongings and complete a “Move-‐Out Checklist” with the Director of Sustainability.
Ohio University Ecohouse Residential Guide
Additional Expectations:
• Residents will enroll in a one credit “Ecohouse Class” that will meet for one hour per week throughout the duration of the academic year.
o This class will require that residents establish sustainability-‐themed projects and devote a minimum of 14 hours per semester to such projects.
o Meetings will be used to discuss matters relating to the house, projects and residents’ lifestyles.
• Residents will work with the Office of Sustainability to offer regular Ecohouse tours. • Residents will serve as hosts to Ecohouse Open House and Work Day events as needed. • Residents will work with the Director of Sustainability to report any health, safety or
maintenance concerns so as to ensure a safe living and learning environment for Ecohouse residents and guests.
Questions should be directed to:
Annie Laurie Cadmus -‐ Director, Office of Sustainability -‐ [email protected]
Ohio University Ecohouse Residential Guide
OHIO UNIVERSITY DAIRY LANE ECO HOUSE AGREEMENT
One Year Lease 2012-‐2013
THIS LEASE, made 1/13/2012 between the landlord, Ohio University (hereinafter referred to as “University”), and
****** (hereinafter referred to as Tenant):
WITNESSETH; That, University leases to tenant the house (Bedroom )designated at 8133 Dairy Lane, in the City
of Athens, State of Ohio, hereinafter called Bedroom _____ Tenant has exclusive use of Bedroom ____. Tenant
also has use in common with other tenants of the household of the following rooms: the living room, kitchen
and any bathroom(s) located within the House hereinafter referred to as the Premises for the term of 11
months beginning on August 1, 2012 and ending on June 30, 2013 at the current rent of $4,499.00 payable in
monthly installments of $409.00 on the first day of each month. This lease supercedes any policy at Ohio
University.
Tenant: Name PID#: Pxxxxxxxx
1. THE TERM TENANT
The term “Tenant” shall refer to person named above and all persons signing a lease as Tenants.
The liability and responsibility of each such person shall be joint and several, which means that each person may be
held responsible for all other persons signing a lease in addition to themselves. Notice given by the University to
any person named as Tenant, or notice by any tenant to the University shall bind all persons signing this lease as
Tenants.
2. RENT AND SECURITY DEPOSIT
Tenant agrees to pay the University four hundred nine ($409.00) the monthly rent set forth above, on the first day
of each month; in advance at the Cashier’s Office in Chubb Hall. Tenant further agrees to pay a late charge of five
(5) percent per month of the amount of rent that is in default on the tenth day of each month. If any check for rent is
returned to the University for insufficient funds or other reasons, late charges will continue until rent is actually paid
by Tenant. Late fees will continue to be compiled for each month past due rent is unpaid.
When acceptance of an assignment for house has been made, Tenant agrees to pay the University the sum of four
hundred nine ($409.00) to be held by the University until the date of occupancy by the Tenant. Failure to occupy
the leased premises on the specified date shall result in a forfeiture of the deposit. Upon occupancy of the house, the
entire sum of the deposit shall continue to be held by the University as a security deposit. Once occupancy has been
Ohio University Ecohouse Residential Guide
established, the return of the Tenant’s security deposit shall be governed by Section 2, paragraph 2 & 3 of this lease
agreement.
Tenant agrees to pay the security deposit set forth in Paragraph 2 above. The security deposit shall be held by the
University as security for the payment of all rent and other amounts due from Tenant to the University, for the
Tenant’s performance of this lease, and against any damages caused to the house, by Tenant, Tenant’s family, or
guests. The security deposit is to be equal to one (1) month’s rent. Tenant understands and agrees that the security
deposit may not be applied as rent or against any other amount due from Tenant to the University and that the
monthly rent will be paid each month, including the last month of the lease term. Within thirty (30) days following
termination of the lease, the University shall return the security deposit less any allowable deductions from it
together with a written itemization of such amounts, to Tenant by check, and mailed to a forwarding address which
must be furnished by the Tenant in writing. The amount of any security deposit shall be adjusted as appropriate if
Tenant transfers to a more or less expensive apartment
3. USE
In addition to use as a personal residence, tenant has agreed to use the residence for educational purposes as
defined in paragraph 12. A & B below.
The right to occupy under the terms of this Lease Agreement are not to be assigned or otherwise granted to any other
person by Tenant. Guests are permitted for no longer than 14 days and that anyone residing in the house past this 14
day period will be considered a full time resident and the tenant will be found in violation of the lease agreement.
We reserve the right to conduct a quarterly inspection for the purpose of evaluating the use and occupancy of the
house.
Tenant shall surrender possession of the premises to the University at the termination of the lease in as good of a
condition as when taken, with the exception of ordinary wear and tear.
This lease confers no rights to Tenant to use for any purpose any University property other than the interior of the
house leased, except the walks and roadways giving access thereto and such other areas, if any, as the University
may from time to time designate for the use of Tenants. When the use by Tenant of any other portion of University
property is permitted, it shall be subject to the rules and regulations established by the University.
4. UTILITIES
University will pay all charges for heat, water, electricity, sewer, trash collection, basic cable and Ethernet. Tenant
will pay for telephone.
Tenant agrees that the University shall have the right to temporarily stop the service of gas, electricity, heating of
water, heat, basic cable, Internet, or water in the event of an accident affecting the same, or to facilitate repairs of
Ohio University Ecohouse Residential Guide
alterations made in the house or elsewhere. University agrees to give Tenant notice of a stoppage when it is
reasonable to do so.
5. DELIVERY OF POSSESSION BY OHIO UNIVERSITY
If, due to circumstances beyond the University’s control, the house shall not be ready for occupancy at the beginning
of the term, this lease shall nevertheless remain in effect and the rent shall be abated proportionately until the house
is ready, and the University shall not be liable for any expenses incurred by the Tenant because of the non-
availability of the house.
6. DAMAGE BY FIRE
If the house is damaged by fire or other casualty, the University shall repair it within a reasonable time and rent shall
continue unless the casualty renders the house un-tenantable in which case this lease shall terminate and Tenant,
upon payment of all rent to the date the house is surrendered, shall not be liable for any further rent. If only a
portion of the house is rendered untenantable, the Tenant may with mutual agreement of the University choose to
continue in possession, or terminate Tenant’s obligation under this lease agreement.
7. OHIO UNIVERSITY’S LIABILITY
Tenant agrees that the University shall not be liable for personal or other property damage or
personal injury occurring in the house or on or about University property or grounds upon which
the house is located regardless of cause unless the damage or injury results from the University’s
negligence. Tenant is advised that Tenant should, at Tenant’s own cost, purchase Renter’s
Homeowner’s Insurance. Tenant acknowledges that University does not carry any insurance on
Tenant’s personal possessions. Ohio University neither insures nor is responsible for loss or
damage to student personal property. Low deductible, low cost insurance for student
property is easily located on the Internet by searching "student personal property
insurance" or by contacting your insurance agent.
8. RIGHT OF ENTRY
The University, or any person authorized by it, with the prior consent of the Tenant obtained at least twenty-four
(24) hours in advance, shall have the right to enter the house at a reasonable time to inspect, make ordinary and
Ohio University Ecohouse Residential Guide
necessary repairs, decorations, or alterations, to enforce this lease, and, after notice of termination is given, to show
the house to prospective tenants. However, Tenant’s consent shall not be necessary in case of emergency. Tenant
shall not unreasonably withhold consent for the University to enter the house. Requests by Tenant for maintenance
or housekeeping waives the 24 hour notification.
9. REASSIGNMENT OF TENANTS
Tenant agrees that the University shall reserve the right to reassign any and all Tenants of the house to new units, in
the event of a conflict between tenants or necessity due to maintenance problems. Tenants cannot refuse
reassignment. Reassignments will only be completed in extreme circumstances and with as little inconvenience to
the Tenant as possible.
10. REMEDIES FOR DEFAULT
If tenant shall fail to pay rent, or any other sum, to the University when due, or breach any other provisions of
this lease, or shall abandon the premises, the University may, in addition to all other remedies provided by law,
including actions of eviction, void and terminate this lease, re-enter into possession, and sue for and recover all rent
or damages due the University resulting from Tenant’s default.
11. LEASE VIOLATIONS AND TERMINATION OF LEASE
If any of the representations made by Tenant in Tenant’s lease application or this Lease Agreement are misleading
or untrue, or if Tenant or Tenant’s family guests or guests violate any provisions of this lease or any rule or
regulation herein imposed, or if Tenant violates the Ohio University Student Code of Conduct, then University may
treat such representations or lease violations as a breach of the lease agreement and forfeiture of Tenant’s possession
of the premises may be initiated. The University may require Tenant to vacate the premises following a hearing in
which the University determined that the Tenant violated a term of this lease agreement or violated the University’s
Code of Conduct or other policies or procedures prior to the hearing. The Tenant shall receive written notice of the
alleged violation or breach of the lease and the Tenant will be given an opportunity to be heard at the hearing.
12. COMPLIANCE WITH RULES AND REGULATIONS
Tenant, Tenant’s family, agents, and guests shall observe and comply with the University Student Code of Conduct
and rules and regulations set forth below in this lease, and such other rules and regulations that the University may
adopt.
Ohio University Ecohouse Residential Guide
A. Tenant is expected to work in conjunction with the Office of Sustainability on projects that are
designed to create a sustainable living and learning environment.
B. Tenant agrees to permit and conduct tours of the house and the surrounding property throughout
the development of the project. New initiatives will occur constantly, thus the tours and educational
opportunities will be developed on a continual basis.
C. If the house is found to be over occupied, a termination of all lease agreements will be made within a
prescribed amount of time not less than 30 days.
D. Tenant is responsible for the care and preservation of all University-owned property in the house.
This includes, but is not limited to: furnishings, stove, refrigerator, blinds, counters, etc.
E. Tenant must assist and cooperate with the University maintenance department in caring for the premises.
Any damage to the dwelling or its facilities or equipment should be reported promptly to the
University Apartments Offices. The University will make all alterations, additions, changes or
repairs to the house and to its equipment. Failure to report a maintenance problem could show
negligence on the part of the Tenant and result in cost for repair to be levied against the Tenant.
F. Tenant is expected to take every precaution to prevent fires. Tenant may not cover or remove batteries to
disconnect smoke detectors. The University is not liable for any loss, claim or damage to personal property
of the Tenant resulting from fire or an act of God. Tenant may be held liable for fire damage caused by
tenant, family, or guests.
G. The tenant is responsible for the cleanliness of the house, as well as for the adjacent porches and
sidewalks. Bicycles must be registered with OUPD and are not to be attached to the railings, down
spouting or left in front of the house. No other furnishings (couches, easy chairs, carpets, laundry items,
sundry items, etc.) should be left in front of the house. Clothes should not be hung on railings or
shrubbery.
H. Rubbish must be disposed of in the appropriate trash receptacle designated for the houses. Trash is not to
be left sitting outside of the house. Personal trash containers are not to be left outside by Tenants. Tenants
will be warned once about leaving trash setting outside, and each infraction after the initial time will result
in a fine of $25.00.
I. Boisterous parties or other activities which may disturb other Tenants of the houses are not permitted.
Quiet hours are in effect at all times. The definition of quiet hours for houses is that no noise should be
able to be heard outside the house.
J. Tenants may use only those locks furnished by the University. A lost key will result in a lock change and a
replacement charge will be assessed.
K. Tenants may not:
a. Cover, remove batteries, or disconnect the smoke detectors.
Ohio University Ecohouse Residential Guide
b. Affix wallpaper to the walls or put decals, scotch tape or any other adhesive material, which leaves
a mark on the wall or door.
c. Adjust, tamper with, or alter any mechanical, electrical or plumbing equipment furnished by the
University.
d. Keep pets, including cats, dogs, or other animals on the premises. A fee will be assessed and
immediate removal of the pet will be mandated.
e. Put additional clotheslines on the premises.
f. Solicit funds for any drive or pursue any business on the premises without the written approval of
an Ohio University Administrator.
g. Lease the premises or accommodate roomers, boarders, or relatives.
h. Have a washer, dryer, satellite, portable AC or heater, or dishwasher in the house not supplied by
OU. If appliances are found to be in the house, Tenants will be fined $200 and the lease may be
terminate
i. Disregard written University policies as detailed in the Student Code of Conduct.
j. Keep water-containing furniture in the premises; store, install or operate unvented portable
kerosene heaters; obstruct common areas with their personal property.
k. Smoking is not permitted inside the house or in any structures on the property.
L. Tenant who graduates or leaves Ohio University prior to the end of the lease year are permitted to terminate
their lease with a 30-day advance notice to the office. If less than 30 days is provided, rent will be charged
to the date required for 30-day notice.
M. Tenants must check-out with the manager when vacating their house. Failure to check out will also result
in a $25 charge. You will need to allow at least one-half hour for check out. If occupant checks out of
their house during a weekend, they must make advance arrangements with the Bromley Hall Office. Check
out times are between 8:00 a.m. and 4:00 p.m. only.
N. All appropriate keys, issued to the Tenant when occupying the house, must be returned to the manager at
the time of check out. Tenants who do not return all keys signed out to the house will be charged for a lock
change for security reasons.
O. Tenant must give their forwarding address to the office at the time of, or prior to, the time of check out in
order for the security deposit to be refunded. Refunds will not be processed the same day as check out.
P. Tenant must clear their Housing accounts with the Bursar’s Office and present proof of payment before
vacating the premises.
Ohio University Ecohouse Residential Guide
Q. Tenants found in violation of state, city, or University regulations will be required to correct the
problem(s). If infractions continue to exist, occupants may have the lease terminated or have fines levied
against them. Fines will not exceed $50.00 per infraction.
R. If Tenant or Tenant’s agents and/or guests engage in, permit or commit any drug related crime on or about
the premises, Tenant will be deemed to have substantially and materially breached this Lease Agreement
and such breach shall be grounds to immediately terminate Tenant’s occupancy of the premises.
S. University has installed at least one smoke detector in the premises and that said detector is in good
condition and proper working order as of the beginning of the lease term. Tenant agrees not to obstruct or
tamper with said detector or otherwise permit the detector to be obstructed or hampered with for any reason
whatsoever. Tenant further agrees to test the detector periodically and to report any malfunction therewith
promptly to University.
FOR FURNISHED UNITS ********
Each Apartment door and bedroom door is equipped with a deadbolt. Under no circumstances may tenant
change any of the locks on the premises. Furniture may be arranged to suit the comfort of the occupants, The
University’s furnishings may never be stored nor removed from the house without the approval of the Ohio
University Housing.
Ohio University Ecohouse Residential Guide
QUARTERLY INSPECTION OF HOUSE
T. University apartment personnel will conduct an inspection of the house on a quarterly basis. The resident
will be notified of the date at least 24 hours prior to the inspection. The items to be inspected include but
are not limited to: kitchen, bathroom, stove, refrigerator, blinds, windows, tile walls, cabinets, use of
electrical outlets, heating fixtures, and sanitary conditions of the house. If the resident fails to pass the
quarterly inspection, he/she may be subject to monthly inspections.
In witness whereof, the parties have executed this lease agreement the date and year first above written.
OHIO UNIVERSITY
By___________________________________________
(Residential Housing Staff Signature)
___________________________________ ____________________ __________________
Tenant PID# DATE
Ohio University Ecohouse Residential Guide
OHIO Ecohouse Application Cover Page
Name________________________________________ Phone Number (______)________________
E-‐mail ______________________________________________________________________________
Local Address ________________________________________________________________________
Permanent Address ____________________________________________________________________
Major _______________________________ Minor/certificate ____________________________
Credit hours expected at end of academic year: _________ Anticipated date of graduation: ________
Phone Number (______)__________________________
Please list your past coursework, membership in associated organizations, community service
projects, or other information that will support your application. A bulleted list is acceptable. Use
additional pages, if necessary.
_______________________________________________________________________________________
_______________________________________________________________________________________
_______________________________________________________________________________________
I have read the “OHIO Ecohouse Resident Application and Guidelines” document and agree to follow
the guidelines and lease expectations if selected to reside in the house.
_______________________________________________________________ ___________________
Signature Date
Ohio University Ecohouse Residential Guide
Please attach the following to this application cover page:
• 1,000 word essay stating why you would like to live in the Ohio University Ecohouse and how your knowledge and experiences would positively contribute to the living environment.
• Three (3) completed “OHIO Ecohouse Applicant Reference Form” documents. References can come from University professors, directors or officers of associated organizations, or past supervisors from an employment position. These documents can be mailed/emailed/faxed separately, if needed.
Return application to: Annie Laurie Cadmus, Director of Sustainability
University Service Center, 49 Factory Street, Athens OH 45701
[email protected], (740) 593-‐0026
Ohio University Ecohouse Residential Guide
ES 4900(section 8477)/6910
Ecohouse Seminar
Time: 1-2pm
Days: Wednesdays
Room: OHIO Ecohouse
1-3 Hour Credit
Facilitator: Annie Laurie Cadmus
Office: Office of Sustainability
E-Mail: [email protected]
Office Phone: 740-593-0026
Course Description
This seminar is designed to introduce residents of the OHIO Ecohouse to the project’s mission and
history, as well as provide residents and the Director of Sustainability with a regular meeting time in
which to discuss house developments and issues.
Ohio University Ecohouse Residential Guide
Course Objectives
The specific objectives of this course are:
1. To familiarize participants with the guiding philosophy and pedagogy behind the project.
2. To provide training in leading and adapting the Ecohouse tour for specific audiences.
3. To expose participants to a range of sustainability topics relevant to the project.
4. To provide a forum for questions and comments regarding life in the Ecohouse.
5. To launch residents on projects designed to enhance the Ecohouse experience for residents and
visitors.
Additional Materials:
There are no required texts for this course. Participants will be asked to read journal articles or book
excerpts as they become relevant throughout the quarter.
Expectations:
1. Attendance and Participation: Because both national and Ohio University studies show a direct
relationship between classroom attendance and grade performance, and since much of the course involves
discussion and active participation, you are expected to attend every class.
In addition to class attendance, each resident is required to complete 20 hours of project time over the
course of the semester. This work can be directed toward project research and implementation.
Tour hours should be recorded in such a way as to allow you to distinguish them from other hours spent
on research, projects, etc. You will be compensated for tour, open house, and public presentation hours
through Workforce. You will receive $8 per tour hour as an honorarium for your involvement. There is no
maximum or minimum number of tour hours you can be compensated for over the course of the semester.
Ohio University Ecohouse Residential Guide
It is expected that you will make yourself available for all open houses and tours as your schedule
permits. Tours/Presentations are not to exceed one hour in length and Open House events are not to
exceed three hours unless otherwise pre-approved by the Director of Sustainability.
You are required to maintain a current log of your hours at all times and to discuss your progress at each
class session. You are highly encouraged to spread your hours out over the course of the semester rather
than expect to put in a majority of them in the last week of the semester.
2. Promptness:
a. Because it is unfair and disrespectful to your classmates for you to arrive late to class, you are
expected to arrive on time. You will be counted tardy (and graded accordingly) if you arrive
late.
b. As in your other classes in college, all assignments and papers should be turned in when due.
3. Preparedness:
a. You are expected to have read any reading assignments prior to class and to bring your
textbook (if applicable) to each class session. If you haven’t read the material, neither you nor
the class will benefit as much from the discussion.
b. Each assignment should include your name, the date of the assignment, and the title of the
assignment.
4. Ethics:
a. You are expected to be courteous and respectful of your instructors and fellow students.
b. You are expected to adhere to the standards of academic integrity.
5. Academic Integrity
“As an academic community, Ohio University holds the intellectual and personal growth of the
individual to be a central purpose. Its programs are designed to broaden perspectives, enrich awareness,
deepen understanding, establish disciplined habit of thought, prepare for meaningful careers, and thus to
help develop individuals who are informed, responsible, and productive citizens” (Ohio University
Mission Statement). Part of this process includes the expectation that students will be honest and
Ohio University Ecohouse Residential Guide
forthright in their academic endeavors. All forms of academic misconduct are prohibited by the Student
Code of Conduct, and will be dealt with accordingly and with the utmost seriousness.
Academic Misconduct is a Code A violation of the Ohio University Student Code of Conduct.
Academic Misconduct refers to dishonesty in examinations (cheating), presenting the ideas or the writing
of someone else as your own (plagiarism), or knowingly furnishing false information to the university.
If you are found to be involved in academic misconduct, you will receive an “F” grade on the
project or for the class and a referral to the Director of Judiciaries with the possible sanctions of
suspension or expulsion. If you would like additional information about Academic Misconduct or the
Ohio University Student Code of Conduct, consult http://www.ohio.edu/judiciaries/academic-
misconduct.cfm#students
Grading and Evaluation:
You will receive a letter grade for this course. Be aware that you will not be allowed to retake
this course for a better grade at a later time. You are strongly encouraged to monitor your own
progress in this and other courses.
Grading Scale (by %)
A 93-100% B 83-86% C 73-76% D 63-66%
A- 90-92% B- 80-82% C- 70-72% D- 60-62%
B+ 87-89% C+ 77-79% D+ 67-69% F below 60%
Ohio University Ecohouse Residential Guide
Fall Semester
Assignment/Item Notes/Description Total Points
Attendance Residents will receive point deductions for being tardy or
absent. 5 points per week.
70 Points
Participation Residents are expected to prepare for class and engage in the
session activity/conversation. 5 points per week.
70 Points
Assignment #1
(Anticipated: Waste
Management)
Assignments will be created throughout the course to assist
with information retention as deemed appropriate. Grades
will be assigned based on complete and thorough responses to
questions or assignments.
20 Points
Assignment #2
(Anticipated: Food
Security)
Assignments will be created throughout the course to assist
with information retention as deemed appropriate. Grades
will be assigned based on complete and thorough responses to
questions or assignments.
20 Points
Assignment #3
(Anticipated:
Environmental
Leadership)
Assignments will be created throughout the course to assist
with information retention as deemed appropriate. Grades
will be assigned based on complete and thorough responses to
questions or assignments.
20 Points
Tour Participation Residents will be orally quizzed on tour features during the
Tour Review lesson and graded according to their responses.
20 Points
Final Take Home Residents will be graded on complete and thoughtful 100 Points
Ohio University Ecohouse Residential Guide
“Exam” responses to questions.
320 Points
Spring Semester
Assignment/Item Notes/Description Total Points
Attendance Residents will receive point deductions for being tardy or
absent. 5 points per week.
70 Points
Participation Residents are expected to prepare for class and engage in the
session activity/conversation. 5 points per week.
70 Points
Assignment #1 Assignments will be created throughout the course to assist
with information retention as deemed appropriate. Grades
will be assigned based on complete and thorough responses to
questions or assignments.
20 Points
Presentation Residents will be asked to present on their sustainable topic
of choice for 30 minutes. Presentations will be graded on
thorough research, proper communication of information,
clear/coherent communication style and preparedness.
40 points
Green Dream Job Search Residents will be asked to utilize information gained during
the Green Dream Jobs lesson and engage in their own dream
job search. They will be asked to present their findings and
establish a plan based on lessons learned.
20 points
Final Take Home
“Exam”
Residents will be graded on complete and thoughtful
responses to questions.
100 Points
Ohio University Ecohouse Residential Guide
320 Points
Each Class Session will follow the following general agenda:
1pm-1:05pm: House updates: Residents are asked to provide a list of any maintenance items.
1:05-1:15pm: Announcements: Residents are asked to provide short updates on project progress.
1:15-1:45: Session Lesson: Participants will engage in the weekly lesson plan
1:45-2:00: Wrap-Up, Reflection, Assignments
Fall Course Schedule:
Week One (August 29): House Rules, expectations, history of the house, tour of house features
Week Two (September 5): Tour Training: Ecohouse and Compost Facility
Week Three (September 12): Green Cleaning Workshop
Week Four (September 19): NO FORMAL CLASS: Environmental Leadership
In lieu of class this week, residents will be asked to meet with Hannah Simonetti
Week Five (September 26): NO FORMAL CLASS: Canning and Preserving
In lieu of class this week, residents will be asked to participate in one of two canning
sessions at the house: September 25, 3-5pm or September 26, 2:30-5pm
Week Six (October 3): Food Security
Week Seven (October 10): Communicating Sustainability & Personal Sustainability
Week Eight (October 17): Wood Pellet Furnace Seasonal Prep
Week Nine (October 24): NO FORMAL CLASS
In lieu of class this week, the Ecohouse kitchen will be used for a food cycle service-
learning event on October 25, 12-5pm.
Week Ten (October 31): Waste Management
Week Eleven (November 7): Dream Green Job Search
Ohio University Ecohouse Residential Guide
Week Twelve (November 14): Seasonal Sustainability
Week Thirteen (November 21): NO CLASS
Week Fourteen (November 28): Dream Green Job Search results
Week Fifteen (December 5): Semester in Review & Reflection Presentations
Final Exam (due December 13): In lieu of a final exam, participants are expected to complete
the Take Home “Exam” (provided in this syllabus) and submit it electronically to
[email protected] no later than December 13, 2012 at 12pm. Late submissions will be reduced
5 points for every day it is late.
Spring Course Schedule:
Week One (January 14): Sustaining a Sustainable Lifestyle
Week Two (January 21): Environmental Justice
Week Three (January 28): Resident Presentation #1 (Presenter: ________________)
Week Four (February 4): Resident Presentation #2 (Presenter: ________________)
Week Five (February 11): Resident Presentation #3 (Presenter: ________________)
Week Six (February 18): Permaculture Planning & Culinary and Medicinal herbs
Week Seven (February 25): Alternative Energy
Week Eight (March 4): NO CLASS (spring break)
Week Nine (March 11): Wood Pellet Furnace Cleaning
Week Ten (March 18):
Week Eleven (March 25): Transportation and Land Use
Week Twelve (April 1): Setting up a Sustainable Home
Week Thirteen (April 8): Move Out expectations
Week Fourteen (April 15):
Ohio University Ecohouse Residential Guide
Week Fifteen (April 22): A year in review
Final Exam (due May 2): In lieu of a final exam, participants are expected to complete the Take
Home “Exam” (provided in this syllabus) and submit it electronically to [email protected] no
later than May 2, 2013 at 12pm. Late submissions will be reduced 5 points for every day it is
late.
Ohio University Ecohouse Residential Guide
OHIO Ecohouse
Fall 2012
Final “Exam” – Take Home Assessment
Name: Oak ID:
Signature: Date:
Please respond to the following questions by evaluating your work toward fulfilling the expectations of
this course. Provide examples when they come to mind.
1. Did you connect with the project beyond tours and weekly meetings? Please explain. (15 points)
2. Please complete the table below to verify your completed project hours (20/semester):
Date Project Name Activity Description # of Hours
(15 points)
Ohio University Ecohouse Residential Guide
3. Please assess the quality of your participation in weekly meetings. (15 points)
4. To what extent did your approach to the tour evolve and improve? (15 points)
5. Have you devoted time and thought toward developing a deeper understanding of sustainability
issues? Please explain. (20 points)
6. What do you feel is the value of the Ecohouse project and what part do you believe it plays in
the University’s overall sustainability efforts? (15 points)
7. Self-Evaluation: Based on your performance this semester and your responses to the above
questions please provide a recommended “score” for your letter grade this semester (refer to the
grade scale in the syllabus). Explain your score. (5 points)
Return typed answers to Annie Laurie Cadmus, Director of Sustainability, by December 13th at 12pm.
Ohio University Ecohouse Residential Guide
OHIO Ecohouse
Spring 2013
Final “Exam” – Take Home Assessment
Name: Oak ID:
Signature: Date:
Please respond to the following questions by evaluating your work toward fulfilling the expectations of
this course. Provide examples..
1. Please complete the table below to verify your completed project hours (20/semester):
Date Project Name Activity Description # of Hours
(15 points)
Ohio University Ecohouse Residential Guide
2. Please reflect on why you originally applied to live in the Ecohouse. What skills or
knowledge did you wish to obtain or share? What experiences did you hope to have? Do
you feel those expectations have been met? Explain. (20 points)
3. Reflect on your role as a resident of the Ecohouse and a roommate to your peers. (Sample
questions to ask yourself: Do you view these 2 roles to be separate from one another? What have
you done well? What have you learned? What do you still hope to learn/offer in future living
situations? What expectations did you have of others in the house and were those expectations
reasonable? Were you a sustainability advocate or role model for your peers?) (20 points)
4. Please reflect on the past year… What did you learn? What did you contribute? What
experiences were most valuable? What do you feel was missing from the seminar sessions (and,
what sessions were helpful)? (20 points)
5. Help us improve this experience --- If you were to offer advice to next year’s residents, what
would you tell them? If you were to offer advice to the Director of Sustainability, what
would you tell her? (20 points)
6. Self-Evaluation: Based on your performance this semester and your responses to the above
questions, please provide a recommended “score” for your letter grade this semester (refer
to the grade scale in the syllabus). Explain your score. (5 points)
Please feel free to offer any additional feedback regarding the Ecohouse project. (not for a grade)
Return typed answers to Annie Laurie Cadmus, Director of Sustainability, by May 2nd at 12pm.
Ohio University Ecohouse Residential Guide
Readings:
Defining Sustainability:
http://www.unity.edu/uploadedFiles/wwwunityedu/Student_Life/ResidenceLife/Defining%20Sustainability
Transformative Action : http://www.jsedimensions.org/wordpress/wp-
content/uploads/2011/03/FriskLarson2011.pdf
Civic Engagement: http://www.jsedimensions.org/wordpress/wp-content/uploads/2011/03/Curtis2011.pdf
Sustainable Leadership: http://www.jsedimensions.org/wordpress/wp-
content/uploads/2011/03/Evans2011.pdf
Happiness: http://www.jsedimensions.org/wordpress/wp-content/uploads/2010/04/OBrien2010.pdf
Food Security:
http://www.foodquality.com/details/article/816867/The_Many_Faces_of_Food_Security.html?tzcheck=1
Ohio University Ecohouse Residential Guide
1
Let the Ecohouse be your guide when it comes to living sustainably! It is already equipped with
many remarkable technologies that can help you reach your fullest potential for learning. Along
with Ecohouse features, small practices such as composting, recycling and conserving water can
help you drastically reduce your waste and impact on the environment. You will also learn how
to successfully maintain the Ecohouse’s features adding to your skill set in sustainable living.
When you part ways with the house, hopefully you gained life skills that you would not of been
granted the opportunity to learn anywhere else.
2
This is the section of the binder that shows you how each feature works and how to trouble shoot,
should there be a problem. The house features are organized into category: electric, water heating,
compost, etc.; don’t forget to look back in the administrative section of this binder to obtain all
emergency maintenance contacts.
3
House features to be maintained by OHIO ECOHOUSE residents:
4
• Solar Array
5
• Solar Thermal Array
6
• Gray Water Features
7
• A-MAIZE-ing Furnace
8
• Rain Catchment System
9
• Composting Varieties
10
• Programmable Thermostat
11
• Maintenance of Energy
12
Star Appliances
13
14
Ohio University Ecohouse Residential Guide
Ohio University Ecohouse Residential Guide
ucsusa.org
Ohio University Ecohouse Residential Guide
DOVETAIL SOLAR AND WIND:
OU Ecohouse Solar Panel Seasonal Maintenance Instructions
The solar panel array at the OU Ecohouse is designed to be raised and lowered throughout the year to
catch the sun’s rays as efficiently as possible. During the summer months, when the sun is higher in the
sky, the array will be at a lower angle, around 25 degrees. When the sun is lower in the sky, in the fall,
winter and spring, the array will be at a higher angle, around 40 degrees.
The vertical racking bars are marked at the places that set the array at the proper angle. So all you need to
do is move it up in the late summer to the lower marking, and down in the late spring to the upper
marking. (This makes sense if you are looking at the rack)
The dates following are not exact, but guidelines:
May 2 – Move the racking bars down so that they are at the upper marking on the inside bar. The panels
will be at a much lower (flatter) angle.
August 2 – Move the racking bars up so that they are at the lower marking on the inside bar. The panels
will be at a much higher (steeper) angle.
Any questions, call Dovetail Solar & Wind at 740-767-4070
Ohio University Ecohouse Residential Guide
Solar (PV) Panels
The Need for Solar Cells
Solar cells are created using simple technologies that harnesses the natural physical processes of objects and their environments. Some inorganic materials, such as silicon, can be excited from the light emitted by the sun. This excitation creates a chain of reactions that convert light energy into electrical energy. The availability of such technology is necessary for improving the world’s current atmospheric and economic states. The development of solar cell use has been stimulated by many societal needs. Among the most important are:
• the need for long lasting, low maintenance sources of electricity, that are suitable for places
remote from main electricity grid and from people. Some examples include satellites, remote site
water pumping, outback telecommunications stations and lighthouses.
• the need for non-polluting and silent sources of electricity; eg tourist sites, caravans and campers.
• the need for a convenient and flexible source of small amounts of power; eg calculators, watches,
light meters and cameras.
• the need for renewable and sustainable power, as a means of reducing global warming.
• The preference for many people in grid connected areas to obtain their energy services from
environmentally benign sources.
The growing awareness of the sun’s ability to provide energy has led the advancement of solar cell
designs and increased efficiency. It has also increased the demand for this renewable resource that is not
harmful to us or the environment.
Ohio University Ecohouse Residential Guide
Solar Cell Origins
The 1950’s marked the distribution of the first practical solar cells. People have been using alternative methods for energy production for over 6 decades, but the scientific investigation of photovoltaic phenomenon has been going on for over a century. In 1839 Henri Becquerel, a French scientist discovered that shining a light onto certain chemical solutions produced an electric current. Metal selenium was the first material that the photovoltaic effect was observed in. This was used for many years to power light meters, which only required small amounts of energy.
Solar Cell Structure and Materials
A solar cell converts sunlight into electricity. The sun emits high energy ultraviolet waves that
have the ability to excite the silicon material that composes a solar cell. This excitation creates energy in
the form of electron flow, which can then be utilized for electrical purposes. The solar cells that you see
on calculators and satellites are photovoltaic cells or modules. As the word implies, (photo = light,
voltaic = electricity), these cells are able to convert sunlight directly into electricity.
Photovoltaic cells are thin glass-like plates of silicon material that produce electricity between the
front and back surface when sunlight falls on the front surface. Silicon happens to be a very shiny
Ohio University Ecohouse Residential Guide
material making it very reflective. Photons that are reflected can't be used by the cell. For that reason, an
antireflective coating is applied to the top of the cell to reduce reflection losses to less than 5 percent.
The final step is the glass cover plate that protects the cell from the elements. PV modules are
made by connecting several cells (usually 36) in series and parallel to achieve useful levels of voltage and
current, and putting them in a sturdy frame complete with a glass cover and positive and negative
terminals on the back
At the Eco-house the front face of the PV cells is a tempered glass cover plate, manufactured for
improved light transmission, which increases the overall efficiency of the conversion. The back face is
multi-layered Tedlar. A crystal silicon layer lies between the two faces that is designed to minimize
reflection of incident light with an antireflective coating. The layering of these three materials enables the
generation of electricity from the suns ultra-violet rays. The cells in the panels are connected redundantly
to ensure circuit reliability.
Physical Phenomena: Light Electricity
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A certain portion of the incident photons are absorbed by the electrons in the silicon
semiconductor. If the photons give the electron enough energy the electron becomes a conduction
electron and can be used to carry energy in the form of electricity. The energy knocks electrons loose,
allowing them to flow freely. PV cells also all have one or more electric fields that act to force electrons
freed by light absorption to flow in a certain direction. This flow of electrons is a current, and by placing
metal contacts on the top and bottom of the PV cell, we can draw that current off to use externally. The
sun produces photons in a range of energies with the majority in the range of 1 to 2 electron volts. The
typical energy needed to create a conduction electron in photo-active semiconductor solar cells is about
1.2 electron volts. It turns out that about 75% of the sun's photons have an energy greater than this
minimum energy.
The Element Silicon
Silicon, being a unique element, has special chemical properties. The properties are enhanced
when it exists in its crystalline form. An atom of silicon has 14 electrons that are arranged in three
different sub orbital shells. The first two shells (Fig 1), those closest to the center, are completely filled
with electrons. The outer shell (orange), however, is only half full. There is enough space for eight
electrons, but it only has four. A silicon atom will always look for ways to fill up its last shell because this
makes it more stable. To do this, it will share electrons with four of its neighbor silicon atoms. It's like
every atom holds hands with its neighbors, except that in this case, each atom has four hands joined to
four neighbors. That's what forms the crystalline structure, and that structure turns out to be important to a
silicon PV cell.
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Fig 1. Crystalline Structure of Silicon
It turns out that pure crystalline silicon is a poor conductor of electricity because none of its electrons are
free to move about, as electrons are in good conductors such as copper. Instead, the electrons are all
locked in the crystalline structure. The silicon in a solar cell is modified slightly so that it will work as a
solar cell.
Modified Silicon in Solar Cells: Chemistry
A solar cell has silicon with impurities, or other atoms mixed in with the silicon atoms. The
presence of impurities effectively changes the way things work in the silicon atom. We usually think of
impurities as something undesirable, but a solar cell wouldn't work without them. These impurities are put
there on purpose. Consider silicon with an atom of phosphorous here and there, maybe one for every
million silicon atoms. Phosphorous has five electrons in its outer shell (Blue, Fig 2), not four. It still
bonds with its silicon neighbor atoms, but in a sense, the phosphorous has one electron that doesn't have
anyone to hold hands with. It doesn't form part of a bond, but there is a positive proton in the phosphorous
nucleus holding it in place.
When energy is added to pure silicon, for example in the form of heat, it can cause a few
electrons to break free of their bonds and leave their atoms. A hole is left behind in each case. These
electrons then wander randomly around the crystalline lattice looking for another hole to fall into. These
electrons are called free carriers, and can carry electrical current. There are so few of them in pure silicon,
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however, that they aren't very useful. Impure silicon with phosphorous atoms mixed in is a different story.
It turns out that it takes a lot less energy to knock loose one of the "extra" phosphorous electrons because
they aren't tied up in a bond, their neighbors aren't holding them back. As a result, most of these electrons
do break free, and there are a lot more free carriers than we would have in pure silicon. The process of
adding impurities on purpose is called doping, and when doped with phosphorous, the resulting silicon is
called N-type ("n" for negative) because of the prevalence of free electrons. N-type doped silicon is a
much better conductor than pure silicon is.
Fig 2. N- Type Silicon with Phosphorus Impurity
In reality, only part of a solar cell is N-type. The other part is doped with boron, which has only
three electrons in its outer shell instead of four, to become P-type silicon. Instead of having free electrons,
P-type silicon ("p" for positive) has free holes. Holes really are just the absence of electrons, so they carry
the opposite (positive) charge. They move around just like electrons do.
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Fig 3. P-type Silicon with Boron Impurity
Creating an Electric Field: A Double Dope
The interesting part starts when N-type silicon and P-type silicon are put together. Remember that
every PV cell has at least one electric field. Without an electric field, the cell wouldn't work, and this field
forms when the N-type and P-type silicon are in contact. The extra free electrons in the N side are
constantly searching for holes to fall into. When the N-type and P-type silicon are in contact, the N side
electrons see all the free holes on the P side, and there's a rush to fill them in.
N-type and P-Type Silicon with Pure Elemental Silicon
Before now, the silicon was electrically neutral. The extra electrons were balanced out by the
extra protons in the phosphorous. Our missing electrons (holes) were balanced out by the missing protons
in the boron. When the holes and electrons mix at the junction between N-type and P-type silicon,
however, that neutrality is disrupted. Do all the free electrons fill all the free holes? No. If they did, then
the whole arrangement wouldn't be very useful. Right at the junction, however, they do mix and form a
barrier, making it harder and harder for electrons on the N side to cross to the P side. Eventually,
equilibrium is reached, and we have an electric field separating the two sides.
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The effect of the electric field in a PV cell
This electric field acts as a diode, allowing (and even pushing) electrons to flow from the P side to the N side, but not the other way around. It's like a hill -- electrons can easily go down the hill (to the N side), but can't climb it (to the P side). So an electric field has been created that acts as a diode in which electrons can only move in one direction.
Light Creating an Electric Charge
Sunlight carries solar energy in the form of photons, or tiny packets of energy. When photons
from sunlight hit a photovoltaic solar cell, they travel uninterrupted through the n-type layer of silicon and
hit the atoms in the p-type layer of silicon. The force of the solar photons bumps the electrons in atoms
near the diode out of their bond with surrounding atoms. If this happens close enough to the electric field,
because the electrons are now looking for somewhere to go and because they are attracted to the positive
charge on the surface of the n-type layer, they begin crossing over into that layer. This movement of
electrons from one atom to another is the electrical charge that can be used in an electrical current.
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Once electrons cross over to the n-type silicon, they still have nowhere to go. They are unable to
pass back over to the p-type silicon, but are also unable to form any bonds with the atoms in the n-type
layer, which have more electrons than they need already. Here, an additional photovoltaic panel
component comes into use. In all photovoltaics, a metal conductor strip is used to collect and concentrate
the electrons set free in this process. As the electrons move upward through the n-type layer, they are
attracted to one of many conductor strips which aggregate electrons into a current of electricity.
However, if electrons keep moving out of the p-type silicon into the n-type silicon and the metal conductor strip, soon there will not be enough electrons available to continue this process. Instead, electrons need to be fed back into the p-type silicon through another metal conductor strip or plate. By connecting both conductor strips to an electrical current, a cycle of using and replenishing electrons is formed, and we can store in a battery or connect an electrical load, like a light bulb, building or anything else that uses electricity, to this current to take advantage of the electricity being produced by the photovoltaic panel. In practice, there are several additional steps that the electricity must go through to serve an electrical load, but this is the general concept behind photovoltaic current. The electron flow provides the current, and the cell's electric field causes a voltage. With both current (I) and voltage (V), we have power (P), which is the product of the two.
P=IV
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Energy Loss: Band Gap Energy
Solar cells only absorb about 15% of the sunlight’s energy. This is due to the wave properties of
light. Electromagnetic radiation, like that emitted by the sun, is not monochromatic. It is made up of a
range of different wavelengths, and therefore different energy levels. Visible light is only part of the
electromagnetic spectrum.
Electromagnetic Spectrum
Light can be separated into different wavelengths, and we can see them in the form of a rainbow.
Since the light that hits our cell has photons of a wide range of energies, it turns out that some of them
won't have enough energy to form an electron-hole pair. They'll simply pass through the cell as if it were
transparent. Still other photons have too much energy. Only a certain amount of energy, measured in
electron volts (eV) and defined by our cell material (about 1.1 eV for crystalline silicon), is required to
knock an electron loose. This is called the band gap energy of a material. If a photon has more energy
than the required amount, then the extra energy is lost (unless a photon has twice the required energy, and
can create more than one electron-hole pair, but this effect is not significant). These two effects alone
account for the loss of around 70 percent of the radiation energy incident on our cell.
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It might seem that choosing a material with a really low band gap would increase the efficiency
of the solar cell. Unfortunately, the band gap also determines the strength (voltage) of the electric field,
and if it's too low, then what is make up in extra current (by absorbing more photons), is lost by having a
small voltage. Remember that power is voltage times current (P=IV). The optimal band gap, balancing
these two effects, is around 1.4 eV for a cell made from a single material.
Power, Current, and Volts
▪ Regardless of its size, a single solar cell always produces a VOLTAGE of approximately 0.5 volts.
▪ To generate higher voltages, connect individual cells in SERIES. This allows the summation of the
individual voltages.
▪ To generate greater CURRENT, use larger solar cells. Current is measured in AMPERES.
▪ You can also connect cells in PARALLEL to increase current.
Voltage can drop for several reasons:
o At high temperatures. (Unlike thermal solar energy, PV works less well when it's very
hot! In tropical climates, choose higher voltage panels.)
o As a result of long wires. It's important to keep your wiring between your panels and
other parts of your installation as short as possible.
o Diodes can also cause small voltage losses.
Voltage can be compared with water pressure in a hose. If the "pressure" of the electrons isn't high enough, the electricity can't "penetrate" the battery. Just as voltage can be likened to water pressure in a hose, current can be likened to the flow, or the amount of water (or electrons) passing through. A thin hose will take longer to fill a swimming pool than a thicker hose with the same pressure.
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A panel that produces 2 amperes sends twice as many electrons as a one-ampere panel. When talking of PV panels, you usually refer to their POWER (measured in WATTS).
VOLTS x AMPERES = WATTS
The voltage produced by PV panels remains roughly the same regardless of the weather, but the current
(amps) and the power (watts) will vary.
The solar electric panels at the Ecohouse are Isofoton panels. They generate a maximum current
of 8.7 amps and a maximum voltage of 17.3 volts. This produces a power output of 150 Watts +5%.
P=IV
P= 8.7*17.3
P=150 W
Positioning of Solar Panels
THE SUN'S RAYS SHOULD BE PERPENDICULAR TO THE PANELS. SUNLIGHT SHOULD HIT THEM AT A 90° ANGLE.
1. The position of solar panels can be adjusted manually to get the best tilt angle for each season. Take
your latitude and add 15° for the winter, and subtract 15° for the summer. At the spring and autumn
equinoxes, the best angle is equal to your latitude
2. It is advisable to have at least a 15° tilt to avoid rain accumulating on your panels. A greater angle will
help keep them free of snow.
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3. Snow on the ground is a welcome sight in winter -it increases diffuse light considerably!
The solar electric array at the OU Eco-House is designed to be raised and lowered throughout the
year to catch the sun’s rays as efficiently as possible. During the summer months, when the sun is higher
in the sky, the array will be at a lower angle, around 25 degrees. When the sun is lower in the sky, in the
fall, winter and spring, the array will be at a higher angle, around 40 degrees.
The vertical racking bars are marked at the places that set the array at the proper angle. So all that
needs to be done is moving it up in the late summer to the lower marking, and down in the late spring to
the upper marking.
When the solar panels were repositioned for the spring angle, their power output increased by
more than three fold. It is very important to position them at an angle that maximization transmission of
light. The ideal angle is 90 degrees to the position of the sun.
AC/DC
Electricity flows in two ways; either in alternating current (AC) and in direct current (DC). The
word electricity comes from the fact that current is nothing more than moving electrons along a conductor
that have been harnessed for energy. Therefore, the difference between AC and DC has to do with the
direction in which the electrons flow. In DC, the electrons flow steadily in a single direction, or
“forward.” In AC, electrons keep switching directions, sometimes going “forwards” and then going
“backwards.” The power that comes from our wall outlets is AC, the more common, efficient kind.
The major advantage that AC electricity has over DC is that AC voltages can be transformed to
higher or lower voltages. This means that the high voltages used to send electricity over great distances
from the power station could be reduced to a safer voltage for use in the house.
A magnetic field near a wire causes electrons to flow in a single direction along the wire, because
they are repelled by the negative side of a magnet and attracted toward the positive side. This is DC
power, and this is the type of power generated by solar panels. With a solar array, DC power is channeled
into a battery through conductors, which then flows through an inverter that changes it into AC power.
This AC power can then be tapped into through electrical outlets in the home.
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At the Ecohouse there is no battery that the DC power generated by the panels stores. Instead, the
solar panels are hooked up directly to the electric company’s grid. If the house needs the energy, the
electrons flow through an inverter that converts the DC current to AC current that can be tapped into
through outlets inside the house. However, if the solar panels are producing more energy than the house
needs, the rest of the current flows directly into the electric company’s grid. They can then distribute that
energy to whatever house or building is in need at the time.
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SOLAR THERMAL WATER HEATING
A solar thermal system usually consists of panels that are mounted on a rack or the roof of a
building. They are designed to capture solar energy and use it to heat water. There are many types of
solar collectors that can be used.
Why Solar Water Heating?
By installing a solar water heating system, a typical household can meet 50 to 100 percent of their
hot water needs. Reducing the demand for fossil fuels will improve the environment by reducing air and
water pollution as well as the heat-trapping gases that cause global warming.
How Does It Work?
Solar hot water heaters use the sun to heat either water or a heat-transfer fluid in collectors. There
are passive systems and active systems. A typical system will reduce the need for conventional water
heating by about two-thirds. Sometimes the plumbing from a solar heater connects to a house's existing
water heater, which stays inactive as long as the water coming in is hot or hotter than the temperature
setting on the indoor water heater. When it falls below this temperature, the home's water heater can kick
in to make up the difference. High-temperature solar water heaters can provide energy-efficient hot water
and hot water heat for large commercial and industrial facilities.
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Typical Active Solar Thermal System Layout
Solar Energy Collectors
Flat Plate Collectors The most common collector for solar hot water is the flat plate collector. It is a rectangular box with a transparent cover, installed on a building's roof. Small tubes run through the box and carry fluid-either water or other fluid, such as an antifreeze solution. The tubes attach to a black absorber plate. As heat builds up in the collector, it heats the fluid passing through the tubes. The hot water or liquid goes to a storage tank. If the fluid is not hot water, water is heated by passing it through a tube inside the storage tank full of hot fluid.
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Evacuated Tube Collectors These collectors consist of rows of parallel transparent glass tubes, each containing an absorber and covered with a selective coating. Sunlight enters the tube, strikes the absorber, and heats the liquid flowing through the absorber. These collectors are manufactured with a vacuum between the tubes, which helps them achieve extremely high temperatures (170-350 degrees F); so they are appropriate for commercial and industrial uses.
Concentrating Collectors Parabolic trough-shaped reflectors concentrate sunlight onto an absorber or receiver to provide hot water and steam, usually for industrial and commercial applications.
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Transpired Solar Collectors A transpired collector is a south facing outside wall covered by a dark sheet metal collector. The collector heats outside air, which is then sucked into the building's ventilation system through perforations in the collector. They have been used for pre-heating ventilation air and crop drying. They are inexpensive to make, and commercially, have achieved efficiencies of more than 70 percent.
Batch or Breadbox Heaters This system is also referred to as a batch heater and a breadbox. It consists of an approximately 40-gallon insulated tank, lined with glass on the inside and painted black on the outside. It is mounted on the roof, or on the ground in the sun. Plumbing from the house supplies the box with cold water through an inlet that extends down to the bottom of the tank. The box itself acts like a collector, absorbing and trapping the sun's heat and heating the water. An outlet supplies the house with heated water from the top of the tank.
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Hot Water Systems
Direct Systems This system uses a pump to circulate potable water from the water storage tank through one or more collectors and back into the tank. The pump is regulated by an electronic controller, an appliance timer, or a photovoltaic panel.
Indirect Systems In this system, a heat exchanger heats a fluid that circulates in tubes through the water storage tank, transferring the heat from the fluid to the potable water.
Thermosiphons A thermosiphon solar water heating system has a tank mounted above the collector. As the collector heats the water, it rises to the storage tank, while heavier cold water sinks down to the collector.
Draindown Systems In cold climates, this system prevents water from freezing in the collector by using electric valves that automatically drain the water from the collector when the temperature drops to freezing. "Drainback systems," a variation of this approach, automatically drain the collector whenever the circulating pump stops.
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The Ecohouse has a solar watering heating module that consists of two flat plate panels. The
water heating system is indirect, and it uses propylene glycol to heat the water stored in the house’s water
tank. The propylene glycol runs through copper tubes in the panels, which is then heated by the sun. A
electric PV powered pump ultimately pushes the heated fluid into a copper coil that sits at the bottom of
the water tank. The heat diffuses from the fluid through the copper, making the house’s water warm.
Check out more about the solar module design and tank system at the Ecohouse in the Third Sun Solar
Thermal Book.
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Ohio University Ecohouse Solar Thermal Hot Water System
This project was funded by Cinergy through their energy consulting company Vestar, who has been contracted to design and implement energy efficiency programs at Ohio University. The solar-thermal portion of the Ecohouse project was contracted to the Athens based company Third Sun
Solar & Wind Power. This project will use solar irradiance to provide heat to assist in heating of the
domestic hot water for the residents of the Eco House.
For further questions or service enquires please call Third Sun at (740) 597-3111 Design Principal
The installed solar thermal system uses two SunEarth EC-32 flat plate thermal collectors in a closed
circulation loop and heat exchanger system. After the Glycol-based heat transfer flood is warmed by
traveling through the two collectors’ 65 ft.2 of heat collecting area it is piped into a double wall heat
exchanger inside of a super insulated hot water tank. A 20 watt photovoltaic module, mounted adjacent to
the thermal collectors, is coupled directly with an El Sid high efficiency circulation pump. This pump
moves the cooled fluid back to the thermal array where it absorbs additional heat and is continuously
cycled until the setting sun causes the photovoltaic module to stop producing power for the circulation
pump.
The output from the solar thermal system’s tank is plumbed to the cold water intake of the existing gas
fired hot water heater, thus providing a large boost in system efficiency due to the thermal systems
preheating of the water. It is estimated that in the summer months 100% of the domestic hot water needs
may be provide by Solar Thermal System. Bypass valves have been installed at both hot water tanks to
allow the isolation of either the gas fired or solar thermal systems for efficiency or maintenance purposes.
Finally, a mixing valve is located at the hot water output point of the gas fired tank to ensure the hot water
temperature never exceeds a safe, scald-free temperature.
In addition to the pressure gauge on the circulation loop, there are three measurement points fitted with
temperature gauges. These temperature gauges show both the incoming and outgoing temperatures of the
circulation loop as well as the solar thermal tank’s hot water output temperature. Both the circulation loop
and the solar thermal tank feature temperature and pressure overflow valves.
Attached are pages for valve locations and functions, gauge locations and functions, and an isometric
schematic of the complete solar thermal plumbing system plumbing.
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By-‐passing Solar Thermal or On-‐Demand System
These are the valves near the on-‐demand water heater. When all are in the upright position, the
water will flow through the heater.
If you turn the blue handle horizontal, and the right-‐hand red handle horizontal, the on-‐demand
water heater is bypassed and the water is being heated solely by the solar thermal system. You do
not ever need to move the left-‐hand red handle which the hand in this photo is holding.
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Almost 100 % of the time, the handles should be set as pictured above. This draws in the water
from the solar thermal heater.
Occasionally, you may want to bypass the solar thermal system (pictured above). The only time
you may want to do this, is if the temperature of the water is around 90-‐100 degrees. The on-‐
demand water heater will not turn on because of the risk of overheating the water. So, for a more
comfortable shower, you may want to just let the on-‐demand heater do the work.
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The corn and wood pellet furnace is located in the basement of the Ecohouse, keeping
residents like you warm through the winter months! The furnace was originally meant
to burn corn (hence the name) for its heat source. However wood pellets, which are
made from waste wood, now fuels the furnace. The reason for the switch in resource
was the costliness of maize and the reduction
from a food source. Biofuel is a better option
because the pellets can be made out of
recycled wood, which is a more sustainable
practice than using corn. Just like any other
furnace, the efficiency depends on
temperature, time of year, flame, etc. The cost
of this system is $2,000 and it can save on fuel expenses depending on the variables
mentioned above. The Ecohouse's thermostat electronically controls the fuel feed
system and blower to provide a constant temperature. The furnace will remain lit as
long as the bin contains corn, and will shut down automatically if the fuel supply is
depleted. This electronic heating technique helps with consistency in temperature
making sure the furnace is not continuously running.
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A-MAIZE-ING FURNACE
Instructions Start-Up Up Keep
End of Season
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Furnace Terms
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1. Turn gas furnace down to 55°. This acts as a back up if the wood/corn furnace goes out.
2. Turn wood/corn furnace up higher than the house�s current temperature, which should be about 5° warmer than you�d like the house. This will ensure that the wood/corn furnace knows to turn on.
4. Loosen bottom screw of the metering auger and detach from auger tee.
3. Vacuum out the combustion chamber.
5. Pour about 1T of graphite into the auger tee connection.
6. Pour about 1T of graphite into the storage bin hole.
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7. Pour one bag of wood chips into the hopper.
8. Fill the burn pot to just below the first row of holes.
10. Pour a little bit of lighter fluid into the burn pot and then place the lighter fluid far away from the furnace.
9. Thoroughly douse a small container of wood chips with lighter fluid and put in the burn pot.
11. Light as many of the wood pellets as possible with a match.
12. Turn switch to �start�.
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14. Let the pot burn for 10-15 minutes and proceed through steps 15-17 while you wait.
13. Balance the combustion blower. If it is too far open, the flame will be roaring and burn faster than the auger can feed the chips. If it is too far closed, the flame will lap lazily and the auger will feed the pot faster than the fire can burn it.
17. When the first metal tab (red arrow) reaches or passes the edge of the black plastic ridge (green arrow), the furnace is hot enough to be turned on. In this picture the metal tab is well past the black ridge, the furnace is ready as soon as the silver tab reaches the black ridge.
16. Remove the metal cover of the thermostat box on the left side of the machine by squeezing the sides and pulling it towards you. You should see the temperature gauge pictured in step 17.
18. Switch furnace to �on�. Put the cover of the thermostat box back on. Close the door to the combustion chamber.
15. If you haven�t already, re-attach the metering auger. Then fill up the storage bin with pellets. Put the lid on the storage bin.
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20. Loosen the screw. Sliding the weight back makes the chimney draft number get smaller. Sliding the weight forwards makes the number larger. It is pictured in the forward position now.
19. Make sure the range on the chimney draft meter is between .04 and .06. Do NOT touch the white knob. If it is not between .04 and .06 refer to step 20. If it is, skip step 20.
21. You can now reduce the thermostat to your desired temperature. Do not reduce more than 2° at a time and then let the furnace catch up in between.
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Pull the heat exchanger scraper all the way out and then push it back in.
Remove the ash pan completely and empty into a metal pail at least once a week. In very cold weather you may have to empty it more often.
Refill the hopper. In cold weather you may have to fill it more often than once a week. If the hopper runs out before you catch it, let the stove burn out, cool for several hours and then clean out and relight the stove.
Weekly Maintenance
Check the rim of the burn pot for clinkers that might be stuck to it. If there are any, loosen them with the clinker tool.
Monthly Maintenance
Once a month, dump 1T of graphite into the storage bin hole (or as close to it as possible since there will still be a some pellets in the hopper).
Maintenance employees should come to change the filter every month or two. If this does not happen, please let someone in the Office of Sustainability know and we will get someone to come over and do it.
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End of Season Procedure 1. Allow the furnace to burn up all of the wood pellets in the storage
bin until it burns itself out.
2. Put in a work order for annual maintenance and let someone in the Office of Sustainability know you have done so, or ask someone in the Office of Sustainability to put in the work order.
The work order should include the following:
Please conduct annual maintenance on the A-maize-ing Furnace in the basement of the Ecohouse. The manual for the furnace is housed at the Office of Sustainability which is located in the Facilities Management Building, office #182 & #181.
Thoroughly clean the combustion chamber and burn pot. Remove and inspect all chimney pipe connections. Clean out ash buildup in pipes. Replace any pipe showing signs of burning through. Clean oil and inspect all blower and auger motors including the burner fan, main blower fan, burner auger and storage bin auger.
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Why Compost?
Reducing the amount of solid waste you produce is the major goal of composting. If you
reduce solid waste, you will save space in municipal landfills, which will ultimately save you tax
money. It is important to remember that finished compost has the advantage of being a useful
natural fertilizer that is more environmentally friendly than synthetic fertilizers.
Compost ing Biology
Composting provides the conditions that are ideal for the natural decay processes that
occur in nature. The materials that contribute to the composting environment include:
• Organic waste - newspaper, leaves, grass, kitchen waste (fruits, vegetables), woody materials
• Soil - source of microorganisms • Water • Air - source of oxygen
During the process of composting, microorganisms from the soil eat the organic, carbon
containing, waste. These organisms break it down into its simplest parts. This produces a
fiber-rich, carbon-containing humus with inorganic nutrients like nitrogen, phosphorus and
potassium.
The microorganisms break the material down through aerobic respiration. This
means that they require oxygen, and the only way they get it is from the air you introduce
when you turn the material in the compost bin. Water is also essential to the
microorganisms so that they can live and multiply.
Through the respiration process, the microorganisms give off carbon dioxide and
heat -- temperatures within compost piles can rise as high as 100 to 150 degrees
Fahrenheit (28 to 66 C). If the compost pile or bin is actively
managed by turning and watering it regularly, the process of
decomposing into finished compost can happen in as little as
two to three weeks (otherwise, it may take months).
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A compost pile has a complex organization of living organisms. Within the small
ecosystem created by composting a foodweb exists. Bacteria and fungi primarily break
down the organic matter in the trash. Single-celled organisms (protozoa), small worms
(nematodes), and mites feed on the bacteria and fungi. Predatory nematodes, predatory
mites and other invertebrates (sowbugs, millipedes, beetles) feed on the protozoa, mites
and nematodes. All of these organisms work to balance the population of organisms
within the compost, which increases the efficiency of the entire process.
Balancing the Compost Contents
The compost conditions must be balanced to create an environment that is
efficient for decomposition. There must be:
• Plenty of air - mixture should be turned daily or every other day • Adequate water - mixture should be moist, but not soaking wet • Proper mix of carbon to nitrogen - ratio should be about 30:1 • Small particle size - big pieces should be broken up, as smaller particles break
down more rapidly • Adequate amount of soil - should provide enough microorganisms for the process
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Making Compost
To make compost, you must do the following:
• Choose a site for the compost pile. • Choose a structure. • Add the ingredients. • Care for and feed the compost pile. • Collect the finished compost for use.
Choose a Site
It is important to ask yourself where you want your compost pile. You want to be able to compost discretely away from your house, but not so far away that you may not want to go out and attend to it. Also, you do not want it so close to the boundaries of your property that your neighbors might complain. Part of the answer may be dictated by local housing ordinances or homeowner organization rules that may specify where a compost pile can be located. Other factors to consider include the following:
• Downwind from your house - Even a well-managed compost pile may occasionally emit unpleasant odors.
• Wind - Although wind provides air, too much wind can dry and/or scatter the material.
• Sunlight - Sunlight can help warm the compost pile in the winter, but too much sunlight can dry it out. If the pile is located by a large deciduous tree, you will have cool shade in the summer and sunlight in the winter.
• Drainage - You want good drainage so that water will not accumulate by the pile. • Surface - Bare earth is better than concrete. Make sure to give yourself a sufficient
work area around the pile (6 to 8 ft, or about 2 m).
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Choose a Structure
Compost structures can be as simple as a heap where you just pile all of the ingredients and let nature take its course, this is passive composting. Passive composting is less efficient and slower than active composting, in which you manage the compost process on a daily basis.
Construction of more complicated compost bins can be done using chicken wire, wood or concrete blocks. They can be simple, one-compartment structures in which you add new materials to the top, turn the compost frequently and collect the finished compost from the bottom.
They can also be multi-compartment (three-bin) structures in which you add new material to one bin, transfer partially-completed compost to the middle bin and move finished compost to the final bin. There should be some covering on the top of the bin to minimize excess rainwater and reduce scattering from the wind. Many varieties of compost bins are available commercially.
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Add the Ingredients
You can compost the following materials easily:
• Kitchen waste - best to chop up or grind the wastes so that they can be broken down faster
§ Fruit and vegetable wastes - peels, skins, seeds, leaves § Egg shells § Coffee grounds (including paper filters), tea bags, used paper napkins § Corncobs - should be shredded to make them break down quickly § Meat/dairy products - see sidebar
• Yard waste § Grass clippings - Some grass is okay, but too much will add excess
nitrogen to the compost pile and make it smell bad. It may be best to use a mulching lawn mower for your grass.
§ Leaves § Pine needles § Weeds § Woody materials (branches, twigs) § Straw or hay
• Newspaper • Seaweed, kelp or marsh grass hay - If you live by the ocean and it is legal to
harvest these, they are excellent, nutrient-rich materials. Rinse or soak them thoroughly in fresh water to remove excess salt before adding them to your compost pile.
• Sawdust - This is an excellent source of carbon.
Composting Meat & Dairy
Meat and dairy products are high in fat. They will cause
an unpleasant odor if added to a passive pile or poorly-
managed active compost pile. For a hot, well-turned
compost pile, meat and dairy wastes are not a problem.
However, it is better to run the wastes through a blender
or food processor to reduce their size and speed their
decomposition.
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Composting At The Ecohouse
In the past, the Ecohouse had a one compartment composting bin. It was made out of
recycled crates that were disassembled. Chicken wire was then stapled to all four sides and
the top to allow for ventilation and moisture. The bottom was left open to make the
entrance of all those friendly decomposers easy. This bin used to hold the kitchen waste of
the three Ecohouse residents.
During the summer of 2012, the Ecohouse residents have since updated and expanded
their forms of composting with a barrel on the back porch, the garden tri-bin, and the
vermicomposting bin in the basement. These systems of composting serve different purposes
for the property to fulfill waste management needs. The plastic barrel on the back porch
serves as the new home for kitchen scraps and other food waste. It should be turned every
couple days and emptied onto the properties garden and landscape when full. The tri-bin
functions as the primary source of the garden and landscape waste, located in the back of the
garden. The tri-bin is primarily maintained by the Office of Sustainability garden manager and
community garden plot owners. Ecohouse residents are not responsible for this portion, but
are encouraged to get their hands dirty. Lastly, vermicomposting is used for food scraps, bits
of paper products (non-gloss), and other biodegradable materials such as dryer lint. Detailed
descriptions and care instructions for the three composting varieties can be found within the
house features and garden/landscape sections of the Ecohouse residential guide.
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IMPORTANT COMPOSTING INSTRUCTIONS:
The following materials SHOULD NOT BE COMPOSTED:
• Human waste or pet litter - They carry diseases and parasites, as well as cause an unpleasant odor.
• Diseased garden plants - They can infect the compost pile and influence the finished product.
• Invasive weeds - Spores and seeds of invasive weeds (buttercups, morning glory, quack grass) can survive the decomposition process and spread to your desired plants when you use the finished compost.
• Charcoal ashes - They are toxic to the soil microorganisms. • Glossy paper - The inks are toxic to the soil microorganisms. • Pesticide-treated plant material - These are harmful to the compost
foodweb organisms, and pesticides may survive into the finished compost.
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Composting As A Strategy: 2010-12 Resident Kylie Johnson
Many people think that composting is only for people who want to use the soil
for gardening. Although it makes wonderful nutrient-rich soil, composting is also
important as a waste management strategy. In 2010 the EPA recorded that 33 million
tons of food waste were sent to landfills. This makes food waste the biggest contributor
to landfills. Waste is becoming a big issue with growing population and consumption
patterns. The U.S. municipal waste stream has tripled since the 1960s. Today, 4.5
pounds of food waste is produced per person per day compared to 1.8 pounds 45
years ago. That is a HUGE increase that needs to be fixed with sustainable solutions.
Composting is one solution to help with food waste because the EPA projects that
67% of American household waste can be composted.
Composting is still a relatively new practice for food waste diversion in the U.S.
There are some cities like San Francisco that require composting, but most cities do not
have composting pickup available because it is still cheapest to send food waste to the
landfill. Many European countries that are facing space constraints have adopted new
waste management strategies to reduce the amount of waste going to landfills. Scotland
is one of these countries. A few years ago Scotland was only recycling 4 percent of
possible materials, but new targets in the Scotland’s Zero Waste Plan require Scotland
to recycle 70 percent with a maximum of 5 percent to landfill by 2025. In order to
achieve a zero waste Scotland in the next 10 years, the government has been
progressively increasing the landfill tax each year in order to encourage more sustainable
methods of waste disposal. This government-inspired shift in protocol has made
composting an increasingly attractive waste disposal practice for businesses. The United
States needs to create government mandates like Scotland and other European
countries have done in order to make composting a viable waste management option.
Ohio University Ecohouse Residential Guide
Composting As A Strategy: 2010-12 Resident Kylie Johnson
There are tons of benefits to composting, and it is a great tool for climate change
mitigation. The following list of benefits relates to the potential of composting as a
mitigation tool for climate change. Composting results in:
•Removal of atmospheric carbon through soil carbon sequestration
•Reduction of GHG emissions through reduced production of chemical fertilizers
and pesticides
•Landfill cover reduces GHG emissions
•Reduction of GHG emissions through reduced irrigation
•Reduced diesel use for soil cultivation from improved tilth and soil workability
•Reduced need for biocides reduces GHG emissions from biocide production
•Reduced nitrogen loss that causes N20 emissions
•Reduced erosion that results in N20 emissions from loss of nutrients and organic
matter
•Abatement potential for manure management
• Effective bio-filter for reducing pesticide contamination in water spills
Provides a less costly alternative to conventional
methods of remediating (cleaning) contaminated soil
• Helps prevent pollution
Ohio University Ecohouse Residential Guide
Composting As A Strategy: 2010-12 Resident Kylie Johnson
There are tons of benefits to composting, and it is a great tool for climate change mitigation.
The following list of benefits relates to the potential of composting as a mitigation tool for climate
change. Composting results in:
Compost has also been shown to prevent erosion and silting on embankments and prevents
erosion and turf loss on roadsides, hillsides, golf courses, etc.
• Realistic Energy Option using Anaerobic Digestion Plants • Restoring nutrients to the soil
When used for growing crops, compost has shown to increase soil water holding capacity,
add nutrients, and stifle soil-borne diseases
• Offers economic benefits
It serves as a marketable commodity and is a low-cost alternative to standard landfill cover and
artificial soil amendments. Composting also extends landfill life
Overall, composting simultaneously reduces GHG emissions, improves sustainability, prevents soil
and water contamination, conserves resources, provides renewable energy options, increases soil
nutrients...and the list goes on and on! In 2005, the U.S. disposed of 25 million tons of food waste
into landfills. If this food waste had been composted, the GHG emissions impact would have been
equal to removing 7.8 million cars from the road! The majority of the population is not aware of all
the wonderful benefits that composting has to offer because it is not yet a common practice. So
share this information with the people around you, they will be surprised to find that it is easy to
do. Depending on where you live, it can also save you money
on trash disposal costs by cutting down the weight of your
trash bins every week. I was amazed by how many garbage
bags we saved at the Ecohouse by composting compared to
what I was used to before having a backyard compost pile.
Ohio University Ecohouse Residential Guide
Composting As A Strategy: 2010-12 Resident Kylie Johnson
May 6th-12th was International Compost Awareness Week (yes, there is an
entire week dedicated to composting) supported by the U.S. Composting Council. It is
the largest education initiative of the composting industry every year. If you are
interested in learning what communities and cities are doing with composting around the
country, follow ICAW on Facebook or visit their website at
http://compostingcouncil.org/icaw/. I was hoping that I would have the chance to host a
composting workshop at the Ecohouse for ICAW, but my schedule did not allow for it.
This would be a great way to engage people in the practice next year.
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micomposting is a type of composting that uses
worms. It is beneficial because it allows food waste to compost rapidly in a self-contained system. The biggest concern I hear from people about creating a vermicompost system is the smell. However, if you properly maintain your bin, it should not smell!!
How to create your own vermicompost system:
• Obtain a b in . As you can see, ours is just a plain rubber bin that is double layered. The double layering is necessary because the inside bin needs to have holes drilled in it for ventilation.
• Dri l l 1/8 inch holes approximately four inches from
the bottom of the bin. Otherwise, the worms will stay at the bottom of the bin and possibly drown.
• Prepare the box for worms. Fill your bin with fibrous material such as thin strips of newspaper, cardboard, grass, straw, etc. Sprinkle dirt on top of the fiber material and moisten with water. Allow the water to soak for at least a day before adding worms.
• Add worms! Eisenia foetida (Red Wigglers) are the most common species used for vermicomposting. These are special tropical worms that cannot withstand cold temperatures, so make sure to keep your bin in a warm area. It is not recommended to dig worms out of your back yard for composting. If you live in Athens, you can purchase Red Wigglers at the local farmers market located by the State Street mall on Wednesdays and Saturdays.
This is a photo of our worm factory
located in the Ecohouse basement.
We just cleaned it out and filled it
with new redworms!
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• Mainta in b in. You will speed up the composting process by keeping your bin elevated. Also, your worms will not attempt to escape if you add food waste and moisture regularly. Feed your worm’s food scraps weekly and add fibrous material when needed (usually once a month).
• Harvest your compost . Remove a large amount of compost and place on a piece of
newspaper or plastic. Allow time for the worms to bury into the center of the compost
heap, and eventually you will have two separate piles, one for the worms and one for
compost. Return the worms to the compost bin and use the remaining compost for
whatever you like!
How it works:
• There are several different removable bins with holes in the bottom of each, and these bins fit together to form the worm factory and allow the compost from worm waste to be sifted to the bottom
• To start your own worm factory, place moist newspapers in the top feeding tray and place food scraps under the moist sections
• The balance of food and fiber should be 50/50. • Once you have added the proper ratio of food and fiber, you can add worms to the top
tray • For feeding the worms, you should follow the guidelines of 1 pound of worms to 1/2
pound of food per day
Possib le f iber sources that can be used for the factory:
• Shredded paper • Magazines • Cardboard
There are many online sources available that explain
vermicomposting techniques. However, I found the
website mentioned below to be particularly helpful in
giving easy, detailed instructions on how to create
your own system:
http://www.wikihow.com/Make-Your-Own-Worm-
Compost-System
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Dehumidifier
During the summer the Ecohouse basement collects moisture, making it a breeding ground for
mold. A dehumidifier is necessary to collect unwanted humidity within the space. With the
rapid collection of vapor, it is necessary to empty the back of the dehumidifier. The Ecohouse
uses this recycled gray water to fill the back of the toilet or to water the garden and landscape,
making it a very sustainable practice!
Toilet
Use less water. Fill an empty 2-liter bottle with water. Flush your toilet and place the bottle
in the back of the toilet. Now, every time you flush the toilet you will be using about 2 liters
less water! Now, just imagine if EVERYONE did that. What a difference a small change can
make.
Rainwater Catchment
When rainwater runs down the gutters of the Ecohouse and solar array, it is caught in barrels
designed to recycle gray
water in the garden,
landscape, and the back of the
toilet.
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OHIO UNIVERSITY
ECOHOUSE PROJECT Project : Dry ing F lowers
Type: Recipe
Plan: Before you get started, you'll need to
assess whether your flower bouquet will
dry well. Blooms should not be fully
mature or they will lose their petals in the
flower drying process. Also, consider
the types of flowers you are using. Air
drying will work for more robust varieties
such as roses or small, long-lasting varieties
like lavender. For more delicate flowers
like lilies, try another preservation technique, such as pressing.
1. Strip excess foliage from your flowers and cut the stems to your desired length (but not shorter than six inches). To help your flowers maintain their color during the drying process, it is important that you remove them from sunlight as soon as they're cut. Rubber band bunches of stems together if you would like to hang a bouquet, or leave the stems be if you'd like to hang the flowers individually.
2. Find a dark, dry area with good circulation. An unused closet will work perfectly. With unflavored dental floss, secure the bottom end of the flower's stem to a hanger. You may hang two flowers/bunches on each hanger by hanging items from each side, or you can hang one flower/bunch by hanging it from the middle. Once secure, hang flowers upside down to dry. Leave your flowers there for a good two to three weeks and make sure not to remove them until they are completely dry.
3. Remove the flowers from the hangers. You can now hang your dried flowers
around the house as you please, remove the petals and make potpourri, or use them in a crafts-related project to make a thoughtful gift for someone else. Dried flowers don't like sunlight or extreme heat, so try to find homes for them in more
Ohio University Ecohouse Residential Guide
Plan : Interested in saving money on your
grocery bill while still eating healthy? Growing
sprouts at home is the perfect solution!
Sprouting is a great way to garden in the
winter, and it is perfect for people who have a
small living space because sprouts can be
grown in a glass jar without taking up any room.
Sprouts are nutritious and tasty, and compliment just about everything from
sandwiches and salads to stir-fry and casseroles. Once you start sprouting, you will be
hooked! Thanks to Jim, we have a constant supply of sprouts at the Ecohouse in a
variety of different types including red clover, alfalfa, and lentils.
To start your very own sprout collection, follow the easy step-by-step instructions
below. You'll be a sprouting pro in no time!
Sustainable Liv ing : If you live in Athens, my suggestion for buying seeds locally
would be The Farmacy. You can buy seeds there for sprouting in addition to
sprouting mixes that include a blend of seeds. Also, if you're looking for cheesecloth
in Athens, you can find it at Kroger in the kitchen section. To start your very own
sprout collection, follow the easy step-by-step
instructions below. You'll be a sprouting pro in no
time!
Project : DIY Sprout Making
Type: Rec ipe
Res ident Name: Kyl ie Johnson
Year : 2010-2012
OHIO UNIVERSITY
ECOHOUSE PROJECT
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Gett ing Started: What You Wil l Need
1) Seeds of your choice (recommendations listed below)
2) Jar (any type will do but we use glass mason jars)
3) Cheesecloth
4) Rubber Band
Choose Seeds and Measure
Here are the best choices of each type of sprout source.
(Recommendations from www.thefarm.org)
• Best seeds: alfalfa, clover. • Best beans: mung, lentil, garbanzo. • Best nuts: almonds, filberts (hazelnuts). • Best grains: wheat berries, rye.
The next list indicates what amount of sprout source is appropriate.
• Small seeds: 2-3 tablespoons (30-45 ml). • Medium seeds: 1/4-1/2 cup (65-125 grams). • Large beans and grains: 1 cup (250 g). • Sunflower seeds: 2 cups (500 g).
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The Process:
1. Before you go to bed, measure out the correct amount of seeds. In the case of alfalfa, 2-3 tablespoons.
2. Next, pour the seeds onto a plate and inspect them for broken or withered pieces, small stones, and lumps of dirt.
3. After they're sorted, pour the seeds into a strainer and rinse under water. Make sure your strainer has very fine netting so that your seeds don't get washed down the drain!
4. Pour your rinsed seeds into a jar. 5. Cover the seeds with water. The water level should be a few inches (6-8cm) above
the seeds. Let them soak overnight. If your seeds are medium sized, soak them for 8-12 hours. Large seeds should soak 12-24 hours.
6. Cover the mouth of the jar with cheesecloth the next morning and secure with a rubber band.
7. Turn over the jar in the sink and strain out the water. *Note- Some people save this water because it is full of nutrients. You can use it as an ingredient in a health shake or feed it to your houseplants!
8. Shake the jar to remove excess water. 9. Rinse the seeds again and shake the jar to remove extra water. Hold the jar up to the
light to ensure the seeds are mostly dry. If they're too wet, the seeds may rot during sprouting.
10. Drain the seeds all day by tipping the jar on its side upside down in a bowl or dish. 11. Repeat the rinsing process on the evening of the same day. For 4-5 days you will
continue this process of morning and evening rinsing and draining. 12. Watch for growth. After a few days you will begin to see green leaves sprouting on
the seeds, and white shoots will appear on beans, nuts, and grains. 13. Harvest! The sprouts will reach their best flavor and nutritional value after 4 or 5 days.
Give them one last rinse and shake. They're ready to eat!
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Step 10: Drain the seeds
Step 2: Jim inspecting the seeds
Step 6- Cover the jar
with cheesecloth
Step 6:
Secure
cheese
cloth
with
rubber
band
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ECOHOUSE PROJECT
Project : How to Make and Can Fami ly
Secret Tomato Sauce
Type: Rec ipe
Res ident Name: Hannah Simonett i
Year : 2011-2012
P lan : The first thing I canned this year was
tomato sauce. I bought the tomatoes and
onions at the Produce Auction, and then I
used the tomato sauce recipe from Animal
Vegetable Miracle. It is not a traditional
tomato sauce because it includes cinnamon and
nutmeg, but let me tell you---it is amazingly delicious and versatile for both Italian and
Middle Eastern cooking.
Sustainable Liv ing : Canning is a great way to preserve fresh, healthy, local veggies
for consumption out of season. I highly recommend visiting the Chesterhill Produce
Auction, where you can buy large amounts of locally grown veggies (mostly Amish,
some organic) for super cheap! It’s a really cool experience and an amazing resource
for people interested in making and preserving food. Check it out:
www.facebook.com/chesterhillproduceauction
Process: The first step is gathering your supplies. For this recipe quart jars are great,
but there are a variety of sizes and shapes of glass jars to choose from. You will need
a lid and a ring for each jar. Rings can be re-used, but lids can only be canned with
once. I recommend picking up a canning utensil
kit, which usually includes a funnel, magnetic lid
lifter, jar lifter, and a few other things that will
really come in handy. Finally, you will need the
biggest stockpot you can find to boil water for the
water bath method.
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This brings me to my next topic: types of canning. There are many different methods for
canning, but they fall into two main categories, water bath canning and pressure canning. Water
bath canning is used for acidic foods, such as pickles and tomato products, and doesn’t require
any special equipment. Pressure canning uses a pressure canner to raise the temperature
around the cans much higher, so it can be used for lower-acid foods such as beans, any non-
acidic veggies and fruits, and even meats. The difference between high acid and low acid foods
is that high acid foods can protect themselves better from food-borne bacteria because they
create a hostile environment for the bacteria to live in. Low acid foods do not have this
defense system, so they need to be canned at a higher temperature to reduce the possibility of
contamination.
For this tomato sauce, you will be using the water bath method. You first make the sauce in
one stockpot. While you are doing this, you sterilize the jars and lids and bands, either in boiling
water or the dishwasher. While the sauce is still hot, you funnel it into the jars. You add an
acid, such a citric acid or lemon juice, to make sure the food is acidic enough to be safe to eat.
You put the lids on and then lower the jars into the boiling water bath. Make sure they are not
touching. You boil the cans in the water bath for the amount of time stated in the recipe.
When they are done, remove them and put them in a place where they can dry and cool
down, again not touching. When they have cooled, check the seals and put on the bands. You
have not successfully canned your sauce! Now it is shelf-stable and can be kept in your pantry
for consumption over the winter.
The point of this recipe is to make a large amount at one time, when tomatoes are in season. If
you’re canning it, stick closely to the recipe; adding additional fresh vegetables will change the pH
so it’s unsafe for water-bath canning. If you’re freezing it, then it’s fine to throw in peppers,
mushrooms, fresh garlic, whatever you like. This recipe makes 6-7 quarts—you can use a
combination of pint and quart canning jars or freezer boxes.
Ohio University Ecohouse Residential Guide
OHIO UNIVERSITY
ECOHOUSE PROJECT ]10 quarts tomato puree (about 30 pounds tomatoes)
4 large onions, chopped
1 cup dried basil
½ cup honey
4 tablespoons dried oregano
3 tablespoons salt
2 tablespoons ground dried lemon peel
2 tablespoons thyme
2 tablespoons garlic powder (or more, to taste)
2 tablespoons dried parsley
2 tablespoons pepper
2 teaspoons cinnamon
½ teaspoon nutmeg
Soften onions in a heavy 3-gallon kettle—add a small amount of water if necessary but no oil if you are canning (very
important!). Add pureed tomatoes and all seasonings bring to a boil, and simmer on low heat for two to three hours
until sauce has thickened to your liking. Stir frequently, especially toward the end, to avoid burning. Meanwhile, heat
water in canner bath, sterilize jars I n boiling water or dishwasher, and pour boiling water over jar lids.
Bottled lemon juice or citric acid—NOT optional!
Add 2 tablespoons of lemon juice or ½ teaspoon citric acid to each quart jar (half that much to pint jars). This
ensures that the sauce will be safely acidic. When the sauce is ready, ladle it
into the jars, leaving ½ inch headspace. Cap jars, lower gently into canner and
boil for 35 minutes. Remove, cool, check all seals, label, and store for winter.
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Plan : My interest in making fresh cheeses began
when I read Barbara Kingsolver’s book Animal
Vegetable Miracle. I highly recommend that any
Ecohouse resident read this book. It is a chronicle of
one year of her life with her family, during which
they made a commitment to eat as locally as
possible. In one chapter she describes their regular
cheese making practices, and includes a recipe for
fresh mozzarella. She suggests that new cheese makers visit the New England Cheese making Supply
Company’s website, www.cheesemaking.com and purchase a “30 Minute Mozzarella & Ricotta Kit.” I did
exactly that, and I have made mozzarella successfully several times since.
Sustainable Liv ing : I wanted to do this project because I like to have as much control over what
goes into the food I’m eating as possible. Making my own cheese gave me the chance to use local milk to
create a sustainable, delicious, nutritious product. It’s also a really fun project to do with friends or at a
potluck!
Process: Included is the recipe that came with the kit, but I
encourage you to check out the book and the website mentioned
above. *Note: this is one of those recipes that you have to follow
exactly or it will not work. Good luck!
Project : How To Make Fresh Mozzare l la
Cheese
Type: Recipe
Res ident Name: Hannah Simonett i
Year : 2011-2012
OHIO UNIVERSITY
ECOHOUSE PROJECT
Ohio University Ecohouse Residential Guide
1. Dissolve ¼ rennet tablet into ¼ of cool, chlorine-free water. Stir and set aside. Wrap the
remaining pieces of tablet in plastic wrap and store in the freezer.
2. Mix 1 ½ tsp. citric acid into 1 cup cool, chorine-free water until dissolved. Pour into your pot.
3. Pour 1 gallon of milk (Snowville works wonderfully!) into your pot and stir vigorously while
adding the citric acid solution.
4. Heat the milk to 90 degrees F while stirring.
5. Remove the pot from the burner and slowly stir in the rennet solution with an up and down
motion for approximately 30 seconds.
6. Cover the pot and leave it undisturbed for 5 minutes.
7. Check the curd. It should look like custard, with a clear separation between the curd and the
whey. If the curd is too soft or the whey is milky, let set for a few more minutes.
8. Cut the curd into one-inch squares with a knife that reaches the bottom of the pot.
9. Place the pot back on the stove and heat to 105 degrees F while slowly moving the curds
around with your spoon.
10. Take off the burner and continue slowly stirring for 2-5 minutes. (More time will make firmer
cheese).
11. Pour off the floating whey.
12. Ladle your curds into a large microwaveable bowl and drain off as much of the whey as you can
without pressing the curds too much. Put on your rubber gloves.
13. Place the bowl in the microwave for 1 minute.
14. Remove and rain off the whey as you gently fold the curds in to one piece. Add 1 tsp. salt
(optional).
15. Microwave for another 30 seconds. Drain again and stretch the curd. It must be 135 degrees to
stretch properly. If it isn’t hot enough, microwave for another 30 seconds.
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16. Stretch the cheese by pulling like taffy until it is smooth and shiny. The more you work the
cheese, the firmer it will be. (Take a taste!)
17. Now form your cheese into a log or ball or braid it, make it into bite-sized morsels or even
make it into string cheese. At this point we usually slice off a few pieces of the warm cheese for
immediate consumption. Yummmm!
18. When finished submerge it in 50 degree water to cool for 5 minutes and then in ice water for
15 minutes. This will cool it down and allow the cheese to hold its shape. This step is critical as it
protects the silky texture and prevents it from becoming grainy.
Options for your cheese:
After stretching you can roll the cheese out and add a layer of herbs, pesto, etc. Then roll it up
into a log and plunge it into ice water. Cheese can be stored in the fridge for two weeks. It can also be
frozen and reheated.
*Note from Hannah: I encourage you to look up fun projects to do with your new whey!
You can actually make ricotta cheese from just the whey, and you can use it as a nutritious addition to
soups, breads, and smoothies. You can also make healthy drinks from it. Explore your options! Make
sure to refrigerate it in the meantime.
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P lan: Tired of eating the same meals all the time?
Looking for new ways to spice up boring dishes? If
so, nutritional yeast is the answer for you! Not only
does nutritional yeast add flavor to your food, it
provides you with tons of essential nutrients (I
know, the name gives it away).
So what exactly IS nutritional yeast? Nutritional yeast, or as we lovingly like to call it "flakes," is a yeast that is
produced specifically for its nutritional value and is grown by culturing yeast with a mixture of beet molasses and
sugarcane. After the yeast undergoes the fermentation process, it is harvested, washed, and dried. The result is a
delicious substance that slightly resembles fish food, but don't let its flaky appearance fool you. Once you add flakes
to your meals, you will never turn back! Mary Leciejewski, Environmental Studies grad student and Ecohouse friend
says, "Nutritional yeast is delicious and nutritious. I use it on everything. Honestly, I don't know how I lived without
it!"
Nutri t ional Value: In addition to being naturally low in fat and salt, nutritional yeast is an excellent source of
protein, dietary fiber, amino acids, vitamins, and minerals. It is an especially good source of the B-complex vitamin,
which is important in promoting healthy skin growth, increasing metabolism, immune and nervous system functions,
as well as reducing the risk of pancreatic cancer. Two heaping tablespoons of flakes contains 8 grams of protein and
4 grams of fiber at just 60 calories!
What does i t Taste Like? Nutritional yeast has a strong cheesy or nutty flavor, which makes it popular as a
cheese substitute among vegans and vegetarians. It can be paired with
almost any dish, including stir-fry, scrambled eggs, mashed potatoes, pasta
dishes, garlic bread, and so many more. My personal favorite use for flakes is
as a popcorn topping. Some movie theaters offer nutritional yeast in
addition to salt and butter, and once you try it you will understand why!
OHIO UNIVERSITY
ECOHOUSE PROJECT
Project : Nutr i t ional Yeast
Type: Recipe
Res ident Name: Kyl ie Johnson
Year : 2011-2012
Ohio University Ecohouse Residential Guide
OHIO UNIVERSITY
ECOHOUSE PROJECT
Where to Find Flakes: Nutritional yeast can be found in most natural foods stores. The Nature's
Market section in Kroger also carries this tasty kitchen must-have. If shopping locally at the Athens Kroger, you
can find flakes packaged in a pound container and a pint (quarter pound) container.
Process: Ok, so you bought some flakes but aren't sure how to incorporate them in your diet. Try one of
these delicious recipes and you will be hooked!
For the best popcorn you've ever tasted:
Ingredients:
• Organic popcorn
• Extra virgin olive oil
• Nutritional yeast
• Salt, pepper, garlic powder (optional)
STEPS
1. Cover the bottom of a medium saucepan with a layer of extra virgin olive oil
2. Turn the heat on the stove to medium-high and add a few kernels of popcorn
3. Cover with lid
4. When the kernels have popped, the pan is hot enough to add the amount of popcorn you want.
5. Wait for popcorn to pop and remove from heat so that it doesn't burn
6. Pour popcorn in a bowl and sprinkle with a generous amount of nutritional yeast
7. Add salt, pepper, and garlic powder if desired and enjoy!
Delicious Pasta and Greens
Ingredients:
• Pasta of your choice (We recommend vegan pasta from Crumbs Bakery in Athens)
• Greens of your choice-broccoli, collards, kale, etc.
• Nutritional yeast
• Butter (to help yeast stick to pasta)
• While it is warm, add a generous amount of nutritional yeast to the dish
• Enjoy!
*Remember, you can never have too much nutritional yeast, so don't be afraid to use a
lot. Well, at least that's our philosophy at the Ecohouse!
Ohio University Ecohouse Residential Guide
Ecohouse Events
Ecohouse events are a great way to promote sustainable living within the Ohio University
student body and Athens community. Ecohouse open houses are to allow the public to view
and learn about the latest developments in green building and technology. Participants will
also learn about how to apply these innovations to their own homes and gardens.
Student patrons who attend are also encouraged to apply to be a resident in the Ecohouse
the following year, so show off the wonderful environment that the Ecohouse is, and talk it
up to the best of your ability! The more people you can enthuse, the more students are
interested in applying to become a resident. Hand them a spare application, located in the
administrative section of this binder. Ecohouse open house events are a great for starting the
new school year off right. It is encouraged to hold an open house during the beginning of the
fall semester when students look for new housing situations for the subsequent year.
As a Communi ty Space
Why not make the Ecohouse an enjoyable community space for Ohio University students
and Athens residents. The Ecohouse has hosted potluck dinners in the past where the
public ���is welcome to join the residents for food, music and conversation. Guests are
encouraged to bring a dish to share, and a musical instrument if so inclined.
Ecohouse Pro jects/Workshops
Ecohouse workshops are designed to create spaces ��� for sharing information and experiences
dealing with environmentally-friendly, green home skills and techniques. All are welcome!
Why not make an event out of a workshop and share your skills with the entire community?
Residents in the past have had community garden workdays to prepare for fall harvest and to
make new friends. Get creative with your event/workshop and brainstorm how you can
inspire the community with sustainability. Don’t forget to partner up with the Office of
Sustainability, they would be happy to help with preparations!
Ohio University Ecohouse Residential Guide
Ohio University Ecohouse Residential Guide
Request a Plot ���In 2005, the Ohio Ecohouse was created as a sustainable living example on campus. In 2012, the Ecohouse project was expanded by inviting Ohio University campus community members to participate in the Community Garden Program. The garden has been be parceled into ten plots for others to grow food in chemically-free, environmentally sound ways. Gardeners are asked to donate a tithe of their harvest to local food pantries or others in need. ���The Community Garden initiative is a part of a larger food security movement at Ohio University and in Athens county. In alignment with the Sustainability Plan, a garden open to the campus community fosters citizenship, stewardship and justice. Gardeners will engage in a healthy lifestyle change, forming harmonious relationships with the natural world and other community members. Gardening is a great way to save money, enjoy local food, and build knowledge of sustainability. A community garden plot may be adopted by a student group, a department, or an individual at no cost. Tools, resources and education will be provided to any who request it. Anyone interested in reserving a plot at the Ecohouse Community Garden for Spring 2013 may fill out the application form at http://www.ohio.edu/ecohouse/community-garden/request-plot.cfm
Gardening Tips Ecohouse Garden Manager, Markie Miller, provides gardeners with resources and support as they navigate gardening at the Ecohouse Community Garden. Follow Markie's adventures at the Ecohouse Community Garden through her gardening blog, The Garden Shed.
Ohio University Ecohouse Residential Guide
Rules of the Garden
Ecohouse Community Garden Guidelines . Each gardener is responsible for the maintenance and upkeep of their garden plot.
Watering, weeding, harvesting and any other garden related maintenance are all the responsibility of the gardener. Gardeners may arrange for other gardeners to water their plots. ���The Ecohouse Community Garden will utilize organic principles.
. Gardeners will not use synthetic fertilizers, insecticides or weed repellents.
. If a gardener must abandon a plot for any reason, he/she will notify the Garden Coordinator immediately.
. If a plot becomes unkempt, the gardener associated with that plot will be given 2 weeks' notice to clean it up. At that time, if no action has been taken, the plot will be re-assigned or tilled in.
. Gardeners will keep weeds at a minimum and maintain the areas immediately surrounding their plot(s), if any.
. Gardeners will keep trash and litter out of the plot, as well as from adjacent pathways and fences.
. Gardeners will clean and return borrowed tools to the storage area when done. If any are damaged, the gardener will notify the Garden Coordinator.
. The OHIO Ecohouse is a student residence and, as such, gardeners agree to respect the space and privacy of those living in the house. Therefore, gardeners will use the compost bin and rain barrel that belong to the garden, not the personal ones of the household. If a gardener needs a restroom while gardening, they are asked to use the public one provided at Southside Park.
. Gardeners may only garden during daylight (dawn to dusk). Being on the Ecohouse property outside of daylight hours is considered trespassing.
. Gardeners are required to attend at least one of the Community Garden workshops/workdays. There are no other costs associated with adopting a plot.
Neither the garden group nor owners of the land are responsible for gardeners' actions. Gardeners must therefore agree to hold harmless the garden group and owners of the land for any liability, damage, loss or claim that occurs in connection with use of the garden by the gardeners or any of their guests.
Ohio University Ecohouse Residential Guide
Permaculture for small spaces, Ohio University April 14th, 15th, & 22nd 2012
Session: Introduction & Personal Goals
April 14th, 9:00am – 9:30am
**Pre-‐start activity: Name tags with pictures depicting something unique about you and a place you
have or would like to travel to.
Course Objectives:
1. Participants gain a basic understanding of permaculture principles
2. Participants learn a process for designing permaculture based landscapes
3. Participants are empowered to design their own permaculture landscapes
Session Objectives:
1. Introduce the course
2. Introduce each other
3. Establish personal goals for the workshop
Time Objective Activity/Content
9 – 9:15 (15min)
Introduce the course Thank you. Instructor quick intro. Goals for this Workshop, How we are going to do this (course schedule written up – explain progression to development and installation of design)
9:15 – 9:20 (4 min)
Establish personal goals for the workshop
What really matters is what you want to get out of this. So we will take 4 min to write your own goal in the blank third label (active voice).
9:20 – 9:25 (4min)
Find the person in the room you know the least. You will spend 2 minutes telling them name, goal, how got to Athens and anything else you have time for. You will then switch. Your partner is then responsible for introducing you and your goal
9:25-‐ 9:30 (5min)
Introduce each other 30 sec. intros of each other
Materials: Weekend Schedule posted in the room
Markers/colored pens, sticky name-‐tags, Fun cards for goals – bring in my box of scrap paper.
Ohio University Ecohouse Residential Guide
Permaculture for small spaces, Ohio University April 14th, 15th, & 22nd 2012
Session: Pc Overview w/ emphasis on small spaces
April 14th, 9:30am – 10:00am
Inside
Course Objectives:
1. Participants gain a basic understanding of permaculture principles
2. Participants learn a process for designing permaculture based landscapes
3. Participants are empowered to design their own permaculture landscapes
Session Objectives:
1. Understand a basic definition of Permaculture
2. Understand what components we address in this workshop
3. Identify small space adaptations for growing food
a. Containers
b. Rooftops
c. Dimensions – growing vertically
d. Stacking functions
e. Taking advantage of microclimates – the Fig.
Time Objective Activity
9:30 – 10:00 (see pp for details)
All. Now we know each other, we know what we want to do, so what is Pc? Does anyone already know what Pc is?
Time Content Image
Now we know what we want to learn from this workshop, we know each other,
People shaking hands,
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and it’s time to introduce ourselves to Pc people shaking hands with Pc
When you hear Pc what do you think of? (write words on flip chart)
Maybe that’s a little too much too soon. How do the experts define Pc? First coined by Mollison and Holmgren as (Holmgren, Mollison). Please note, this is not entirely new, perhaps newly defined but there are cultures who reflect this.
Describes an “integrated, evolving system of perennial or self-‐perpetuating plant and animal species useful to man.” (Mollison & Holmgren, Permaculture One. Corgi, 1978
Evolved to…. “Consciously designed landscapes which mimic the patterns and relationships found in nature,..click
while yielding an abundance of food, fibre and energy
So, providing for our needs by consciously designing our landscapes to mimic elements of nature.
for provision of local needs.” (Holmgren, Permaculture: Principles and pathways beyond
sustainability. 2002
Another definition, “Permaculture is about designing sustainable human settlements through ecology and design.(click). It is a philosophy and an approach to land use which weaves together microclimates, annual and perennial plants, animals, soils, water management and human needs into intricately connected productive communities’ (Bill Molison & Reny Mia Slay, Introduction to Permaculture)
Permanent Culture / permanent agriculture
Ohio University Ecohouse Residential Guide
I like to think of it as applied systems thinking, and in this way, I see Permaculture as a tool for creating sustainable lifestyles.
Sustainability emphasizes People, planet, profit Ven D
While Permaculture is framed around the ethics of people care, earth care and resource share (distribute surplus, examine consumption). Permaculture goes a step further than sustainability and actually provides principles, ethics and methods for designing systems that enhance and support positive interactions among components of the system so all elements, and the whole system thrives, not just one piece.
Ven D
There are many components to the system and we have a short amount of time so will only be looking at one element – provide for some food needs from small spaces.
Permaculture Flower
How can we do this?
Think in dimensions Herb spiral, vines, multiple tiers, roof tops and guinea pigs or rabbits
Know your microclimate Figs, mints or other spreaders,
Multipurpose/ stack functions Worm bench
Containers
Ohio University Ecohouse Residential Guide
Permaculture for small spaces, Ohio University April 14th, 15th, & 22nd 2012
Session: Overview of Design Process
April 14th, 1:15 – 1:30
Outside?
Course Objectives:
1. Participants gain a basic understanding of permaculture principles
2. Participants learn a process for designing permaculture based landscapes
3. Participants are empowered to design their own permaculture landscapes
Session Objectives:
1. Understand basic design Process steps.
Time Activity
1:15 – 1:17 (2 min)
Explain directions, Divide into small groups, hand out cards
1:17 – 1:25 (8 min)
Groups arrange cards in ‘appropriate order’
1:25 – 1:30 (5 min)
Go over process as a group –What steps normally get skipped? Why do we need all these? look at live examples or pp examples of each stage (have ready on flip chart so it can be hung up and people can see the progression.
Materials:
Tape to hang flip charts, display board?
Design process cards (as per Dave Jacke and Eric Toensmeier in Edible Forest Gardens)
-‐ Goals articulation: Define what you want the space to yield – tangible and intangible
-‐ Site analysis and assessment: Make a map. Identify permanent features of the space (sun,
wind, water, paths)
-‐ Design concept (general bubble diagrams)
-‐ Design (plant specifics, successional designs): Schematic, detailed, Patch
-‐ Implementation
-‐ Evaluation
Ohio University Ecohouse Residential Guide
Permaculture for small spaces, Ohio University April 14th, 15th, & 22nd 2012
Session: Articulating Goals
April 14th, 1:30 – 2:15
Outside?
Course Objectives:
1. Participants gain a basic understanding of permaculture principles
2. Participants learn a process for designing permaculture based landscapes
3. Participants are empowered to design their own permaculture landscapes
Session Objectives:
2. Understand importance of establishing goals
3. Know what questions to consider
4. Consider all stakeholders
What happens w/o goals
Why goals?
They help us create spaces that meet our needs. Simplify our job of designing, save us time, provide direction
Whose goals?
Stake holders – OoS, Grounds, Ecohouse residents, public viewing the house
Where to start/ What questions to ask
Go through cheat sheet, give examples of goals
ID key components So, I’ve spoken with the stakeholders with the exception of the public. I basicly want to relay the information to you so you can grab key important elements and use that information to create a written summary.
1. Susan – deer, mowing, will provide seasonal maintenance such as
Ohio University Ecohouse Residential Guide
pruning if given instructions, but the space is yours. Moving away from ground covers on campus
2. OoS – aesthetics, native, if non-‐native must not spread and must explain why it is important, adapted to local conditions, minimal maintenance
3. Residents – (9 min)
Interview tactics – you don’t have to be an expert Breakdown goals as interview is playing and write them on the board.
What questions did I ask, what actually got a response?
Written summary – mission statement Anything I didn’t ask about? EDU! Here’s the fun part, compiling it all into an active, present tense statement.
Tips Different levels of detail. Goals may evolve during the design process
The Pc garden at the Ecohouse is an inviting, aesthetic, low-‐maintenance garden ecosystem yielding a seasonal variety of color, useful herbs, food and educational opportunities.
Materials
Voice recorder & speakers. Goal Sheet, flip chart,
Ohio University Ecohouse Residential Guide
Permaculture (Pc) Workshop: Report
Jessica Bilecki
5/29/2012
Overview
The purpose of running a permaculture workshop at the EcoHouse was to educate and empower
community members to design their own permaculture landscaping while transitioning EcoHouse
landscaping to be more productive, ecologically sound, aesthetic and low-‐maintenance. This not
only educates participants, but EcoHouse residents and future tour groups.
The workshop occurred Saturday April 14th, Sunday April 15th, and Sunday April 22nd, 2012.
Building 21 at the ridges was reserved for the first weekend. A total of 8 ± 2 people on any given
day participated. Sessions were taught by myself, Weston Lombard and Kurt Belser (See Staff Bios
for more information). The first weekend focused on introducing principles of permaculture and
learning the design Process. The second day participants spent in small groups coming up with
their own designs, and the third day was a work day to install plants (See the schedule for full
details). A detailed map of what is planted where is in the Pc Workshop file.
Essential Implementation elements and processes
One main coordinator from the Office of Sustainability – This person was responsible for all logistics,
renting the classroom, purchasing food, putting together a flyer, coordinating registration,
corresponding with participants, establishing a budget and organizing meetings with co-‐teachers.
Co-‐Teachers – Having two local professionals from the region was essential. It helped with the OoS
person’s work load, helped students realize there is a town outside of the campus and provided
participants with a variety of teaching styles. Each co-‐teacher received a $1,000 stipend for their
time planning and implementing the workshop.
Kurt Belser: [email protected] 440.865.6305
Weston Lombard: [email protected] 740.856.6299
Marketing – Flyers were posted on campus and around town. The workshop was featured in
Routes, it was posted on the OoS website, and a few select emails to teachers were sent. This part
could definitely be expanded.
Ohio University Ecohouse Residential Guide
Registration – To register, participants simply sent an email to [email protected] expressing
their interest. All Pc emails were forwarded to me. I then recorded the person’s name and email in
an Excel spreadsheet and sent a confirmation email explaining that they were registered and would
receive detailed information closer to the day.
Orientation Materials – This is an essential document that reminds people they are signed up for the
event, explains where to meet, where to park, what to bring and what to expect.
Building and Parking – Contact the Management Service Coordinator for the Voinovich
School,Trenia Tyman to reserve a room in building 21. The Telephone number is 740.597.1460. A
building walkthrough is required before the event. If the workshop occurs during non-‐business
hours you will also need to pick up the key. You could call parking services to verify that parking
rules have not changed. Parking was allowed on the weekends in the larger parking lots to the
buildings left.
Food: I only ordered food for the first weekend. There were mini-‐muffins and fruit in the morning
and a veggie tray in the afternoon. Culinary Services offers an entire catering menu which is online.
If you want food from the farmers market, I’m not sure what the proper avenue is, but I do know it
may take a bit of time to figure out so start early. (I asked about it but was told there was “nothing
in season” even though I also supplied a list of vegetables and fruit that were in deed in season and
available at the Farmers Market) Also, there was Equal Exchange tea, coffee and pitchers of water
NOT bottles.
Waste: Participants were told this would be a zero waste event and instructed to bring their own
cloth napkins, cups and dishware. Catering Services did supply us with compostable plates and
utensils the second day. However, the event organizer needs to arrange where compost will go. In
this case, Weston took it back to his farm.
Ordering Plants: I would not necessarily repeat this (read ‘What I learned’). Three different groups
of students all came up with designs for the space. Then, Monday and Tuesday, before Market on
Wednesday, teachers looked over the designs and tried to make one master design for the group to
install the following Sunday. We tried to incorporate elements of everyone’s design, particularly
the ones all students responded positively too. The largest limiting factor was plant availability for
the time of year. If we had a design ahead of time we could have ordered accordingly, but then we
wouldn’t be installing student designs.*
Ohio University Ecohouse Residential Guide
Tools -‐ Grounds and Maintenance lent us a wheel barrow, shovels, short-‐tined rakes, trowels and
potting buckets. I asked the head of Grounds about this well in advance and then 1 week prior to
the event sent a tool request. We needed to coordinate drop off and pick up on Friday and Monday
as the tools need to be locked in the EcoHouse shed.
What I learned
• *As the program continues it may be worthwhile to have one area planned out before the
course, and have students design a second area. Then you could order plants ahead of time
for the predetermined design, and implement student designs the next time around.
• Based on comments from other people it seems like there would be general interest in an
evening talk/lecture about Permaculture
• 3 Days really is a long time for people to commit to, granted it is very short for a
permaculture course.
• Students enjoyed mixed teaching methods, See student evaluations for more comments
• The event being Free was key
• Students were very excited that the course incorporated both design and implementation
• It is hard to get students back the second weekend for planting
• Not all who registered showed up. Either expect this or have people place a deposit on their
registration
• Students do not have a lot of time. While it is nice to have all of them think about designing
a large space, you will get more detailed designs the smaller the space you give them to
design. Perhaps each group designs a separate patch
Installation & Maintenance
There is now a map that is to scale of the front of the EcoHouse. In addition, I have created a map of
all the plants we put in. Circles represent plants at their mature widths.
Essential Maintenance:
• Move the pear tree THIS FALL (2012). It will get huge and shade out the front of the house
• Sheet mulch twice a year. Sheet mulching suppresses weeds (without the use of chemicals)
and adds nutrients and organic matter to the soil. To sheet mulch:
o Do not weed
o Add a thin layer of compost, 1 – 2 inches
Ohio University Ecohouse Residential Guide
o On top of this add a layer of cardboard. Make sure layers of cardboard overlap to
avoid weeds coming up through the cracks
o If it is windy, wet down the cardboard to keep it from sliding and blowing away.
o Add a thick layer of wood chips. If weeds are bad add a layer about 6 inches thick, if
they are not bad, 2 – 4 inches should be fine.
• Spot weed as needed, though if the mulching is done properly it won’t be too difficult.
• Water as needed. Once plants are well established this should be done more on a weekly
basis than a daily basis. Though who knows with the weather.
Eventual Maintenance
• Prune the service berry if it gets too tall
• Gooseberries may need to be thinned and their canes pruned.
• For specific pruning tips simply google ‘pruning gooseberries’ for more details and pictures.
• Branches of the Goji will root where they touch the ground. If you don’t mind it spreading
let it be. If you don’t want it to spread out you can trellis the branches so they stay off the
ground.
• If the bare spaces are getting weedy consider planting more to fill in the space for the time
being and removing it or letting it die when it gets crowded out.
Moving forward
• Repeat with a different space and keep pushing those edges!
• Create an EcoHouse Landscape Guide eBook (Like Weston’s slideshow) that give necessary
details for each plant. Information should include: picture, common name, Latin name, sun
requirements, water requirements, maintenance tips, uses & suggestions of additional
plants for appropriate areas: Multipurpose fruit , culinary, tea & medicinal.