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Done in the Fall of 2011, This project was submitted to Architecture at Zero competition which was sponsored by the AIA San Fran. This project done along with 3 others took first place for its design and energy saving methods incorperated into it.
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FILTRATION + U.V.
FILTRATION + U.V.
EAST PUMP
OVERFLOW TO DISTRICT
GARDEN + PLAZA COLLECTION
WEST PUMP
IRRI
GATI
ON
GRAY
WAT
ER
GRAY
WAT
ER
ROOF
+ T
ERRA
CE
ROOF
+ T
ERRA
CE
WATER RETENTION CISTERN (CAPACITY 400,000 GAL)
WIND CREATES PRESSURE DIFFERENCE WHICH AIDS VENTILATION
DIMINISHING AIR MOVEMENT AT LOWER LEVELS
EXHAUST
PRIVACY
COOL AIR ENTERS
The Ripple Effect zero net energy housing community provides a progressive example of using renewables to inhabit the earth in a sustainable manner. The parallel layout of the two housing structures begins at the north end with a narrow opening to the already established Emeryville Greenway. This very important connection to the established park and pedestrian friendly causeway widens as one moves south along the site, eventually terminating at Park Avenue. The staggering units provide not only enticing visual character and movement along the site, but also opportunities for day lighting, airflow, green roofs, and balconies. The 50-foot width of the parallel bars allows for quality daylight and ease of cross-ventilation within the spaces.
As a site net zero building, the energy produced by the rooftop photovoltaic system is more than enough to provide for the energy used by the building and its occupants. Attached to the roof of the fourth floor are standard 0.215kW photovoltaic panels. These account for 54,419 square feet or 48% of the total photovoltaic system and generate 1,061,163 kWh/yr. The rest of the system is comprised of 0.172kW laminated photovoltaic panels extending at the same level as the standard panels and acting as a pergola over the third floor open rooftop spaces. These panels comprise 73,692 square feet or 52% of the photovoltaic system and generate 1,068,532 kWh/yr. The total resultant energy produced is 2,129,695 kWh/yr. This is more than enough to provide for the 1,969,175 kWh/yr required at the site.
The energy demand was calculated as an ideal goal for reduced energy demand based on data collected from the Department of Energy. The retail and library spaces have been reduced by 75% from DOE data and the residential space has been reduced by 66%. These ideal goals can be met with energy saving approaches such as installing high-efficiency electronics and appliances, and designing for passive heating and cooling. Most buildings today designed for LEED certification with such strategies easily can be reduced by as much, if not more than, this amount.
Rainfall collected on site will be directed to cisterns for re-use in toilet flushing and
laundry washing. The 23.62 inches of rainfall per year and 0.1 in of snowfall per year translate into 2,189,366.97 gallons per year collected from the impermeable surfaces on site. This is enough to meet about 36% of water demand on site. This, along with water saving fixtures will help to ease potential water shortages inevitable to the area.
It is the expectation that this project will become an example for future developments looking to achieve zero net energy on site, achieving a ripple effect of net zero design throughout the Emeryville area.
In working to determine the best way to achieve on-site zero net energy we learned a few lessons. The original approach began with creating a building that was beautiful, site responsive, and which satisfied programmatic requirements. In doing so we kept in mind opportunities for passive design strategies to reduce building loads from the outset.
Having determined ideal building loads we set to produce enough energy to meet these loads using a photovoltaic system. The most evident strategy was to utilize the available roof surface that has the most sun exposure on site. Through calculations we were able to determine that our loads could be met entirely using just photovoltaic panels on the roof surface and as a pergola over third floor roof spaces.
In our consideration of renewables to be used on site we also calculated the viability of wind generation. The free-standing turbines we researched were capable of producing 4000 kWh/year with the average 8 mph wind speed in the area. We determined that as we did not need the wind generated power to meet the energy demand of the building that it would not be useful for this design to include the turbines. While they may be a viable solution for another project, in our case they would have blocked sunlight necessary for the photovoltaic system.
Ripple Effect_A Net-Zero Energy Housing Community
Diagram of Water Catchment, Retention, and Reuse On-Site
Section through the Outdoor Plaza and Public Gardens Rooftop Terrace with Laminated Photovoltaic Canopy
Laminated Photovoltaics
Photovoltaics
Breezeway for Drying Laundry, Saving Energy
01_Creation of main thoroughfare 02_Sliding of levels for access 03_Shifting for more, dynamic outdoor space 04_Plaza bulges, dividing and distorting buildings 05_Building form creates forced perspective
Birdeye View of the Development from the Southeast
Diagram of Natural Ventilation Strategies in Housing Units Diagram of Photovoltaic Assemblies Development Site Plan
50’ 100’ 200’
