Logan J Goins | Architectural Design Portfolio

Logan J Goins | Architectural Design Portfolio

LoganGoins.comLogan J [email protected] | 812.569.4257

Technical Skills

AutodeskRevit

AutodeskAutocad FormZConstruction

Documents

ElumToolsCode Analysis

Dynamo

AGI-32Lighting Analysis

Data Visualization

Ps

Ai

IdRendering

SketchUp

PresentationLayout

April 2014 - Present2fORM Architecture| Eugene, Oregon | Intern Architect

Jan 2014 - September 2014Browning Day Mullins Dierdorf Architects| Indianapolis, Indiana | Architectural Intern

Professional Experience

2014 - 2016 University of Oregon | Master of Architecture | Eugene, Oregon | Specialization in Housing | OregonBILDS

2010 - 2013 Miami University | Bachelor of Arts in Architecture | Oxford, Ohio | Concentration in Urban Culture and Service Learning | Ghana Design / Build | Over-the-Rhine Residency Program & Design / Build

Education

Contact

LoganGoins.comE | [email protected] | 812.569.4257

Table of Contents ZEB House(Zero Emissions Building)

University of Oregon1

Eugene Public MarketUniversity of Oregon4 Richmond Train Depot

Miami University5

Concordia Lighthouse CompetitionUniversity of Oregon2 The Eug

Residential TowerUniversity of Oregon3

Experiences|OregonBILDS |

|Over-the-Rhine Residency | |Ghana Design+Build|6 Professional Work

|Browning Day Mullins Dierdorf Architects | |2fORM Architecture|7

ZEB HouseZero Emissions Building

Project Description |

Studio Description |

The object of this project was to design a single family house that can be considered zero emissions and offset all of the emissions of the materials that were used in construction of the house. The energy offset was accomplished by photovoltaic panels on the roof. The sizing of the PV array was based on material emission calculations and operations simulations to give us the emissions that needed to be offset2000 sq. ft. Single Family House

3 Bedroom 2 Bath Integrated Woodshop / Workspace

This studio was instructed by Tine Hegli of Snøhetta based in Oslo, Norway and Tom Collins. The studio used Snøhetta’s ZEB Pilot House in Norway as a case study to direct the design process in the studio.

The studio was broken up into workshops. In these workshops different professionals from Snøhetta and experts in ZEB came from Norway to help conduct these workshops and run the studio in a simliar way the ZEB Pilot house was designed and built.

Year Completed | 2015

Duration | 8 Weeks

Location | Eugene, Oregon

Group Members | Chelsea Koh, Charlie Ekblad, Spencer AndersonProfessor(s) | Tine Hegli (Snøhetta) Tom Collins

Program |

Site ContextResidential Neighborhood

Map Produced by Chelsea Koh

A | Section Through Public Zone

South Elevation East Elevation

B | Section Through Bridge

A

B

C

A

B

C

D

D

Main Level Plan

North Elevation West Elevation

C | Section Through Private Zone D | Section Through Bridge

A

B

C

A

B

C

D

D

Wood Shop / Foundation Plan

98.9

mi.

66.2 mi.

81.4

mi.

111

mi.

461 m

i.

340 mi.

260 mi.

Tualatin, ORPV Panels

Gig Harbor, WAHouse Wrap

Spokane, WACellulose Insulation

Baker City, ORWindows

Salem, ORRoofing, Flooring, Siding

Dillard, ORFraming & Plywood

Eugene, ORConcrete

Portland, ORPaint & Doors

Eugene0 mi.

*Diagram completed by Chelsea Koh

*Diagram & calculations completed by Chelsea Koh

Glass: 2.17%

PV Panels: 30.17%

Concrete: 41.83%2.51 kg CO2/m 2/yr.

Other Materials:1.55 kg CO2/m 2 /yr.

.13 kg CO2/m 2/yr.

1.81 kg CO2/m 2/yr.

Glass: 1.96%

Concrete: 19.49%

PV Panels: 14%4.13 m 2

763.75 kWh/yr.

Other Materials:5,441 kWh/yr.

.58 m 2

106.46 kWh/yr.

5.74 m 2

1,060.5 kWh/yr.

Process Daylighting Analysis | Completed using AGI32 Lighting Analysis Software and Elumtools

9 kW DC SystemType: MonocrystallineArea: 60.16m2Efficiency: 15%Tilt (deg): 18.4

SystemsDiagrams completed by Charlie Ekblad

Recycled Wood

FlooringDouglas Fir Plywood

Douglas Fir Plywood

Douglas Fir Framing

Cellulose Insulation

Gypsum Wallboard

Cellulose Insulation

Douglas Fir Framing

Douglas Fir Plywood

Douglas Fir Furring Strip

Water & Air Barrier

Recycled Wood Siding

MonocrystallinePV Panels

Recycled Metal Roofing

Roofing Felt

Douglas FirPlywood

Douglas FirFraming

Floor AssemblyDiagram completed by Chelsea Koh

Wall AssemblyDiagram completed by Chelsea Koh

Roof AssemblyDiagram completed by Chelsea Koh

Double Stud Wall with Gypsum Board Finish

Exposed Board Formed Concrete (Thermal Mass)

Exposed Board Formed Concrete (Thermal Mass)

Polished Concrete Floor(Thermal Mass)


Permanent Slats RemovedSeasonal Shading Device Added

Double Stud Wall with Gypsum Board Finish

Permanent Wood Slats on Exterior

Reclaimed Wood Floor Recycled Stone Tile


Cool TowerHeight = 10’Area = 5’ x 5’ = 25 ft2Pad Area = 16 ft2Discharge Area = 75 ft2Water Consumed = 3.07 Gallons per hourTower Exit Air Temp = 63.16oFFlow From Tower = 850.06 CFMCooling Capacity of Tower = 12,614.89 BTU/hTotal Gains to Offset = 9,206.2 BTU/h

Design Changes

Design Changes

ZEB House | RevisitedAs part of an advanced seminar on passive heating and cooling strategies, instructed by Professor John Reynolds, I took the ZEB House and further analyzed the public space and what changes would need to occur to effectively passively heat and cool the space. For the sake of the seminar and to make the calculations more challenging the location was changed to Denver Colorado.

Summary of Changes In order to optimize the ZEB House to be passively heated and cooled, three major changes had to occur to the original design. The first change that occurred was removing the permanent shading slats that covered all southern facing windows excluding the clerestory windows. This was replaced with seasonal shading devices that would be applied during the summer and fall seasons. This change will prevent heat gains in the summer and fall while allowing heat gains in the winter and spring. Another change that occurred was the addition of thermal mass in the living space. The original design had almost zero thermal mass in the living space. The floor was changed from reclaimed wood floor to being a polished concrete floor. The south walls and north walls were changed to be board formed concrete. This assisted in cooling systems and heating systems. Lastly, to passively cool the space in the dry arid climate of Denver, CO a cool tower was added to the design. This would have the biggest impact on the design aesthetically.

Figure 10.2 from MEEB

Permanent Wood Slats on Exterior

Cool Tower

Permanent Slats RemovedSeasonal Shading Device Added

Design Changes

Passive Cooling Summary To passively cool the ZEB House in Denver I investigated using night ventilation of mass as well as adding a cool tower. Both systems can effectively cool the space.

Night Ventilation of MassBTU’s to Offset = 77,727.4 BTU/dayCooling Capacity of Mass = 125,155.5 BTU/dayFinal Mass Temperature = 73oFFlow Rate Required = 10.8 ACH

Cool TowerBTU’s to Offset = 9,206.2 BTU/hCooling Capacity of Tower = 12,614.89 BTU/hHeight = 10’Area = 5’ x 5’ = 25 ft2Pad Area = 16 ft2Discharge Area = 75 ft2Water Consumed = 3.07 Gallons per hourTower Exit Air Temp = 63.16oF Passive Heating Summary

Using the mass that was added to the living space for night ventilation of mass the system a direct gain system is used to passively heat the space in the winter and spring months. A direct gain strategy is able to keep the space in a comfortable temperature range even on a clear January day.

Winter Heat Loss Information

Direct Gain System UsedDG-C1

Load Collector Ratio16.3

Estimated Solar Savings Fraction63%

Indoor Temperature Clear January Day

Total indoor Temperature30oF TA Denver + ∆Solar 39oF + Internal 4.5oF = 73.5oF

∆T Swing15.21Fo

Highest Indoor Temp 73.5 + 7.6 = 81.1oF

Lowest Indoor Temp 73.5 - 7.6 = 65.9oF

Denver, CO Climate Data

Building Data

HDD65oF 6023Design Dry Bulb 1oFDB/WB 91oF/59oFMean Daily Range 28oFDesign Wet Bulb 63oFCDD74oF 5908

Total Building Area 1755 Sq ft

Focus AreaTotal Floor Area 637.11 Sq Ft.Total Existing Southern Glazing 193.4 Sq Ft.

Concordia Lighthouse


Duration | 5 Weeks

Partner | Chelsea Koh

Location | Giglio Island, Italy

Our transformation of the typical lighthouse typology into a redefined contemporary lighthouse occurred first by analyzing the components of a typical lighthouse. Spiraling elements, marine navigation and the grounding nature to it’s environment are all factors that we explored and incorporated into our design. The devastation of the Costa Concordia ship wreck was a factor we wanted our design to speak to while also incorporating sustainable features into the design to further ground the lighthouse into it’s contemporary setting and function. The denotation of the three segments of a typical lighthouse and the spiraling nature were major features that contributed to the construction of our contemporary lighthouse. The marine navigation of the lighthouse was re-envisioned by allowing the form to illuminate, in addition to the lantern, through the apertures where dissimilar hues depict different oceanic conditions and also become a symbolic landmark for Isola del Giglio. To memorialize the Costa Concordia disaster, we included an observation deck thirty-three feet above the entry level to commemorate the thirty-two lives of passenger and crew members and the one salvage member that perished. The observation deck overlooks the wreck site to the east of the site. Lastly, our sustainable implementations included a gabion wall system at the base to accommodate the collection of water to be deposited into a self-sustaining water supply system that provides water, as well as cooling, that is used throughout the lighthouse. Solar panels are arranged on the roof facing west and will generate power for the living quarters.

Re-interpret the modern lighthouse Living Quarters Memorial for the Costa Concordia Ship Wreck

Competition

Program |


S p i r a l i n g : Tr a d i t i o n a l t o C o n t e m p o r a r y

T h r e e S e g m e n t s :S o l i d t o Tr a n s p a r e n t P r o g r a m

Entry Level

Public CirculationObservation Deck

Private Circulation

Living Quarters

The Light

Entry Level Observation Deck Living Quarters Lantern Level

Photovoltaic Panels

Solar Tubes

Water Holding Tank

Water Holding Tank

Solar Tubes

Sustainable Section Diagram

Cooling DiagramWater Holding Tank

Water Re-use Process Diagram

Rain Water

Gabion Wall

Water Pipes

Filtration

Water Holding Tank

Solar Tubes

Usable Water

7,877kWh/yr

2,746kWh/yr

+5,131kWh/yr

Energy Production vs Usage

Production Operations

The Eug Resident ia l Tower

Mixed Use PodiumResidential Tower


Duration | 4 Weeks


Professor | Mark Gillem

Program |

The Eug residential tower with a mixed-use podium is a potential solution to expected population growth of Eugene Oregon. By building high density in the downtown area the urban growth boundary would not need to be expanded. The tower with it’s street commercial and ample office space would assist in the rejuvenation of downtown Eugene that has been happening in the last couple of years. The Eug would be environmentally sustainable in its energy and water harvesting strategies. The tower would also add to the financial and social sustainability of the downtown area by adding a larger population and public amenities.


S u s t a i n a b i l i t y S t r a t e g i e sGreen RoofsClean and Filter rainwater as it is collected on roofs. Green roofs also help reduce the temperature of the roof in the summer months

Photo-voltaic PanelsPV Panels help offset the energy use of the building. Building integrated PV Panels are also used in the southern elevation.

Rainwater HarvestingRainwater is harvested to be re-used in the landscaping as well as gray water to flush toilets.

ShadingProper Shading techniques based on orientation are used to defer direct solar heat gain in the warm months. Sliding operable shades are provided on balconies to allow the user to choose their own comfort and amount of daylighting.

Water StorageOn the first level of the podium there are (5) 20,000 gallon tanks to store rainwater that is harvested.

Gray WaterAll toilets are flushed using the harvested rainwater

GeothermalGeothermal source heat pumps are used to offset the heating and cooling needs in the residential units by using a radiant heated flooring system.

Energy Use Intensity: 20 Kbtu/ft2/ yr

Street Commercial

Tower Lobby

Service

Parking

Tower Core Circulation

Office Space

Resident Amenities

Residential Units

Resident Amenities

Penthouse Units

Bar / Restaurant

Private

Semi Private

Public

Public

Public

Public

8th

Aven

ue

Commercial

OfficeLobby

Mec

hanic

alW

ater

Sto

rage

Geo

ther

mal

Plan

t

Serv

ice V

ehicl

e Ac

cess

Trash Trash

CommercialTowe

r Lob

by

Bike

Sto

rage

Leasing Office

Commercial

Ram

p up

Com

mer

cial L

oadi

ng D

ock

7th

Aven

ue

Olive Street

Street Level

Office SpaceStorageServer

Mechanical

Ram

p Up

Ram

pDo

wnParking

CommunityRoom

Resident Lounge

Fitness

Mec

hanic

alSt

orag

eM

echa

nical

2nd & 3rd Level | Parking and Office Space

4th Level | Resident Amenities & Outdoor Space

5th - 21st Level | Residential Units

22nd Level | Amenities

23rd - 25th Level | Penthouse Units

26th Level | Restaurant / Bar

THE EUG PRO-FORMAANALYSIS

HARD COSTS $90,097,679 $22,500,000 CONCRETE CONSTRUCTION AT $225 / SQ FT $54,449,250 CLT CONSTRUCTION AT $250 / SQ FT$210,000 DEMOLITION$250,000 SITE IMPROVEMENTS

*ALSO INCLUDING PERMITS, CONTINGENCY, AND FURNISHINGS

SOFT COSTS $7,406,838SURVEY ARCHITECT & ENGINEER REAL ESTATE ATTORNEYPERMIT CONSULTANTTAX OPINIONDEVELOPER FEE MARKET STUDYENVIRONMENTALCOST CERTIFICATIONCONSTRUCTION INSURANCEORGANIZATIONAL EXPENSESMARKETING EXPENSES

TOTAL COSTS $97,504,517

RESIDENTIAL INCOME (ANNUAL) $5,845,488UNIT TYPESStudio | $2,199/Month | 40 UNITS 1 BR 1 BA | $2,736/Month | 16 UNITS 2 BR 2 BA | $3,175/Month | 32 UNITS 2 BR 2 BA | $2,817/Month | 32 UNITS PENTHOUSE | $7,858/Month | 14 UNITS *ASSUMING 5% VACANCY*RENT PREMIUMS ADDED FOR HIGHER UNITS* 30% AFFORDABLE UNITS INCLUDED

COMMERCIAL INCOME (ANNUAL) $2,801,720UNIT TYPESSTREET COMMERCIAL | $3/Sq ft/Month | 68826 sq ft ROOFTOP COMMERCIAL | $4.5/Sq ft/Month | 6000 sq ft

PARKING INCOME (ANNUAL) $105,60088 SPOTS | $100/Month

STORAGE UNIT INCOME (ANNUAL) $96,00080 UNITS | $100 / Month

TOTAL RENTAL INCOME (ANNUAL) $8,484,808

MANAGEMENT FEEADVERTISE/MARKETLEGALADMINISTRATIVEUTILITIESTRASH MAINTENANCE/REPAIRSGROUNDSINSURANCEOTHERTOTAL OPERATING EXPENSESREPLACEMENT RESERVESOTHER

TOTAL EXPENSES (ANNUAL) $2,162,349-$734,444 | YEAR 1

-$201,823 | YEAR 5

$562,140 | YEAR 10

$1,450,988 | YEAR 15

$2,459,035 | YEAR 20

$3,658,581 | YEAR 25

$5,050,185 | YEAR 30

$12,956,150 | YEAR 35

NET CASH FLOW

NET OPERATING INCOME $6,244,019

PROPERTY TAXES $799,093

INCOME TAXES $540,802

MORTGAGE PAYMENT $4,203,253$79,003,614 TOTAL BORROWED$19,500,903 DOWN PAYMENT *30 YEAR*3.5% INTEREST

PARTNER PAYOUT $1,117,204$19,500,903 TOTAL BORROWED*4% RETURN

Eugene Public Market

Project Description | The key points of my design of the Eugene Public Market was to create a grand space that displays the local building traditions with the large wood timber structure and allows an abundance of daylight into the space. In my opinion majority of great public halls or spaces are filled with daylight that allows for the user to be inside protected from the elements but still connected to the outdoors. The booth design was designed to be a flexible space when needed to accommodate the constantly changing vendors that frequent the markets, but also be a space that a local vendor could set up a more permanent shop if wanted.


Duration | 7 Weeks


Professor(s) | Virginia Cartwright Jim Tice

Program | Public Market Public Programs

Site ContextPark Blocks - Downtown Eugene

Main Level Plan

A

B

Section A

Section B

Site Diagrams

Plan Diagrams

North Elevation

East Elevation

South Elevation

North Wall Section

East Wall Section

RichmondTrain Depot

Mixed use Residential Upper Level Micro-Brewery & Brewpub Office


Duration | 12 Weeks

Location | Richmond, Indiana

Professor | Mary Ben Bonham

The Pennsylvania Railroad Station in Richmond, Indiana, better known as the Richmond Train Depot, is the center piece to the historic “depot district” of Richmond. The station was designed by Daniel Burnham in 1902. The depot was in operation from 1902 through 1979; at the depot’s peak it housed a 24-hour restaurant, news-stand, shoe shiner, and barbershop. The second floor contained the offices for the Pennsylvania Railroad. From 1979 till recently the depot has been left to decay. Earlier attempts to restore the depot had failed. Recently a local business owner has completed first phase of restoration on the depot. Some upgrades included the second floor being rebuilt and structurally stabilized, all the windows have been replaced, and the brick and terra-cotta gutter system has been restored.

My proposal for the Richmond Train Depot is to insert residential apartments on thesecond level and two separate office spaces on the lower level of the main building. A third component of the proposal is to use the express office, connected by a connecting roof to the east, and build under the connecting roof to become a micro-brewery and brew pub. As part of the revitalization of the depot district this proposal would activate the depot around the clock with residential, commercial, and entertainment all occupying the same space.

Program |


proposal would activate the depot around the clock with residential, commercial, and

Existing Conditions

1913 2003

First Level PlanSite Plan

2013 Proposal

ResidentialOffice SpaceMicro-Brewery + Brew Pub

Upper Level Plan

Proposed Sun Shading Device

Sun Shading Device Section

Winter Sun

Summer Sun

Front Elevation

Section A

Sun Shade No Sun Shade Sloped Ceiling & Light Shelf Flat Ceiling no Light Shelf

Section B

Dece

mbe

r 21

12:0

0PM

Dece

mbe

r 21

12:0

0PM

June

21

12:0

0PM

June

21

12:0

0PM

ExperiencesOregonBILDS | Over-the-Rhine Residency | Ghana Design / Build

Oregon BILDS is an design / build experience at the University of Oregon. The program includes a design studio in the Fall term where students design a single family home that is economically viable as well as environmentally sustainable. In the Winter and Spring terms the house is constructed by students. This experience allows students to learn the building trades as well as connect them with local building professionals. I participated in the Winter build which builds the house from foundation to exterior cladding and roofing.

In the fall of 2012, I participated in a residency program In the Over-the-Rhine neighborhood of Cincinnati, in which I lived and attended classes in the neighborhood. This involved a design/build studio that took place in a historic building storefront. The design/build studio included having a real client as well as working with masons, structural engineers, and mechanical engineers to make the project a reality. Along with the studio I also attended classes that focused on social issues surrounding the urban environment of today. This program was part of my major concentration of urban culture and service learning.

As part of the residency we worked with several non-profit organizations that are all part of the Over-the-Rhine People’s Movement. The People’s Movement is a community group that has been in the neighborhood before all of the gentrification and rejuvenation started. The people’s movement fights for affordable housing and other services that help serve the low income residents.

Over-the-Rhine Residency

In the summer of 2012 I traveled to Ghana, Africa with 16 other architecture and interior design students. In Ghana we traveled the entire country and designed and built a dwelling for teachers in the small village of Abrafo-Odumasi. We worked along side local carpenters and masons and learned their techniques for building while teaching them about design techniques for sustainability through passive cooling and lighting.

Ghana Design / Build

Professional WorkBrowning Day Mullins Dierdorf Architects | 2fORM Architecture

Position | Architectural Intern

Location | Indianapolis, Indiana

Project Experience | Mixed-Use Urban Development Athletic Complexes Higher Education Master Planning Historic Preservation Residential

Cityway YMCA

Roles: BIM Modeling Construction Documents

Pulliam Square Phase II

Roles: Design Team 3D Visualization Graphic Support

River Ridge Gateway Master Plan

Roles: 3D Visualization Graphic Support

Indianapolis Motor Speedway Upgrade Proposal


Beth-el Temple Renovation


Purdue University Classroom Renovation


Historic Carriage House

Roles: BIM Modeling Construction Documents 3D Visualization Graphic Support

Marian University Graduate Apartments


Position | Intern Architect


Project Experience | Residential Adaptive Re-use Planned Unit Development Fitness Facility

Piper Lane Duplexes Planned Unit Development

Roles: Design Team BIM Modeling 3D Visualization Graphics

Southtowne Shoppes Facelift

Roles: Design Team 3D Visualization Graphics

Bend Residence Family Retreat

Roles: Design Team BIM Modeling 3D Visualization Graphics

Logan J Goins | Architectural Design Portfolio

LoganGoins.comLogan J [email protected] | 812.569.4257