Mallory Barga
mbarga@utk.edu
937. 726. 8504
Undergraduate Architecture Ball State University August 2008 – May 2012
Eco-Hotel Broad Ripple | 4
Julia Carson Community Center | 12
Marine Research & Education Center | 20
urbaRn Outdoor Classroom | 30
Render Technique Studies | 40
The Eco-Hotel is an upscale boutique hotel for Broad Ripple, Indianapolis that utilizes sustainable strategies to acquire net zero energy efficiency. These strategies include photovoltaics, water collection, daylighting, living walls, and stack ventilation. Wood siding and stone were selected as building materials to create a natural aesthetic to the exterior of the structure and to play into the concept of green strategies. Water collection strategies are displayed on the exterior of the building to teach guests the importance of sustainable practices. The plans for the twenty-one room hotel were oriented to provide guests with views to Downtown Broad Ripple to the west or the White River to the east. The offset of the rooms also permitted indirect daylighting to each of the spaces. The central core of the hotel is accommodated by an interior garden that can be enjoyed by guests on all floors via the rotating terraces that circulate the four story atrium. The large atrium enables the building to take advantage of stack ventilation to naturally condition rooms during comfortable seasons of the year. The garden and outdoor breezes within the building create an extension of the exterior into the interior of the building which creates a relaxing oasis for guests.
Eco-Hotel Broad Ripple
Indianapolis, IN
Spring Studio 2011
4
OFFICE
RECEPTION
DINING
CONFERENCE AREA
Site Plan - Level 1 5
MECHANICAL
open to below
LAUNDRY
STORAGE
Basement
Level 2
open to below
open to below
Level 3
Level 4
6
SUMMER ANGLE --> 72
WINTER ANGLE --> 25
Photovoltaic Roof System
East-West Section 7
Stack Ventilation
On-Site Rainwater Management
East Elevation 8
To honor Julia Carson and the Legacy of Love Foundation in the community, the design addresses the social and environmental needs of the neighborhood, as well as creates a safe atmosphere that encourages community involvement. To relate to the context of the site, a structural frame was based off a thirty-foot module that aligns with the current housing grid. This approach breaks up the building into smaller sections to identify the different uses within the community center, while still tying back to the central core of circulation. Alternating facades step up to the current urban edge of the city’s setbacks and regresses to create courtyards and private exterior spaces for the users of the building. Exterior spaces were designed to efficiently correlate with the built environment to emphasize safety through visibility by providing a minimum of three surrounding facades that overlook each space. The overall organization of the site brings the community center and exterior recreational spaces towards the neighborhood by placing these social interactions along the 29th street block. The main parking area for the building resides on Fall Creek boulevard to keep the main vehicular traffic spaces towards the busiest street surrounding the site. This layout allows the design to address the streetscape to revitalize pedestrian life and manage street and rainwater runoff. The design for the community center, a partner project, was a finalist in the Gresham Smith Design Competition.
Julia Carson Community Center Indianapolis, IN
Spring Studio 2011
12
RESIDENTIAL RESIDENTIAL COMPONENT COMPONENT
EXTERIOR EXTERIOR PATIO PATIO
RESIDENTIAL RESIDENTIAL COMPONENT COMPONENT STORAGE STORAGE MANUALMANUAL MASSAGE MASSAGE THERAPYTHERAPY RECEPTION RECEPTION AREA AREA THERAPIST THERAPIST STATIONSTATION PRIVATE PRIVATE MASSAGE MASSAGE SUITES SUITES MECHANICAL MECHANICAL MASSAGE MASSAGE HORIZONTAL HORIZONTAL SPINE STRETCHING SPINE STRETCHING
TOILETSTOILETS
WOMEN’S WOMEN’S LOCKEROOM LOCKEROOM
SHOWERS SHOWERS
SHOWERS SHOWERS
LAVATORY LAVATORY GROOMING GROOMING
LAVATORY LAVATORY GROOMING GROOMING
TOILETSTOILETS
STORAGE STORAGE
STORAGE STORAGE
OPEN RECREATION OPEN RECREATION SPACE SPACE
STORAGE MEN’S LOCKEROOM MEN’S LOCKEROOM STORAGE AROMA AROMA THERAPYTHERAPY
STORAGE STORAGE
AIR AIR ROOM ROOM
LIGHT LIGHT THERAPYTHERAPY
SALT SALT ROOM ROOM
MUSIC MUSIC THERAPYTHERAPY
MEDICALMEDICAL INHALATION INHALATION
CLASSROOM CLASSROOM
SLEEP SLEEP THERAPYTHERAPY
EXTERIOR EXTERIOR DINING DINING
OPEN TOOPEN BELOW TO BELOW KITCHENKITCHEN INTERIOR INTERIOR DINING DINING
FOYER FOYER DINING AREA DINING AREA MEN’S MEN’S RESTROOM RESTROOM
WOMEN’S WOMEN’S RESTROOM RESTROOM
MEN’S RESTROOM MEN’S RESTROOM MEETING/CLUB MEETING/CLUB ROOM ROOM
RECEPTION RECEPTION DESK DESK CONFERENCE CONFERENCE ROOM ROOM ADMINISTRATIVE ADMINISTRATIVE OFFICE OFFICE
ASSISTANT ASSISTANT OFFICE OFFICE
STORAGE STORAGE
CONFERENCE CONFERENCE ROOM ROOM
DAYCARE DAYCARE PLAYGROUND PLAYGROUND
WOMEN’S WOMEN’S RESTROOM RESTROOM
OPEN TOOPEN BELOW TO BELOW
KITCHENKITCHEN
COLD COLD DRY DRY STORAGE STORAGESTORAGE STORAGE
LIBRARYLIBRARY
COMPUTER COMPUTER LAB LAB
OPEN OPEN TO TO BELOW BELOW
PROPOSED PROPOSED DAYCARE DAYCARE
GREEN ROOF GREEN ROOF
GREEN ROOF GREEN ROOF
GALLERYGALLERY HEALTH HEALTH HEALTH HEALTH COUNSELING COUNSELING COUNSELING COUNSELING SCREENING SCREENING SCREENING SCREENING OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE
STAFF WORK STAFF WORK EXECUTIVE EXECUTIVE DEPUTYDEPUTY ADMINISTRATIVE ADMINISTRATIVE SPACE SPACE DIRECTORASSISTANT DIRECTOR DIRECTOR DIRECTOR ASSISTANT LIBRARYLIBRARY STORAGE STORAGE STORAGE STORAGE
STORAGE STORAGE
MEN’S MEN’S DRESSING DRESSING ROOM ROOM
WOMEN’S WOMEN’S DRESSING DRESSING ROOM ROOM
CONFERENCE CONFERENCE ROOM ROOM STORAGE STORAGE
STORAGE STORAGE
COAT ROOM COAT ROOM
OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE
HEALTH HEALTH SCREENING SCREENING OFFICE OFFICE
COUNSELING COUNSELING OFFICE OFFICE
HEALTH HEALTH SCREENING SCREENING OFFICE OFFICE
COUNSELING COUNSELING OFFICE OFFICE
HEALTH HEALTH SCREENING SCREENING OFFICE OFFICE
COUNSELING COUNSELING OFFICE OFFICE
HEALTH HEALTH SCREENING SCREENING OFFICE OFFICE
COUNSELING COUNSELING OFFICE OFFICE
OPEN OPEN TO TO BELOW BELOW
RECEPTION RECEPTION DESK DESK
STAGE STAGE RECEPTION RECEPTION
RECORDS RECORDS CONFERENCE CONFERENCE ROOM ROOM OPEN TOOPEN BELOW TO BELOW
MULTI PURPOSE MULTI PURPOSE GUIDANCE GUIDANCE
STORAGE STORAGE
LOUNGELOUNGE
OPEN TOOPEN BELOW TO BELOW
TICKET OFFICE TICKET OFFICE
WOMEN’S WOMEN’S RESTROOM RESTROOM
EXTERIOR EXTERIOR PATIO PATIO MEN’S RESTROOM MEN’S RESTROOM
Level 2 Street Level 13
EXTERIOR EXTERIOR PATIO PATIO
GLASS ROOF SYSTEM
OPEN TO BELOW
STEEL CHANNEL STEEL TRUSS 8” STEEL STUD WALL RAINWATER COLLECTION GUTTER TRIM STEEL MOUNTING ANGLE
STRETCHING AREA EXTERIOR PATIO
IRRIGATION DRIP LINE
RUNNING TRACK
STEEL WEDGE ANCHOR BOLT GREEN WALL PANEL WATERPROOFING STEEL FRAME
OPEN TO BELOW
MEDIA CONTROL ROOM
Level 3
STEEL TUBE COLUMN STEEL BASE PLATE
GREEN ROOF RESIDENTIAL COMPONENT LEGACY OF LOVE FOUNDATION COMPONENT CIRCULATION HEALTH AND WELLNESS COMPONENT
CONCRETE FLOOR SLAB METAL DECKING OPEN WEB STEEL JOIST STEEL ANGLE STEEL I-BEAM REINFORCED CONCRETE BEAM STEEL REBAR RIGID INSULATION
Detail Wall Section through Corridor and Living Walls 14
East Elevation 15
SUMMER SUN ANGLE--> 80
WINTER SUN ANGLE--> 30
FALL SUN ANGLE--> 40
Site Grid Based off of 30’ Neighborhood Housing Module
Photovoltaic System SPRING SUN ANGLE--> 60
RAINWATER COLLECTION ANGLED ROOF GREEN ROOF
RAINWATER IRRIGATION SYSTEM LIVING WALL PANEL SYSTEM
Rainwater Collection Methods
Natural Daylighting
16
The St. Croix Marine Research Laboratory seeks to provide suitable facilities for researchers to study the rich marine life and coral reef ecosystems of the Caribbean. The laboratory campus invites the community and students of the University of the Virgin Islands to participate in educational seminars on marine issues. The layout of the campus forms around two main axes that wrap around the Salt River Bay. The community programs exist at the entrance to the campus and as one moves south, the research laboratory spans across the peninsula and reaches out to both ends of the bay. The residential component sits at the end of the axes. This layout allows for a public to private transition as you move from the north end of campus to the south end. The research laboratory is programmed into four sectors: wet and dry laboratories, a computer lab, and a classroom. The plans of the laboratories consist of teaching labs for individual researchers. Docks reside on the east side of the facility and observation desks on the west. The design of the research laboratory takes sustainable approaches to meet net zero energy consumption. The design for the roof allocates the collection of rainwater into a cistern that rests below the deck. Integrated into the south facade is a photovoltaic system to produce energy for the laboratories. Operable doors and windows and a double facade allows applicable ventilation throughout the facility for thermal control. The facade consists of bamboo paneling to utilize a sustainable material found on the island.
Marine Research & Education Center U.S. Virgin Islands, St. Croix Island
Fall Studio 2011 20
women’s restroom men’s restroom
storage
service corridor
observation decks
dry teaching laboratory
computer lab
women’s restroom men’s restroom
storage
service corridor
wet teaching laboratory
Research Laboratory Floor Plan
Site Section 22
Cross Ventilation
North-South Section 23
Photovoltaic Wall System - South Facade
Rainwater Collection
24
East-West Section 25
26
A group of fourteen Ball State University architecture students, led by faculty director Timothy Gray, took on the challenge of designing and constructing classroom and meeting facilities for the Indianapolis Project School, a non-profit charter school in downtown Indianapolis, IN. The classrooms were constructed from recycled and repurposed shipping containers used for overseas shipping. After extensive cleaning, painting, and modification in Muncie, Indiana, the newly re-purposed containers were delivered on-site to Indianapolis, Indiana. The buildings were designed to satisfy functional requirements but also to demonstrate sustainable building practices. The surplus of shipping containers that exists in the country due to the current trade deficit, along with their relatively efficient adaptability to a variety of building functions, makes them a choice well suited to the project. The buildings themselves will become educational tools, extending the agenda of the urban farm to that of the built environment and bringing lessons in sustainability and adaptive reuse to generations of Indianapolis students. The biggest challenge of the project was cutting into the side of each shipping container to permit sliding doors that when opened, would create a central gathering space between the containers. The substantial weight required that the entire studio work together to lift the door into place. In addition, the studio fabricated all of the furniture for the classroom.
urbaRn Outdoor Classroom
Indianapolis, IN
Spring Design/Build Studio 2012 30
1
10
2
3
4 5
6
3
7
8 9
2
1 ENTRY GATEWAY/TOWER 2 NATIVE PLANTINGS 3 RAISED BEDS 4 CHICKEN YARD 5 GREENHOUSE 6 TOOLSHED W/ IDENTITY TOWER 7 COMPOST ZONE 8 CLASSROOM/MEETING ROOM 9 BEE HIVES
C:\Users\David\Documents\Architecture\CAP4\402\Logos\Studio Logo.jpg
10 GREEN ROOF
1" 24'-92 2'
2'
39'-11" 18'-93 8"
2'
25'-9"
11"
12'-4"
5 3' 1" 7'-112
7'-5"
3'
4 4'-7"
11'-9" 1" 19'-112
21'-93 4"
1" 3'-72 1" 7'-34
3
14'
1" 4'-32
1" 7'-34
1" 19'-112 11'-9"
3'-11"
2 22 FEB, 2012 Kid Zone
1" 7'-112
7'-5"
REVISIONS
1 39'-11" 19'-8"
19'-8"
19'-8"
DRAWN BY: Katie Werner
A
N
Floor Plan
B
D
C
32
2 x 6 WALL FRAME BEYOND OSB SHEATHING
RECLAIMED WOOD, GUSTO GOLD
HARDWOOD EDGE OSB SHELF SUPPORT OSB SHELF
CONTAINER WALL 1" REVEAL
2 x 6 WALL FRAME
DOORWAY 3'-0" X 6'-8"
OSB SHEATHING
22 FEB, 2012 REVISIONS
DRAWN BY: Nicole Miller
Dividing Storage Wall Section
Dividing Storage Wall Elevation
33
Photograph of Classroom Space 34
C:\Users\David\Documents\Architecture\CAP4\402\Logos\Studio Logo.jpg
22 FEB, 2012 REVISIONS
Lateral Section through Door Assembly
DRAWN BY: Nicole Miller
35
C:\Users\David\Documents\Architecture\CAP4\402\Logos\Studio Logo.jpg
22 FEB, 2012 REVISIONS
DRAWN BY: Nicole Miller
Sliding Door Assembly
Section through Sliding Door Jamb
Fabricated Chairs
Detail of Shelf Connection
Detail of Desk Connection 36
42
43
Pointalism_Interior View Looking up at Ceiling
39
The following drawings are a study of the methods of communication in a variety of media. The drawings are images of Frank Gehry’s Guggenheim Museum Bilbao. These images were done in four different mediums: colored pencil, watercolor, graphite, and ink. The objective was to study four different perspectives of the building; the structure, interior, exterior, and its relationship to context, all while experimenting with the render capabilities of each medium.
Render Technique Studies
Design Communications Media
Fall 2009 40
Graphite Rendering_View From an Avenue Away 41
Watercolor Painting_View of Structure During Construction 42
Colored Pencil Rendering_Front Entrance 43
Graduate Architecture The University of Tennessee August 2012 – May 2014
Trinity Lane Transit Village | 4
planET Park Installation | 12
Market Street Place | 22
Transitional Haitian Home | 36
The Urban Brewery | 44
Graphic Design | 56
The Trinity Lane Transit Village is the first anticipated transit stop outside of downtown Nashville on the proposed northeast corridor bus rapid transit line. The intention of the project was to assist the Nashville Metropolitan Planning Organization in envisioning the urban design implications of mass transit at a site within Metro Nashville. The program projection consisted of 2,400 residential units, 1.3 million square feet of office, and 86,000 square feet of retail. This solution bridges the depressed Ellington Parkway to create a two story parking structure, a raised courtyard, and multiple connections between the west and east sides of the site. The bridging aspect references the precedent study of Clarence Perry’s design for a Five Block Apartment Development. The raised courtyard provides a traffic free community space to accommodate the residential towers that flank it. Parallel to the residential towers are two pedestrian walkways that run north and south through the site creating a smart growth walkable urbanism. The north end of the site consists of mixed-use office and retail space that have shared courtyards at street level. The southern end of the site contains a combination of perimeter block, row, and duplex housing and recreational facilities. The building heights on the site step down from ten to twelve stories near the center to one to two stories towards the periphery as to not impose on the existing neighborhood fabric. The BRT stop exists just north of Trinity Lane. The bus lane ramps up from Ellington Parkway to Trinity Lane to create a stop at street level. A park-n-ride structure with first floor amenity shops exists on the east and west side of the stop and are accompanied by public courtyards that create an enjoyable waiting space for transit users. The overall site plan and BRT stop were designed as a team of two. For further development individually, I focused on the southern residential portion of the site and my partner developed the office and retail portion to the north.
Trinity Lane Transit Village Nashville, TN
Fall Studio 2012
4
TRINITY LANE TRANSIT VILLAGE
Existing Site Plan
EXISTING SITE
Proposed Trinity Lane Transit Village Axonometric AXONOMETRIC
N 10’ 50’
150’
300’
Clarence Perry’s Five Block Apartment Development
6
TRINITY LEVEL FLOOR PLAN
Residential Plan at Street Level
RESIDENTIAL
Section Through Residential Component 7
FOURTH LEVEL FLOOR PLAN
Residential Plan at Raised Courtyard Level N 5’
15’
25’
50’
RESIDENTIAL
N 5’
15’
25’
50’
AXONOMETRIC
RESIDENTIAL
N 5’
15’
25’
50’
8
BRT/Commercial Plan at Street Level
BRT/COMMERCIAL
Section Through BRT Stop 9
TRINITY LEVEL FLOOR PLAN
N 5’
15’
25’
50’
BRT/Commercial Plan at Raised Courtyard Level
BRT/COMMERCIAL
FOURTH LEVEL FLOOR PLAN
N 5’
15’
25’
50’
AXONOMETRIC
BRT/COMMERCIAL
N 5’
15’
25’
50’
10
11
The planET studio designed a greenway along the Second Creek Corridor that runs from north Knoxville along I-275 to downtown Knoxville until the creek empties into the Tennessee River. Each student chose a site along the greenway to develop an installation that would improve the water quality of the creek and connect surrounding communities and neighborhoods to the greenway. The installation presented is located at the north end of the greenway at the existing Mead’s Park site. A family park that is primarily dominated by baseball fields. Large channels and pipes run through the park that pump rainwater runoff from streets and fertilized yards directly into Second Creek. The proposed design for Mead’s Park incorporates a bio-retention pond and vegetative beds to improve the water quality of the creek, a natural playground to invite all ages of children and families to the park, and a gateway to welcome people to the greenway and the park. The gateway is elevated to provide views to the site and creates a transition point from the end of the greenway to the park and vice versa. Within the gateway is a bike repair shop, a small coffee shop and picnic area. A study of local watersheds and catchment areas was completed to determine what and where hazardous particulates were flowing from to better incorporate on-site water treatment methods.
planET Park Installation Knoxville, TN
Spring Studio 2013
12
2nd Creek Corridor 13
Mead Park
14
Proposed Mead Park Renovation
D
CULVERT
E
CULVERT
RIPRAP
1’ DEEP CHANNEL
2
CULVERT 5
CULVERT 3
C
A
1’ DEEP CHANNEL
4
CULVERT STONE CHANNEL
Existing Mead Park 15
1
CULVERT
B
BRIDGE
DELI
Third Level THIRD STORY - ROOF Y DISPLA EL ND LEV GROU CE ENTRAN
NTAL
BIKE RE
GE STORA
GREENWAY LEVEL - +16’ Greenway Level
Gateway_Ground Floor
Cross Section through Gateway Installation 16
A RM PE NE L
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W LO RF
M AG HR AP DI
O PO
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NT
N SA
S AS GR
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Y NC GE Y ER A Y EM ILLW WA L P S PIL
P RI ST
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K
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CR
RM
B RE FO
BE
2N
AY ET CR
N CO E
CU
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GR
N ZO
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AV
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GM RA
PH
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D EL
ON TI DA UN TS IN LAN P
N CO
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RR
” -3
2”
VE PA
BA
RT
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RS
TE
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B
Bio-Retention Pond
T ER LV
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AL SW IO
VE
LE
CU
AD
RE
P LS
Longitudinal Section through Bio-Retention Pond 17
RS
DE
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BO
S PIT
D
N SA
TO
O ST K EP N ST PLA P D LE UM TE AC ST VA L ST EE ELE AL OB W TR G CK LO RO EE R T
PS
TE PS
M
TU ES
E TR
NS
DE
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RM
G
IN LL
BE
DDS
UN
N OU
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MO
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AI NT
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SE AS
GR
Natural Playground
Longitudinal Section Through Natural Playground 18
22
Market Street Place was a renovation to an existing parking structure in downtown Knoxville, TN. The existing roof of the four-story parking structure had caved in and the interior was flooded with rainwater and old debris. On street level, a few retail spaces along Church Avenue were still in use within the building. The structural system of the building is concrete post and beam with concrete slab. The roof of the existing structure was made of wood trusses that were rotted and structurally vulnerable when the team visited the site. One of the major challenges the building posed for redevelopment and renovation was the nonexistence of a structural column grid within the existing building. As a team of five, we proposed the building be redeveloped into new retail and restaurant spaces on street level and residential lofts on floors two through four while salvaging the existing concrete structure. The existing site consisted of large surface parking lots so the team proposed future block development to improve the urban environment of the area. The residential component was designed so that each loft had a private balcony that was created by setting the exterior wall of the loft back from the existing windows. A fifth floor was added to the structure to provide a community space and an outdoor roof terrace for the tenants. The existing brick facade detail was kept in the renovation to preserve the old aesthetics of the building. The apertures at street level were redesigned to incorporate modern store front window facades. The aesthetics of the new additions to the structure were done in concrete and glass to distinguish between the new and old components of the building.
Market Street Place
Knoxville, TN
Spring Studio 2013 22
Existing Floor Plan Level 1 23
Existing Levels 2-4
Downtown Knoxville, TN
Existing West Elevation 24
Proposed Floor Plan Level 1 25
Proposed Levels 2-4
Proposed Level 5
Proposed West Elevation 26
New vs. Old
Emergence vs. Wrapping
Proposed North Section -Stair Core
Proposed North Section-Atrium 27
Solid vs. Carved
West Facade Section 28
INVERTED SEAM GALVANIZED METAL ROOF 3” METAL CELLULAR ROOF DECKING 2” METAL PAN HEAD SCREW GALVANIZED METAL ANGLE BRACKET 3X4 WOOD STUD 14 X 16 WIDE FLANGE STEEL BEAM BATT INSULATION
FURRING CHANNEL INVERTED SEAM GALVANIZED METAL CEILING FURRING CHANNEL BRACKET
NANAWALL ALUMINUM MODEL SL82
INVERTED SEAM GALVANIZED METAL ROOF
A8.01_Roof
29
OAK TONGUE & GROOVE FLOORING POLISHED CONCRETE @ 3% SLOPE
NANAWALL ALUMINUM MODEL SL82 RUBBER GASKET & SEALANT WATERPROOF MEMBRANE 1” RIGID INSULATION 2X4 WOOD STUD FRAMING STEEL ADJUSTABLE PEDASTOOL 1/2” PLYWOOD CONCRETE WAFFLE SLAB
LIGHTING PANEL
OAK TONGUE & GROOVE FLOORING
POLISHED CONCRETE
A8.02_Rooftop Floor Connection
30
POLISHED CONCRETE DECKING GRASSES, PERENNIALS & SHRUBS PRE-CAST 1” CONCRETE OVERLAP SILICON SEAL RUBBER TUBE LINER
SOIL PROTECTIVE LAYER/ROOF BARRIER GRAVEL RIGID INSULATION
PROTECTIVE LAYER WATERPROOF MEMBRANE INSULATION
VAPOR BARRIER
WAFFLE SLAB
PRE-CAST 1” CONCRETE OVERLAP POLISHED CONCRETE DECKING GRASSES, PERENNIALS & SHRUBS
A8.03_Green Roof to Concrete Deck Detail
31
LIMESTONE COPING SILICON SEAL STAINLESS STEEL DRIP EDGE W/ ASPHALT FLASHING ABOVE ANCHORING SYSTEM, EYE HOOK DRILLED INTO CMU W/ PIN DRILLED INTO COPING STONE
EXISTING BRICK EXISTING YELLOW BRICK VENEER GRASSES, PERENNIALS & SHRUBS SILICON SEAL RUBBER TUBE LINER
SOIL PROTECTIVE LAYER/ROOT BARRIER GRAVEL PROTECTIVE LAYER WATERPROOF MEMBRANE INSULATION VAPOR BARRIER
WAFFLE SLAB
EXISTING BRICK SILICON SEAL RUBBER TUBE LINER
LIMESTONE COPING GRASSES, PERENNIALS & SHRUBS
A8.04_Extensive Green Roof
32
ALUMINUM HANDRAIL
STONE CAP WITH 3% SLOPE TO LOGGIA AND DRIP EDGE WHITE OAK DECK FLOOR WITH 1/2” SPACING 2X4 JOISTS FOR VENTILATION FLASHING WATERPROOF MEMBRANE
RIGID INSULATION @ 3% SLOPE
EXISTING BRICK FACADE
CONCRETE WAFFLE SLAB
CONCRETE BEAM
STONE LINTEL
WHITE OAK DECK WITH 1/2” SPACING
ALUMINUM HANDRAIL
STONE CAP WITH 3% SLOPE TO LOGGIA AND DRIP EDGE
A8.05_Facade and Handrail Detail
33
TONGUE & GROOVE OAK FLOORING 1/2” PLYWOOD 2”X8” WOOD STUD FRAMING 1” RIGID INSULATION NANAWALL ALUMINUM MODEL SL82 SPACED OAK FLOORING 2”X4” WOOD STUD FRAMING STEEL ADJUSTABLE PEDESTAL
WEATHER BARRIOR MEMBRANE 2”X4” WOOD STUD FRAMING WHITE PAINTED GYPSUM WALL BOARD FIBER BATT INSULATION STEEL ANGLE 4”X4” STEEL TUBE
WHITE PAINTED GYPSUM WALL BOARD SOUND ABSORBING FOAM SPRAY INSULATION POLISHED NICKEL LIGHT FIXTURE LED LIGHT TUBE
NANAWALL ALUMINUM MODEL SL82 SPACED OAK FLOORING TONGUE & GROOVE OAK FLOORING
A8.06_Interior to Exterior Balcony
34
The goal of this seminar course was to individually identify, through research and precedent studies, a problem condition in the construction of Haitian homes and design/build a detail-scale strategy for its solution. Through research, it was made apparent that Haitians construct their homes in phases which often leads to reduced structural stability. Once families save enough money for building materials, they will add rooms on to their existing home. In most cases, there is a lack of structural stability between the old and new structure due to Haitian construction materials and techniques. Traditional houses are made of CMU block, corrugated metal, and some wood. Haitians rarely use adequate rebar in their concrete construction and the little they do use, they leave extending outside the concrete form which rusts and becomes vulnerable. This prototype studies a possible approach to creating a structurally sound connection between a new and existing structure. The design zooms in to the corner condition of a home where structural stability is often compromised. 1’x4’ wood modules interlock around a structural 2 3/8” steel pipe to form the corner. These modules can rotate around the steel pipe to connect to a future addition. This rotating feature allows the addition to be constructed and the connection made last. By using part of the existing structure as part of the new structure, material waste is reduced and the stability of the steel pipe always remains in tack. This prototype, along with those explored by fellow classmates, will be documented and incorporated into the LIFEHouse Publication, a User Construction Manual that will help guide Haitian builders and contractors in providing safe, sustainable, and healthy living conditions.
Transitional Haitian House Haiti
Fall Seminar 2013
36
2 3/8” DIAMETER STEEL PIPE
6”X6” STEEL PLATE @ 1/4” THICK
STEP 1 - STEEL CORNER CUT STEEL PIPE TO NEEDED LENGTH STEP 1 - STEEL CORNER CUT STEEL PLATE TO 6”X6” CUT STEEL PIPE TO NEEDED LENGTH WELD PIPE AND PLATE PLATETO TOGETHER CUTE STEEL 6”X6” WELD PIPE AND PLATE TOGETHER
STEP 4 - INSERT SCREEN INTO WOOD MODULE STEP 4 FRAME - INSERT SCREEN INTO WOOD MODULE INSERT INSERT FRAME FASTEN FRAME TO WOOD MODULE FASTEN TO WOOD ATTACHFRAME LAST MEMBER OFMODULE MODULE ATTACH LAST MEMBER OF MODULE
Prototype Construction 37
STEP 2 - ROTATING MODULE
STEP 3 - SCREEN FRAME
CUT 2”X6” WOOD LUMBER TO 4’ LENGTHS (2 PER MODULE)
CUT 2”X6” WOOD LUMBER TO 4’ LENGTHS (2 PER MODULE) CONNECT WOOD PIECES TO CREATE MODULE DRILL A 2 1/2“ HOLE AT ONE END FOR STEEL TUBE TO PASS THROUGH CUT 2”X6” WOOD LUMBER TO 3 - 2“X6”x9” AND 2 - 2”x2.5“X9” CONNECT WOOD PIECES TO CREATE MODULE
CUT 2”X6” WOOD LUMBER INTO 1.5” SECTIONS STEP - SCREEN FRAME CUT 1.5”3SECTIONS INTO 2 - 3’5” LENGTHS AND 2 - 5” LENGTHS CUT 2”X6” WOOD LUMBER INTO 1.5” SECTIONS ASSEMBLE FRAME INTO 2 - 3’5” LENGTHS AND 2 - 5“ LENGTHS CUT 1.5“ SECTIONS WRAP ANDFRAME STRETCH SCREEN AROUND FRAME ASSEMBLE WRAP AND STRETCH SCREEN AROUND FRAME
STEP CONNECTION STEP55-- FOUNDATION FOUNDATION CONNECTION
STEP 66 -- ASSEMBLE ASSEMBLECORNER CORNER STEP
STEP 2 2- 1/2” ROTATING MODULE DRILL A HOLE AT ONE END FOR STEEL TUBE
FASTEN STEEL MEMBER TO CONCRETE PIER FASTEN STEEL MEMBER TO CONCRETE PIER
STACK WOOD MODULES IN ALTERNATING DIRECTIONS STACK WOOD MODULES IN ALTERNATING DIRECTIONS
STEP 7 - APPLY CORRUGATED METAL FASTEN STEEL MEMBER TO CONCRETE PIER
STEP 7 - APPLY CORRUGATED METAL 38
Constructing the Prototype
CMUFOUNDATION/WALLS FOUNDATION/WALLS CMU
44--221/4” STEEL PIPE AT CORNERS 1/4” STEEL PIPE AT CORNERS
STEEL PIPE FASTENED TO CONCRETE FOUNDATION STEEL PIPE FASTENED TO CONCRETE FOUNDATION
VENTED ZONE ROTATES AROUND TO CONNECT TO ADDITION
FASTEN CORRUGATED METAL CLADDING AND ROOF FASTEN CORRUGATED METAL CLADDING AND ROOF
House Construction Utilizing Prototype 39
CONSTRUCTED ADDITION - READY TO CONNECT BY ROTATING CORNER MODULES OF CONSTRUCTED OLD STRUCTURE ADDITION - READY
TO CONNECT BY ROTATING CORNER MODULES OF OLD STRUCTURE
Finished Prototype
WOOD FRAME BUILT AROUND CONCRETE FOUNDATION AND CMU
2X6 FRAME 2X6WOOD WOOD FRAME
WOOD FRAME BUILT AROUND CONCRETE FOUNDATION AND CMU BLOCK WALLS
EXISTING
EXISTING
INTERIOR PATHWAY
ROTATION DIRECTION
ADDITION
ADDITION
PLAN VIEW SHOWING TRANSITION OF ROTATING WOOD PLAN VIEW TO SHOWING TRANSITION OF ROTATING WOOD MODULES CREATE CONNECTION AND SPACE MODULES TO CREATE CONNECTION AND SPACE.
HAITIAN HOME AFTER ADDITION. STRONG CORNER AND CENTRAL CONNECTIONS.
HAITIAN HOME AFTER ADDITION. STRONG CORNER AND CENTRAL CONNECTIONS.
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The Urban Brewery is located on an existing industrial brown site on the corner of Ogden Street and Depot Avenue near downtown Knoxville, TN and the Old City. The requirements for the brewery process brought about a dense program on the site due to the need for double height space. In addition to the manufacturing space requirements, the program included a restaurant, bar, beer garden, gift shop, office space, a research pilot room, and a satellite classroom to teach community members about the brewing process. The central core of the building houses the large fermentation tanks. The tanks are raised to the second level and encased in a glass facade to be displayed as a landmark for the area. The north end of the site is programmed with manufacturing space to take advantage of the alley and truck delivery routes. This layout enabled the public program to address the corner of Ogden and Depot to create a lively street front during the day and night. The main structure of the building is concrete and is finished with prefabricated concrete panels on the manufacturing zone and undulating limestone panels on the public zone. The pattern of the limestone panels speak to the interior design and space requirements of the program. Within the building, glass curtain walls separate the manufacturing and public spaces to provide safety for visitors and efficiency for brewmasters while still enabling visual interaction between guest and the brewing process.
The Urban Brewery
Knoxville, TN
Fall Studio 2013
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O G EN
D
OLD CITY N. CENTRAL ST.
.
T PO
E AV
E
D
DOWNTOWN GAY ST.
EAST-WEST KNOXVILLE I-40
FERMENTATION TANKS - 7%
36,900 SF - 61.5%
MANUFACTURING
BREW HOUSE - 3.5% BRITE TANKS - 2% STORAGE - 9% MILL ROOM - .7% SHIPPING/RECEIVING - 6% MECHANICAL - 12.5% PACKAGING - 6% BOTTLING - 6% COLD STORAGE - 9% LOGISTICS OFFICE - 1% BREAKROOM - 1% CIRCULATION - 36.3%
PUBLIC
16,710 SF - 27.8%
KITCHEN - 5% RESTAURANT - 13% LOBBY/GIFT SHOP - 8% TAPROOM - 13%
Program Massing
BEER GARDEN - 11% STORAGE - 2.7% CIRCULATION - 39%
AN
B R
TR
EW
IN
G
PR
O
C ES S
MECHANICAL - 8%
SPAR
EN
B
LIC
PR
O
G
R
A
M
CY
PU
TR
AN
SPAR
CY
4060 SF - 6.7%
ADMINISTRATIVE
PU
B
LIC
ST R
EE T
EN
Public vs. Private CONFERENCE - 7.5% OFFICE - 28% CLASSROOM - 14% LAB - 4.5% STORAGE - 2% CIRCULATION - 44%
RESEARCH
2330 SF - 4%
Core Extrusion STORAGE - 8% PILOT - 45% LAB - 32% CIRCULATION - 15% 15’
E G N A
6’
G
R
A
D
E
C H
25’
19’
Program Breakdown
Addressing the Street Front 46
West-East Section
Ogden St. Elevation 47
Cellar
Level 2
Level 3
Street Level 48
Life Safety
North-South Section 49
Accessibility
Cellar Reflected Ceiling Plan
Level 2 Reflected Ceiling Plan
Level 3 Reflected Ceiling Plan
Street Level Reflected Ceiling Plan 50
Detail Plan of Exterior Wall of Restaurant + Bar
Detail Elevation of Restaurant + Bar 51
Parapet Coping Roofing Membrane Rigid Insulation (slope to drain)
Faced Batt Insulation
12X24 Concrete Girder 1” Wood Paneling
Wall Mounted Lighting
6” Limestone
4” Concrete Slab 4” Rigid Insulation
6X24 Concrete Beam Supply Air Duct Fluorescent Lighting Steel Angle
18X24 Concrete Column
Pendant Lighting
Aluminum Storefront System w/ Translucent + Transparent Glazing
Finished Concrete 2” Thick Perimeter Insulation 4” Gravel Perforated Drainage Pipe
2’X4’ Concrete Footer
Detail Section of Restaurant + Bar 52
LINES appear at the EDGES of OBJECTS and where two PLANES meet.
55
As part of a graphic design course, spread layouts were designed that focused on image and text relationships. The project on the left was a one page spread that represented the word line. The quote was given as a base for the project and an image was selected that best represented the quote. The layout of the text was then designed to best represent the image and the quote. The important words in the text were enlarged and positioned on the second page as the street car is positioned on the first page creating a spatial relationship. The “S� in the enlarged words were then right aligned to represent the line in the phrase and in the image. The following project is a design for a two page spread. The JeanMarie Tjibaou Cultural Center by Renzo Piano was chosen as the project to represent graphically. A font was chosen that best represented the tall pointed wood joists of the structural frame. The layout of the images and text were then framed by two curved lines that appear at the edges of the two page spread to create the visual form of the curved shells.
Graphic Design Spring Elective 2013
56
RENZO PIANO
57
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“men anpil chay pa lou� many hands make the load lighter Haitian Proverb