PORTFOLIO
Michael Guillory Architecture
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Contents Design Work Hayes Valley Housing
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Lightweight School
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ETFE Factory
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Kinetic Energy Center
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Surface & Skin
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Additional Interests Screen Printing & Apparel Design
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Photography
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Michael Guillory
California College of the Arts Undergraduate Architecture Department mguillory02@gmail.com mike@youwontdesigns.com 925.890.9658 3
Housing Studio Spring 2012
Instructors
Craig Scott & Rod Henmi
Hayes Valley Housing San Francisco, CA Team Project
The focus of the studio was to design an urban housing development in relation to the context of its site. Located in San Francisco's Hayes Valley, the site consists of a residential neighborhood intertwined with outdoor public spaces and numerous retail stores. Thus, my designed focused on creating a sense of community between the occupants of the complex and the neighboring community. To do so, the design consists of:
Outdoor community spaces incorporated into each housing block as well as on street level. - Division of public & private zones based on that naturally created by the surrounding treescape. - Street level alley that visually and physically connects Hayes St. to Grove St. and Gough St. - Ground level live-work/retail spaces within alley on Hayes St. block. - Grocery store, retail, and large public courtyard on Grove St. block.
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OVERHEAD ENCLOSURE
SEMI-ENCLOSED EXTERIOR
SEMI-ENCLOSED INTERIOR
SEMI-ENCLOSED EXTERIOR
HYBRID
Enclosure Diagram ENCLOSURE TYPE
Sunlight Penetration
Building Form Process
Possible Building Arrangements
Building divided into live work/retail space on ground level and studio living space above.
1. Each unit individually owned.
4. Townhouse & live work/retail owned together.
Studio pulled away from neighboring building to allow for circulation space and light wells.
2. Studio & live work/retail owned AND connected together . Townhouse separate.
5. One owner for the entire block of units and they can all be connected or the live work/retail space can have separate acces.
Studio pushed in from main thoroughfare for privacy and patio space. Addition of two story townhome above the studio is within height restrictions.
STUDIO
LIVE WORK/RETAIL
TOWNHOUSE
PATIO SPACE
3. Townhouse & studio owned together. Live work/retail space is separate.
Unit Floor Plans Canopy Enclosure Diagram
Above Canopy Privacy Level
Enclosed Canopy Privacy Level
Enclosed Canopy Public Level
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Grove St.
Hays St. 6
Ground Level Floor Plan
Gough St.
Octavia St.
Ivy St.
Roof Level
4th Floor F.F.
3rd Floor F.F.
2nd Floor F.F.
1st Floor F.F.
Grove St. Elevation
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Grove St.
A
First Floor Plan
Hays St.
Gough St.
Octavia St.
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Ivy St.
Section Perspective A
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10
Third Floor Plan
B
Section Elevation B
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Hayes St. Perspective Townhome Interior Render 12
Model Photos Gough St. Perspective
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Advanced CBD
[Pro]ject: Name
Spring 2013
Lightweight School & Community Resource Center Bubaque, Guinea-Bissau, Africa
Instructors
Lightweight School CDB SP 2013
Mauricio Soto & Peter Anderson
INSTRUCTORS Peter Anderson Mauricio Soto DESIGNERS Emilie Alongi Mike Guillory
DATE
SCALE
4.08.13
N.T.S.
Lightweight School
Bubaque, Guinea-Bissau
Vacinity Plan
Bubaque, Guinea Bissau Team Project
Located off the west coast of Africa, the island site required a deployable school constructed of lightweight materials that could be easily packaged and shiped in containers. To fulfil this need, we developed a construction system made containing an easy to assemble “kit of parts” with many environmental and construction benifiets.
Minimal Ground Disterbance
Single System for Flooring and Space Separation
Minimal Ground Disterbance
Single System for Flooring and Space Separation
Nature as Primary Weather Protection
Open Structure to Protect While Still Connecting to Nature
Nature as Primary Weather Protection
Open Structure to Protect While Still Connecting to Nature
A 1.2
- Composite decking system including prefab SIP panels.
Built Form Parti
500 ft
- Tensile membrane structures for classrooms and additional buildings. - Specially skilled workers not necessary for installation.
High Point 18’- 0”
High Point 18’- 0”
Direct Sunlight
WT
WT
Direct Sunlight
Low Point 9’- 0”
- No excavation or heavy equipment needed.
Low Point 9’- 0”
Warm Air Out Cool Breeze In
Hot Air Out Warm Breeze In
Classroom Deck Height 3’- 6” Lower Deck Height 2’- 6”
Classroom Deck Height 3’- 6” Lower Deck Height 2’- 6”
Ground Floor 0’ - 0”
Ground Floor 0’ - 0”
MORNING
- Deck structure leaves minimal impact on the environment.
NOON
- Introduction of native Acacia trees for shading and their spiritual connection with the native people. - Pod type classrooms for sense of community WT
Tree Provides Shading at the Hottest Time of the Day
WT Diffused Sunlight
High Point 18’- 0”
High Point 18’- 0”
Low Point 9’- 0”
Low Point 9’- 0”
Warm Air Out Cool Breeze In Classroom Deck Height 3’- 6” Lower Deck Height 2’- 6”
Classroom Deck Height 3’- 6” Lower Deck Height 2’- 6”
Ground Floor 0’ - 0”
Ground Floor 0’ - 0”
AFTERNOON
NIGHT
Natural Heating & Cooling 14
Deck Assembly
Delivery
Support structure cut in half to fit into 45’ shipping container(s)
1. Piers & Posts
2. Beams & Joists
3. Decking
Shipping container(s) taken to port and loaded onto container ship
Arch & Membrane Assembly
Container(s) shipped to main port in Bissau, then by ferry to island of Bubaque.
1. Arc Halves Joined
2. Arcs Positioned & Raised
3. Arcs Connected
5. Membrane Added
6. Building Complete
Membrane is added to assembled structure to create buildings Components taken to site and assembled
4. Structure Complete
Shipping Diagram
Construction Diagram
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4 5
3
1
2
10 12
6
8 11
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1- COMMUNITY GATHERING SPACE DURING A PERFORMACE 2- TECHNOLOGY CENTER 3- LIBRARY 4- CLINIC 5- OFFICES, AND COMMUNITY RESOURCES 6- KITCHEN 7- ELEMENTARY SCHOOL 8- MIDDLE SCHOOL 9- HIGH SCHOOL 10- BATHROOMS/SHOWERS
Model Photos Site Plan Administration Render (Opposite) 16
11- COMMUNITY GARDEN 12- MULTI-USE FIELD
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Insulated Roof
Aluminum Bracket
Cable supported exterior membrane
Slot for keder
1/2” di. Cable
Membrane
Keder slides into slot
5” Keder attachment Aluminum door frame
Membrane Aluminum cover plate (1/2” thickness)
1/2” Wire cable
Membrane welded together to hold keder
1/2” dia. Pin Cable Connection (1/2” thickness)
Adjustment nut 1/2” dia. Adjustment rod
Glass door
Aluminum adjustment bracket (1/2” thickness) 3/4” dia. Pull hole
8’ - 0”
1/2” Aluminum fin Typ. decking 12” Bolt Typ. beam
1/2” Aluminum plate
1/4” Steel plate
1/4” Steel tabs welded to plate & arc
1’ - 0”
1/2” Steel pin connection 2 - 1/2”
Aluminum Bracket 1/2” dia. Rubber Keder 1 - 1/4”
1/16” x 2 - 1/8” Screw Rubber Water Seal
7” dia. Steel Tube
1/4” 7”
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Longitudinal Section
Membrane attachment
1/8” dia. Metat Hook
Vegetation 1/8” Thickness metal support plate
Membrane flap welded to main membrane Drain filter
1’ - 3-1/2”
Root barrier Waterproof membrane 3/4” Roof decking 2” x 10” 12’ (x2) Beam
Membrane funnel welded to flap
2” x 10” 12’ Pressure Treated Joist
3” dia. PVC piping Typ. membrane enclosure
2” BATT Insulation
Self-tapping screw
4” x 4” Post
Welded membrane attachment
Gutter
Outter membrane layer
Pipe clamp
3” Growing media Filter layer 1” Drainage trays
Roof Slope 2%
Metal insulation support hook
ECO SAC (Rain Water Bladder)
Rubber sleeve
2”
Inner membrane layer
Fixed PVC connection on ECO SAC
1-1/4” x 6” x 16’ Wood Decking
2” x 10” x 16’ Wood Joist 16” o.c. 1-1/4”
2” x 10” x 12’ (x2) Wood Beam Steel Joist Hanger
Steel Post to Beam Connection
Steel Post Bracket (Height Adjustable)
10”
4” x 4” Wood Preasure Treated Post (Cut to Height) 1/8” x 5” Lag Screw
Membrane
1’ - 2” Concrete Diamond Pier 1/16” Metal Flashing for Gutter 1/16” 1/4”
2”
1/16” Rubber for Water Protection 1/4” Aluminum Plate
1’ - 1/8” dia. Steel Pin
1/32” Steel Washer 2 - 5/16”
Aluminum Bracket
2’ - 5”
1/4” Steel Bolt 1/4” Aluminum Bracket 1/2” dia. Rubber Ked
1/16” dia. Screw
1 - 1/4” Wood Decking
2’ - 0”
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20
Cross Section A
KITCHEN
COMMUNITY GATHERING SPACE
Cross Section B
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School Render
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Model Photo
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Advanced CBD Spring 2012
Instructors
Oblio Jenkins & Peter Anderson
ETFE Factory Benicia, CA
Team Project
In this studio we were tasked with developing a new use for an inovative product, already in use, and designing a factory to produce, and be constructed with in some way, this new product. Our factory is designed to manufacture ETFE cushion panels in standardized sizes to be introduced into existing custruction methods. Site location was a key factor and the chosen site is ideal for importing and exporting materials and product due to it having integrated rail, cargo ship, and vehicular transportation access. Environmental factors of the site were also taken into consideration as they play a large role in powering, ventilating, lighting, and climate control for both buildings on the site.
WHAT TO MAKE? Our proposal for a factory that manufactures, distributes, and constructs Prefrabricated ETFE cushion panels to be incorporated to any exhisting building facade system, or as a stand alone system. ETFE plastic is manufactured from outsourced natural materials and its by-products, once gone through the manufacturing process, can be reused to make more ETFE. The factory would recieve ETFE pellets which would then be melted down, rolled into ETFE sheets, and then installed into custom aluminum frames; together they create our Prefabricated Panels.
BENEFIETS Recyclable - By-products can be recycled to make more ETFE
Weight
- Has a slippery texture which allows dirt and debris to slide off - No extensive cleaning is needed
- 1% the weight of`glass
Flexability Translucency - 95% more translucent than glass, w/o the use of any treatments - Has the ability to be color treated &/or fritted for transluceny adjustments as well as UV protection
Life Span - Estimated to last for up to 50 years
Cost - Cheaper to produce than glass - 25-70% cheaper to install than glass
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Cleaning
- Can be stretched and/or expanded up to 3 times its size without losing elasticity - Can be inflated to make pillows
Strength - Can support up to 400 times its weight - Suitable in high wind areas
Site Analysis
Highway Shipping Railroads
Benicia Waterfront Bayshore Rd, Benicia, Ca
Site Main Secondary Refineries Residential Proposed Relocation of Existing Site
Transportation Diagram Site Photos
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106’ - 0” 32’ - 7”
32’ - 7”
60’ - 0”
30’ - 0”
9’ - 6”
31’ - 0”
0” ’-
13
24’ - 0”
Storage Receiving 5” ’-
24’ - 0”
9’ - 6”
60’ - 0”
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Michael Guillor BARCH, 4RD YEAR
Dennis Huang BARCH, 4RD YEAR
ETFE Hopper Platform Equipment Room Aluminum Extrusion
Restaurant/ Bar
Kitchen
168’ - 0”
132’ - 0”
Equipment Room ETFE Extrusion
NO.
ISSUE
1
Site Analysis
2
Building Componenta
3
Product Manufacturing Pro
4
Site Plan Diagram
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272’ - 0”
272’ - 0”
Catwalk
Collaboration
6 7 8 9 10 11
Heat Treating
12
Office Showroom Storage
Aluminum Fabrication
Welding Area
TITLE
Shipping Final Assembly
Floor Plan
Parking
SHEET NUMBER
A7 PROJECT
GROUND FLOOR PLAN
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ETFE Product
FIRST FLOOR PLAN
N
SCALE
1/32” = 1’ - 0” @11 1/16” = 1’ - 0” @ 2
Visitor Center Render
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Air Vents Solar Energy
AIR FILTER
Temp Controled Natural Cooling
Heating & Cooling Diagram 28
Fabric Vent for Forced Air Circulation
Opaque ETFE
Clear ETFE
Pony Wall With Air Vents/Exhaust
Radient Cooled/Heated Floor
Above Ground Piping Over Marsh
Delta Water Intake & Cool Water Return
Underground Piping
Energy Diagram
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Visitor Center Longitudinal Section 30
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Visitor Center Cross Section A 32
Visitor Center Cross Section B 33
Roof Detail & Render 34
ETFE Fin Detail & Render
Anchor Wall Detail & Render 35
Advanced CBD Fall 2013
Instructor
0.4 mile radius
Oblio Jenkins & Peter Anderson
EPICENTRE
of a phenomenon
ATTRACTION
restaurants/shops /museums...
Kinetic Research Center San Francisco, CA Team Project
Partnering with representatives from the Exploratorium, we were given the task of designing satellite research facilities specializing in specific phenomenon. Based on our given phenomena of “social” and “heat”, we designed a highly interactive research center focused on developing instruments to measure and source kinetic energy from humans to power various electronic equipment and, ideally, entire buildings. The center's site was strategically chosen to be adjacent to the new Transbay Transit Center in order to use the mass amount of commuters as its main energy source. The design of the Kinetic Research Center includes:
San francisco microclimates
San Francisco topography
San francisco’s level of Activty in relationship with its climates
San Francisco walk score
FINANCIAL DISTRICT
THE FERRY BUILDING
DOWNTOWN SOUTH OF MARKET
GOLDEN GATE PARK + warm and active
0
MISSION DISTRICT
THE YERBA BUENA GARDENS
TWIN PEAKS THE DOLORES PARK
Cold and less active _
Activity Map
- Integrated pathways directing patrons throughout the building. - Connection to Transbay Center on street level & roof garden level. - Interactive labs and shop facilities on each level. - In-house shops to produce research instuments. - Interactive piezoelectric groud level walkway in parallel with interactive facade. - Green space on each level & roof level cafe. Site Location 36
Site Location Render
tile brick stone concrete
Absorbant Materials Device on Body
Talking Vibrations
Radiant Indirect
Direct Body Heat
Ground
Solar panels
Solar
Sound Water
At Rest
Body
Capturing kinetic energy
Wind Geothermal
Environment Interactive Facade & Walkway:
Physical Activity
Piezoelectric Energy Generation
Heat
Heat energy is the manifestation of the energy as heat. It can be transmitted by radiation, conduction and convection.
Biking Walking/ Running
With Machines (human powered) Applying pressure
Physical & Viual Interaction
Passive solar retention?
Scientists express heat in terms of the joule (J), a unit used for all forms of energy.
Dance
Data Collection:
Physical & Visual Interaction
RADIATION
Solar Panels Ground
Appropriate materials: Concrete Brick Stone Tiles
1250
The complete process in which energy is emitted by one body, transmitted through an intervening medium or space, and absorbed by another body. When electromagnetic waves travel through space it’s called radiation. When they come in contact with an object, the waves transfer the heat to that object.
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CONDUCTION
12
Conduction is the transfer of heat between substances that are in direct contact with each other. The better the conductor, the more rapidly heat will transfer.
Energy producing fabric
Body energy to charge cell-phone battery
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A demo showing a seebeck thermoelectric unit generating electricity. The seebeck makes more and more power as its top side is heated.
LED Bulbs
Turnstyles
Street Lights
Oven For 1HR
Piezoelectric Tile Diagram
Kinetic Energy Capture Possibilities
Wind Capture
GA
Solar Paneling
Title
Heat Absorbant Furniture Piezoelectric Floor Pads
Location
San Fr
Project
Acoustic Pads
Archite & Disc
Heat Exchangers
Individua
Aby San
Geothermal
Street to Street Circulation
Instructo Peter A
Park to Park Circulation
SHEET
Piezoelectric Railway Pads
Circulation Parti
Title
37
Circula
SCALE N.T.S.
DN
UP
UP
UP
UP
Ground Floor Plan 1/8” 1’-0”
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2nd Floor Plan 1/4” 1’-0”
Roof Plan 1/4” 1’-0”
Water pipes circulate water through Heat Exchangers in Transbay Center
Hot water storage tanks Flywheel Energy Storage Cells
Activated Facade Power Piezoelectric Tile Power/Energy Storage Interior Lighting Power Workshop Power Transbay Energy Storage Radient Heating Tubes Energy Diagram 39
40 1/4” th. Double Pane Glazing
Clear Silicone Joint
1/4” th. Glass Fin 1/4” th. Steel Connection Plate Metal Spider Clamp
24”
6”
4”
3/4” dia. Steel Rebar
Cast in Place Anchor Bolts
18” th. Concrete Wall
I-Beam to Steal Column Connection
I-Beam toConcrete Wall Connection
1.2” th. Steel Fin Welded to Steel C-Channel
3/4” dia. Steel Bolts
18”
6”
4”
1/2” Steel Fin Welded to Steel Column
3/4” Steel Bolts 1/2” Steel Fin Welded to Steel Column
Deck Pan Pins
6” th. Concrete Sub Floor Metal Deck Pan
Wire Grid
Section Detail
4” th. Finish Concrete Floor Metal Mesh 6” th. Concrete Sub Floor Metal Deck Pan
GAM
Architec
Title
Location
San Francisco,
1/2” th. Steel Fin Welded to anchored steel plate
Project
Architecture of & Discovery Individuals
Aby Sane & Michae
Instructors Peter Anderson & O
SHEET NUMBER
Title
Envelope Detail
SCALE 1/32” = 1’ - 0”
41
GA
Arc
Title
Location
San Franc
Project
Architectu & Discove Individuals
Aby Sane & M
Instructors Peter Anders
SHEET NUM
Title
Section Pe Render Section Perspective 42
SCALE N.T.S.
Howard St. Perspective 43
Presentation Event at The Exploratorium
44
Walkway Perspective 45
Advanced Interdisciplinary Studio Spring 2013
Instructor
Oblio Jenkins
Surface & Skin
California College of the Arts San Francisco, CA Group Project
The studio was focused on merging fashion and architecture as both disiplines are very similar when their fundamentals are compared. We were commissioned to design and build two instalations for the master's student fashion show in which my group's installation was designed to direct models from their dressing room to the catwalk located in an adjacent tent. The design was created using donated Levis denim that was cut into a circular shape and raial slits were added to allow the flat material to expand when suspended. The expansion created necessary head clearance in the form of a tunnel shape while providing a semi-private facade needed to shield models while ungressing.
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48
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Additional Interests Screen Printing & Apparel Design
Screen Print Work
50
Cut & Sew Work
51
Additional Interests Photography
52
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