2100: A Dystopian Utopia I Urban Design I Urban Design Project I 2014
Guerin Glass Architects, PC 2014 -2015
Guerin Glass Architects, PC 2014
Guerin Glass Architects, PC 2013
Phoenix, USA I Urban Design I Extraction City
Beach Cabana I Residential I Baha California, Mexico
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01
2100: A Dystopian Utopia I StudioTeka Design I Urban Design Project I 2014
Vancouver, Canada I Urban Design I Compact Mega City
201 E. Hyman I Residential I Aspen, Colorado
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02
Space Group Architecture(korea) I 2012
Mongomo Leader’s Club
Ritz-Carlton Residence I Residential Tower I Waikiki Beach
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03
SCE Core Studio I Senior Thesis I Spring 2011South Seaport Culture Centre
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SCE Core Studio I Fall 2010Public Bath House
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SCE Core Studio I Fall 2009Ferry Terminal
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Guerin Glass Architects, PC I Conceptual, Schematic Development I 2014 -2015
01 Beach Cabana I Baha California, Mexico I Residential
The Cabana take the recognizable image of the hastily crafted beach shack and elevate it to a level of sophistication. The inspiration and party are simple, but the details meticulous and luxurious. The cabanas are composed of tow primary elements, an interior volume and a protective skin that are slipped past one another. Louvers and siding of natural, weathered wood come together in intricate ways and the connections and varied orientations give life and texture to the rustic material.
These structures present a lighter silhouette than the base hotel buildings and the beach-facing facade opens completely to transform the main living space into an indoor/outdoor sunroom. Each Cabana is strategically oriented so that the protective screen, while providing both privacy and shading, does not obscure the primary views or the sunrise and sunset. The intense sunlight of the site plays across the theatrical scrim of the screen, creating dramatic shadows during the day and at night these weathered jewels give off the soft glow of private sanctuaries dotting the coast.
Concept Sketch
Plan Diagram
Cabanas Baha, California
Height : 2.26 m Height : 2.80 m Height : 3.34 mHeight : 2.26 m Height : 2.80 m Height : 3.34 mHeight : 2.26 m Height : 2.80 m Height : 3.34 m
1762 sq ft
1578 sq ft
1315 sq ft
1921 sq ft
1573 sq ft
1094 sq ft
1562 sq ft
1540 sq ft
1040 sq ft
Floor Plan
Reflected Ceiling Plan
Cabanas Baha, California
Elevation
East
West
Cabanas Baha, California
ElevationCabanas Baha, California
SouthNorth
North_Behind Screen
South_Behind Screen
SectionCabanas Baha, California
East
West
North_Bathroom North_Bedroom
Section DetailCabanas Baha, California
Clerestory Window Entry Door
Section Detail Cabanas Baha, California
Interior Stair
Exterior Stair
Guerin Glass Architects, PC I 2013-2014
02 201 E. HYMAN Avenue Residence I Aspen, Colorado
This project restores and important historic home - a beautifully detailed ‘miner’s cottage that that dates from 1883 and is traced to one of the town’s original families - to its original exterior condition and carefully adds complimentary building area to create a contemporary residence. As part of the construction process, the historic house is being carefully removed from the site and stored in a protected location in town. The subsurface and heavier construction work will be performed while the house is off-site. Once the site conditions are appropriate the house will be restored to tis current location and work will be performed in place.
Floor Plan 201 E. Hyman Aspen, Colorado
Basement
Upper Basement
Ground Floor
Second Floor
Floor Plan 201 E. Hyman Aspen, Colorado
Roof Plan
Floor Plan 201 E. Hyman Aspen, Colorado
S ASPEN STREET
LIMELIGHT LODGE
201 EAST HYMAN
SOUTH ASPEN STREET
Elevation201 E. Hyman Aspen, Colorado
North
South
EAST HYMAN AVENUE201 EAST HYMAN ALLEY
Elevation 201 E. Hyman Aspen, Colorado
East
West
Section 201 E. Hyman Aspen, Colorado
South
Guerin Glass Architects, PC I Main Lobby &Pool Deck I LVL 8 I 2014
03 Ritz-Carlton Residence Waikiki Beach Phase II I Residential Tower
Second tower, integrated with and complimenting the first. Much of the same language is applied to the form - the base condition, the variable geometry of the street levels, the articulated skin, and the organizational underpinnings.
Phase II expands on the concepts embodied in Phase I with a more energetic and dynamic form that specifically responds to the immediate and extended context. The towe axis is oriented more mauka/makai, opening up space between the phases of work, and minimizing its presence along Kuhio Avenue. The tower form expands on the fluidity of the initial phase and emphasizes the new orientation. As the tower reaches the mean height in urban Waikiki, it folds to face Diamond Head Crater at the far end of the district. These moves root the building in the larger landscape, reinforce as sense of place and help to mitigate the bulk of the tower. Similarly, the streetscape is brought into the building via facade treatments and opening up of considerable space at the building entry and perimeter. The public open space established in Phase I is extended nearly to Lewers Street, and introduced to the interior block, further intergrating the building with the tropical environment.
Floor Plan Ritz-Carlton Residence Waikiki Beach
2100: A Dystopian Utopia I Urban Design I Urban Design Project I 2013
Phoenix, USA I Urban Design I Extraction City
04
Pheonix is home to lush trees, such as willow acacias, and a wide variety of succulent plants and cactuses. But it is predicted that ‘Central Arizona is in the bull’s eye of climate change, warming up and drying out faster then any other region in the Northern hemisphere’ Thus, a phasing strategy must be introduced reconnecting the city of Vancouver which will also be a compact megacity. A visitor of Pheonix in 2095 will be exposed to a hive of bustling workers, deconstructing and recylcing the city. As buildings are abandoned and regions are evacuated, builders will immediately start the green deconstruction process. There is no time to waste, so by 2100, as we envision, will be a extraction city. The focus on Pheonix is not deconstrution, but rather serving as a base for a massive urban deconstruction and re-using it for future sustainability. In 2100, large human inhabitation will be an inevitable question. Thus, we introduce the green deconstruction process hopefully retaining the economic value of the built environment. Ultimately, the strategy in Pheonix will be through architectural clip-on strategy.
Extraction City Pheonix Case Study
Masterplan
GREEN HOUSE
GREEN HOUSE STORAGE
FARMING AREA
CARBON CAPTURE
PARK
CARBON CAPTURE
FACADE
WATER COLLECTOR
RECREATIONAL AREA
RESIDENTIAL DEW COLLECTION
COMMERCIAL
WIND PARKELEVATED PEDESTRI-
AN/BICYCLE PATH
PARKING AREA
SOLAR PANEL FIELD
Extraction City Pheonix Case Study
EXTRACTION OUTPOST_SECTOR 2
STAGE 2
STAGE 1
BUILDINGS TO BE DE-CONSTRUCTED
CARBON CAPTURE ENER-GY FIELDS
ENERGY FIELD
ENERGY FIELDUSED TO POWER ALL BUILDINGS AND CON-STRUCTION EQUIPMENT FOR SECTOR 27
STORAGE AND DECON-STRUCTION SITES
Extraction City Pheonix Case StudyZoom In Plan_Extraction Outpost
STAGE 4
STAGE 3
ENERGY FIELDSENERGY IS STORED AND SHIPPED TO VANCOUVER
REMAINING BUILD-INGS TO BE DECON-STRUCTED
CARBON CAPTURE FIELD
ENERGY FIELDSENERGY IS STORED AND SHIPPED TO VANCOUVER
CARBON CAPTURE FIELDS
Extraction City Pheonix Case Study
STAGE 2
STAGE 1
GREEN DECONSTRUCTION FOR STORAGE AND COM-MERCIAL AREAS
RESIDUAL HOMESUSED TO HOUSE WORKERS FOR BOTH SECTORS
ELEVATED PATHWAY
EXPANSION OF ROADS FOR INDUSTRIAL DEVELOPMENT
DECONSTRUCTION FOR EN-ERGY, FARMING,CARBON CAPTURE AND GREEN SPAC-ES
INSTALLATION OF ATTACH-MENT INFRASTRUCTURE
CONSTRUCTION OF STOR-AGE AND DECONSTRUC-TION SITES
Extraction City Pheonix Case StudyZoom In Plan_Revitalization Outpost
STAGE 4
STAGE 3
DECONSTRUCTION OF RE-SIDUAL UNUSED BUILDINGS
FIRST INSTALLMENT OF FARMING AND WATER COL-LECTION INFRASTRUCTURE
CARBON CAPTURE FIELDS
CONSTRUCTION OF ENER-GY FIELDS-USED TO POW-ER ITSELF, THEN STORED AND SHIPPED TO VANCOU-VER
FINAL INSTALLMENT OF FARMING AND WATER COL-LECTION INFRASTRUCTURE ALONG MOUNTAIN SIDE
FINAL ERECTION OF COM-MUNITY BUILDINGS
CONSTRUCTION OF PARKS AND GREEN SPACES
Extraction City Pheonix Case Study
01_WATER COLLECTOR
02_WIND DISTRICT WIND TURBINEon the ground
WIND FUNNELon the facade
WATER COLLECTORon the ground
MAIN STREET
WATER COLLECTOR
PLOT
SECONDARY STREET
EXISTING BUILDINGREUSED AS COMMERCIAL
MAIN STREET
WIND TURBINE
WIND PARK
EXISTING BUILDINGREUSED AS RESIDENTIAL
Extraction City Pheonix Case Study
03_SOLAR DISTRICT
04_CARBON CAPTURE DISTRICT
05_FARMING DISTRICTGREEN HOUSE
on the mountain
ALGAE FARMINGon the roof
PARKING
MAIN STREET
SOLAR PARK
COMMERCIAL
MAIN STREET
MAIN STREET
CARBON CAPTURE PARK
GREENHOUSE
EXISTING BUILDINGSREUSED AS GREENHOUSE STORAGE
COMMERCIAL
Extraction City Pheonix Case Study
2100: A Dystopian Utopia I StudioTeka Design I Urban Design Project I 2013
Vancouver, Canada I Urban Design I Compact Mega City
05
The Vancouver of 2100 has a very mild climate, and, as the world’s population shifts pole-ward, it is ideally suited to become one of the world’s global cities, acting as an international hub and a bread basket for the Northwest. Existing cities located in viable environments will require an increase in density in order to house the millions of new climate immigrants coming from further south. Urban densification in Vancouver will therefore employ a combined strategy: newly dense compact megacity districts will be built on previously unused or underutilized sites along the route of the existing Skytrain rapid transit system that runs through Metro Vancouver.
The case study site employs the former strategy. A visitor to Burnaby, a municipality to the East of the city center, would find a series of hybrid mega-towers combining farming, residential, public and commercial functions. These buildings, shaped to maximize sunlight for growing crops, recycle their own agricultural waste by converting it into bio fuels for power.
Occasional floods will occur due to the city’s proximity to the sea as well as with the accelerated melting of the ice cap, therefore buildings in the flood zone have critical areas, such as living, critical services, and the city’s food supply, elevated to protect them. Farming pods are located within the storm surge sector just beyond the towers, and, in the event of flooding, are able to float and dock along the elevated bridge buildings that cross the flood zone.The farming pods maximize agricultural productivity through a vertical hydroponic system.These urban strategies have allowed the residents of 2100 Vancouver to successfully meet the city’s drinking water needs and address the loss of two of the city’s most productive farming areas to flooding.
Compact Mega City Vancouver Case Study
Compact Mega City Vancouver Case Study
BUSINESS/COMMERCIALFARM-TO-TABLE
RAPID TRANSIT TODOWNTOWN VANCOUVER
FARM/PARKFLOATABLE PODS
CASCADE TOWERSWATER/GARDENS
FARMING/CULINARYWORK/STUDY
STORM SURGE [6m]
AGRICULTURE
CN REGIONAL RAIL
WATER FILTRATION
SOFT EDGE PARK
Masterplan
Compact Mega City Vancouver Case Study
STRATEGIES
KEY
LIBRARIES
COMMUNITY CENTERS
PARKING LOTS
SCHOOLS
LOW DENSITY [0-69/HECTARE]
PUBLIC STREETMAJOR ROAD
REGIONAL HIGHWAY
CLIP-ON CASCADE
SPONGE STACKS HIGHWAY + DATAHOUSE
VEGGIE SKIRT PARKSCRAPER FAUX FJORD
Compact Mega City Vancouver Case Study 05
VANCOUVER, CANADACOMPACT MEGACITY
PHOENIX, USAEXTRACTION CITY
TRANSPORTATION
TERRAIN
RESOURCES
TRANSPORTATION
TERRAIN
RESOURCES
5 mi5 km
5 mi5 km
Section
Compact Mega City Vancouver Case Study
Compact Mega City Vancouver Case Study
Mongomo’s Leader Club Equatorial Guinea
Space Group Architecture(korea) I 2012
Mongomo Leader’s Club
06
Mongomo Leader’s Club design strives to create a landmark of simplicity and subtlety.The aluminum louver screens encloses different programs of the building, alluding to its rich content and character. The central atrium welcomes its visitors and provides public zone, while creating a visual vista towards the lake scenery as well as allowing daylight penetration.
Key stone completing the President palace climax point in the president palace intermediate building where President and guest can meet Reviving facility in the inactive surrounding. Programs may be assorted into three groups such as Culture/Entertainment, Business, and Accommodation.
2D Drawings + Diagrams, 3D Modeling + Rendering, Photoshop, Model Making.
Participation of Preliminary Schematic Design
Simple Modern Mass Separated to reform Internal Program Designed Reformed and Programmed
Concept
Mongomo’s Leader Club Equatorial Guinea
Mongomo’s Leader Club Site Analysis
PALACE
GATE LAKE
President G uest LEADER’S CLUB
-Flowing Lounge Connects different pro-grams- Less relation between programs - Inefficient space use
- Extensive slope lounge connect all programs -Programs are formed in individual masses- Vacant spaces appeared
-Programs not piled up-Programs are formed in individual masses- Multi Lounges
Connected Lounge Sloped Lounge Layered Lounge
Design Alternatives
Mongomo’s Leader Club Equatorial Guinea
Ground Fl
Mongomo’s Leader Club Equatorial Guinea
Second Fl
Mongomo’s Leader Club Equatorial Guinea
Third Fl
Mongomo’s Leader Club Equatorial Guinea
Section : Scale 1/400
Mongomo’s Leader Club Equatorial Guinea
West Elevation
East Elevation
South Seaport Thesis Project 2011
SCE Core Studio I Senior Thesis I Spring 2011South Seaport Culture Centre
07
The aim of this project was to design a Mix-Use building or Culture Centre in downtown, New York. South Seaport area is a tourist attraction where visitors experience and learn this thriving neighborhood’s storied past, preasent and future potential. Also, 70% of downtown is well-known for its finan-cial district.
S.F
H&F
R&L
CINEMA
B&L
A
GYM
AT
COMM
S.F
A
GYM
ETC
AT
H&F
B&L
CIN
COMM
R&L
A
S.F
GYMAT
H&F
B&L
CIN
R&L
COMM
ATRIUM
ATRIUM
Concept Diagram
Programs Diagram
Building’s configura-tion limits its potenti-ality
Central Atirum is placed to provide con-nectivity and different experiences
The North-West stairs plays as the resting area and the back entrance
Panoramic View and fun activities can be experienced simulta-niously
GYM
House & Furniture
Athelics Shop
Cinema
BookStore
Community Center
Library
Restaurant Museum & Gallery
S & F
Wal
l Str
eet
SOH
O
Flat
Iron
E.P.
S
Was
hing
ton
S
quar
e
Met
ropo
litan
M
useu
m o
f
Art
Sout
h Se
apor
t Cu
ltur
al C
entr
e
Intensity - Tourism Business District
59 % 11 % 30 % Residential
Museum Educational Hospitals
South Seaport Thesis Project 2011
31
South Seaport Thesis Project 2011
Programs Layout
1. Library & Bookstore2. Meeting Room 3. Restrooms & Locker Room4. Recreation Room5. Gym
Ground Fl
South Seaport Plan
6. Private Meeting Room7. Museum / Gallery8. Library
9. Restaurants 10. Public Cooking course 11. Museum / Gallery
Third Fl
Second Fl
South Seaport Plan
12. Restaurant13. Entrance From North-West.
14. Dressing Room 15. Cinema / Lecture Hall16. Dressing Room / Guest Waiting Room
Fourth Fl
Fifth Fl
South Seaport Plan
South Seaport Thesis Project 2011
BB-Section
The central atrium is a natural meeting place with great overview and spacial experience
Visual and Physical connection between two programs
Sudden change of the cealing heights can provide different experi-ence.
Visitors can see the main entrance and the library from the edge of each floor.
South Seaport Thesis Project 2011
AA-Section
Lit Public BathHouse 2008
SCE Core Studio I Fall 2010Public Bath House
07
2D Drawings + Diagrams, 3D Modeling + Rendering, Photoshop, Model Making.
This is the introductory studio project for Parson’s Architectural Design Program. Exploration of spatial studies and model studies were the focus for the first part of the studio. The ultimate objective of the studio was to design an urban bathhouse in which it incorporates many design elements. The site was located on the northeast intersection of Houston and Elizabeth Street in Manhattan, New York.
Concept
Contemporary Mass
Program Layout
Proposed Program Programatic DiagramLight Expansion
Divided into Volumes Diagonal Cut Through Programs revolve
Lit Public BathHouse 2008
Lit Public BathHouse 2008
N 200 60 120ft
Site Analysis
Concept Diagram
Simple modern mass placed on site
Based on sun’s path, east facecade carves in
Multiple carving occurs due to the program layout
Lit Plan Public BathHouse 2008
GL +26 ft
GL +12 ft
GL - 7 ftBasement Fl
Ground Fl
Second Fl N
30 9 18ft
Lit Public BathHouse 2008
GL +76 ft
GL +56 ft
GL +42 ftThird Fl
Fourth Fl
Fifth Fl N
30 9 18ft
Plan
Lit L-Section Public BathHouse 2008
30 9 18ft
Lit Cross-Section Public BathHouse 2008
30 9 18ft
Final Models Lit Public BathHouse 2008
Final Model 1/8 Scale
N
Ferry Terminal Red Hook Ikea 2009
SCE Core Studio I Fall 2009Ferry Terminal
09
2D Drawings + Diagrams, 3D Modeling + Rendering, Photoshop, Model Making.
The aim of the project was to design a water ferry station for New York City’s emerging water transportation system located on the Red Hook Terminal in Brooklyn. Red Hook is a part of South Brooklyn and it’s peninsula between two canals at the southern edge of downtown,Brooklyn.
Concept Diagram
Harbor View
Brooklyn View
N.Y.C View
Views Approach
Ferry Terminal Red Hook Ikea 2009
01 Harbor Manager Office Janitor Storage 02 Restroom
03 Mechanical Room
04 Main Entrance 05 Stairway to Basement
06 Waiting Area
07 Ticket & Information
08 Exit to Ferry
09 Concession 10 Observatory Area
11 Stairway to Ground Floor
Waiting Area
Basement Ground Fl First Fl
Ferry Terminal Plan Red Hook Ikea 2009
Plan
Cross - Section North - East
Section
Observatory Area
Ferry Terminal Red Hook Ikea 2009
View From the Car Road. Approaching from North- West
Ferry Terminal Section Red Hook Ikea 2009
Long - Section West - East
View From the Car Road. Approaching from North- West
Section Ferry Terminal Red Hook Ikea 2009
Conceptual model
Final Conceptual /Structural Model
Structural Model
Mock-up Models 1/8 Scale
1/8 Scale
1/4 Scale
1/4 Scale