Milagro Jassmine Carpio Selected Works
Personal: Email: milagrojcarpio@hotmail.com mjcarpio@csupomona.edu Phone 626 388 3763 Address 523 S. Electric Ave. Alhambra, CA 91803 Bachelors of Architecture June 2012 Cal Poly Pomona 3801 West Temple Avenue Pomona, California 91768 909 869 7659
Academic Work 2011 | 5th Year_Topic Studio | Tsunami Shelter |
Neubia
2011 | 4th Year_Topic Studio | Economically Viable Spacestation |
Tensile House
2010 | 3rd Year Studio| Japanese Film Director Residence |
2012 | 4th Year_Topic Studio | Deployab;e Outpost | EZ
2010 | 3rd Year Studio | Urban K-12 Elementary |
AstroLabs
Nomad
Unfold
2012 | Senior Thesis | Suicide Prevention Center | Terra
Cresco
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NEUBIA Seaside, OR | Tsunami Shelter Fall 2011. ARC 406 Integrated Topic Studio Colaborated with Ashi Martin, Gaby Barajas, and Jennifer Cheng. + engineer team Prof. Axel Smitzberger (architecture) Prof. Gershfeld (engineering) NEUBIA is a proposed evacuation shelter that addresses the growing need and urgency to implement temporary safe havens for people during a tsunami crisis. This particular shelter also serves as a vertical urban farm as well as science labs which are open to the community to promote sustainability awareness. Conceptually the tsunami shelter is designed with a hierarchical mindset. The greater the tsunami, the higher the occupancy levels become which can accommodate over 1,000 people as the building produces local farmed aeroponic plants within the programmed wall space Architecturally, the design opts to create a space that is iconic as well as service able to the community as a agricultural urban farm and a tsunami shelter. Responsibilities included help collaborating with design, generating 3d model, CAD drawings, vidnettes, and completion of physical models.
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2x8: TAUT 2012 Exhibit A+D Museum Exhibition, AIA Cal Poly Pomona: Arch. Dept. Interim Selection 2012 PCMAC Scholarship Cash Award
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3/ 4” = 1’-0” 3 1’’ -0””
alternate sites
evacations | seaside, OR
alternate sites
evacations | seaside, OR
a.
d.
b.
e.
c.
f.
x5
d. base
astoria, OR
san fran, CA
seaside, OR
axial force distibution structural analysis
astoria, OR
elevation san fran, SITE 1: SEASIDE, ORsouthCA
seaside, OR
axial sesmic loads structural analysis
tsunami impact structural analysis
south section
alternate sites
evacations | seaside, OR
astoria, OR
south elevation SITE 2: ASTORIA, OR
SITE 3: SAN FRANCISCO, CA
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san fran, CA
seaside, OR
south section south elevation
3/ 4” = 1’-0” 3 1’’ -0”” MO M DEL D
3/ 4” = 1’-0” 3 1’’ -0”” MO M DEL D
a.
d.
b.
e.
c.
f.
x5
d. base
4” = 1’-0” 1’’ -0”” MO M DEL D
d. e.
axial force distibution structural analysis
axial sesmic loads structural analysis
tsunami impact structural analysis
x5
f.
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Collaboration Team: Gabriela Barajas | Milagro Carpio | Jennifer Cheng | Ashi Martin | Engineering Team
NEUBIA is a proposed evacuation shelter that addresses the growing need and urgency to implement temporary safe havens for people during a tsunami crisis. This particular shelter also serves as a vertical urban farm as well as science labs which are open to the community to promote sustainability awareness. Conceptually the tsunami shelter is designed with a hierarchical mindset. The greater the tsunami, the higher the occupancy levels become which can accommodate over1,000 people as the building produces local farmed aeroponic plants within the programmed wall space. Architecturally the design opts to create a space that is iconic as well as service able to the community as a agricultural urban farm and a tsunami shelter.
tsunami wave impact ow slabs pre-cast concrete
modular structure pre-cast concrete slabs total wall modules: 7 modular height: 12ft total unit height: 48 ft
a.
d.
b.
e.
c.
f.
x5
d. base
probablistic tsunami assessment
alternate sites
axial force distibution structural analysis
axial sesmic loads structural analysis
tsunami impact structural analysis
roof plaza evacuatation level 05
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beams structural system level 03
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ASTRO LABS Economicaly Viable Space Station Low Earth Orbit | Winter 2011. ARC 403 | Space Station Topic Studio | Prof. Michael Fox MEDICAL RESEARCH: AstroLabs is a medical research facility in space that uses the unique environment of microgravity to develop new drugs, technology, and other theraputic products in space. WHY SPACE? Space happens to be the ideal place to observe pathogens. Previous space flight studies conducted by NASA of the bacteria Salmonella enterica demonstrated that growth of this organism in the microgravity environment elicits unique interactions in biological systems that do not occur on Earth, specifically enhanced virulence. The time, money and resources expended in drug development could be minimized by using a process which identifies promising agents or drug candidates earlier in the development pipeline, for quicker testing to evaluate downstream, efficacy, and market potential. ASTROLABS: Today we are seeing the possibility of space travel as a reality. So it is necessary that doctors are able to research the effect of people in space and study diseases. Within the next thirty years will be see of people traveling into space and
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becoming settled on lunar and mars colonies. At least 5 million people are projected to travel by 2030. So there should be enough doctors that well trained to take care of us in this new environment. Performing research labs that could only be done in space can benefit us a lot. An increased understanding of bone-strength and loss of bone-mass may help patients suffering from delicate bones or muscle wasting diseases. Observing the behavior of microbes and other organisms in space can generate insights into the behavior of organisms on earth, and perhaps lead to better understanding of infectious diseases and the immune system’s response to them. SPACELAB will concentrate on the training and improvement of health and can be its own self running space hospital. The design of the Astrolabs will be modular to allow for flexibility and each of access and construction. With a central circulation where information, resources, and people a can easily travel through. Constructed out of Carbon Nanotube technology, it can act as muscle, when Carbon Nanotube fibers are hot with electricity they can contract and relax, to allow movement of the space station. Carbon Nanotube fibers are also very strong,
WATER
ENERGY
WASTE
BLACKWATER GRAYWATER PROCESSED WATER
WATER PROCESSING H2O
H2O
ELECTROLYSIS
H2O
H2O
2
O 2
O
2
O H
2
O
H
H
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AIR FILTER CLEAN AIR
DIRT AIR
2
2
O
H2
2
2
O
2
O
N
2
CO
ELECTROLYSIS
2
2
O 2
OVERBOARD VENTING
CO CO2
2
2
CO REMOVAL
O
2
O
N2
Cal Poly Pomona: Arch. Dept. Interim Selection 2011
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PRESSURE ROOMS
HOTEL ROOMS
1
WATER TREATMENT/CONSERVATION
10
INFRASTRUCTURE/ POWER SYSTEMS/LIFE
2
LOGISTIC/SUPPLY
11
CLOSED OFFICES
3
MECHANICAL/PLUMPING
12
CAFETERIA/RECREATION
14
pLAN aDJACENCIES
SUPPORT LABS
MULTIPURPOSE LABS
OFFICES/MULTIPURPOSE/
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CONFERENCE/MULTIPURPOSE
MEP
4
TEMPERATURE/AIRCONTROL
14
5
LIFE SUPPORT SYSTEMS
15 DOCKING
6
ELECTROLYSIS STATION
16
13
ADMINISTRATION
10
LIVING FACILITIES
7
COMMUNICATIONS
17 LONGTERM ROOMS
PUBLIC/CIRCULATION
8
OFFICES
9
STORAGE/EQUIPMENT
18 LOUNGE 19 SHORTERM ROOMS
2
12
13
17
20 HYGEINE ROOMS
PHASE 2
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19 11
20
17
20
17
2
20
HOTEL GROWTH
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11 20
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3
1
713 6
20 20
13
20
5
16
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2 2
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ENTRANCE
NIO DE S
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SUPPLY DOCK PRODUCTION LABS MEETING/ CONFERENCE
STORE/MANUFACTURE
OFFICES
DOCK DECK
ENTERTAINMENT LONGTERM
HOTEL DOCK
SHOPPING
LOUNGE
CAFETERIA
INFRASTRUCTURE/ RECREATIONAL POWER SYSTEMS/LIFE CLINIC
SUPPORT LABS ADMIN./ INFORMATION
MULTIPURPOSE COMMUNICATIONS
LABS PRODUCTION LABS
GENERAL MEETING/OFFICES/MULTIPURPOSE/ STORAGE CONFERENCE
DOCK 2 LIVING FACILITIES
OFFICES
LONG-TERM ROOMS ENTERTAINMENT LONGTERM
SHOPPING
PUBLIC/CIRCULATION SUPPORT LABS
LABS
SHORT-TERM HOTEL ROOMS
LOUNGE
WATER STORAGE
RECREATIONAL
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LOGISTIC/SUPPLY
11
CLOSED OFFICES
12
CAFETERIA/RECREATION
ROOMS
MECHANICAL/ THERMAL
WATER STORAGE
MECHANICAL/PLUMPING
3 4
LOGISCTICS/
TEMPESUPPLY RATURE/AIRCONTROL
DOCK 1
5
LIFE SUPPORT SYSTEMS
POWERCONSER./ ENERGY STORE/MANUFACTURE 6
ELECTROLYSIS STATION
DOCK 2
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ADMINISTRATION
COMMUNICATIONS
PHASE 2
17 LONGTERM ROOMS
PHASE 3
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DOCK9 3
STORAGE/EQUIPMENT
LOUNGE
19 SHORTERM ROOMS 20 HYGEINE ROOMS
PHASE 1 PHASE 2 PHASE 3
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15 DOCKING
PHASE 1
OFFICES
DOCK 1 POWERCONSER./ ENERGY
GENERAL STORAGE
CONFERENCE/MULTIPURPOSE MEP
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LOGISCTICS/ SUPPLY
ADMIN./ INFORMATION
13 14
7
MECHANICAL/ THERMAL
CLINIC
COMMUNICATIONS
WATER TREATMENT/CONSERVATION PRESSURE
2
PRESSURE ROOMS
CAFETERIA
PRESSURE ROOMS
1
EQUIPMENT/ DATA STORAGE STORAGE
HYGEINE FACILITY
DOCK 3
EQUIPMENT/ DATA STORAGE STORAGE
HYGEINE FACILITY
SHORT-TERM HOTEL ROOMS HOTEL ROOMS
SUPPORT LABS
LABS
LONG-TERM ROOMS
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(left) STRADEGY FOR PHASING: Astrolabs will be broken down into phases. Phase 1 will deal with construction. Phase 2 a couple modules can be sent at a time, can be put together with robots. Phase 3 will have a manned space craft to construct the different systems of the space station. Phases for occupancy Astrolabs will consist be simultaneous as the station is being built. The first couple of pods will be dedicated to medical research in space for human occupancy and treatment of bone loss and muscle loss, roughly 10-20 people. Phase 2 will consist of a small medical facility that will treat students and astronauts in space. Phase 3 will be a fully running medical facility and school.
PANEL ASSEMBLY
SECOND PROTECTIVE STEEL TUBING CARBON FIBER
PHASE 2
(right) CONSTRUCTION: With the use of Johnson Solid modules, each adjacent side would be the same length. Making it possible to create a stantard set of surfaces, prefabricate multiple modules with the same structure. By breaking down the structure in modules, once can compact a shuttle with a number of modules and one can assemble anything from a small pod, to a large central space station by the number of modeules used in space.At first a manless aircraft will release the framework and unfold the structure in space. Over time the surface modules will cover the structure.
PHASE 2
RESEARCH TOURIST POWER/INFRASTRUCTURE DOCKING/SUPPLY
RESEARCH TOURIST POWER/INFRASTRUCTURE DOCKING/SUPPLY
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ENERGY photovoltaic louvers radiation, as well as gain energy
Photovo
f ltaics shield
rom
Operable photovoltaics adjust for view
DOCKING
PANEL ASSEMBLY
HOTEL ROOM SECTION
ENERGY photovoltaic louvers
DOCK DECK STORAGE COMPARTMENTS/MECHANICAL
rom f ltaics shield
2ND PROTECTIVE LAYER
Photovo
DOCK DOOR
Operable photovoltaics adjust for view
STEEL TUBING CARBON FIBER
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DOCKING
radiation, as well as gain energy
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TENSILE HOUSE An Urban Elementary School Mt. Baldy Los Angeles, CA Fall 2010. ARC 301| 3rd Year Studio | Prof. Michael Fox
Tensile House is a 525 square feet house designed for a Japanese Anime Filmmaker. The concept of mydesign stems from the ideas of light and opacity in Japanese culture, and being inspired by nature. Although residence were to be used as a summer home, it is also meant to serve as backdrop of inspiration for the filmmaker. At first it seems out of place to the surrounding landscape, parasite almost. However, its light frame and curvature keep in mind the fragility of the landcape. The objective of this assignment was to build a 1”= 1’-O” model along with a 1/16”=1’-0” structural model which applied concepts learned from architectural structural courses.
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Light Analysis
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EZ_NOMAD Deployable Outpost Animation Course Winter 2012. ARC 406 | Topic Studio | Prof. Geaorge Proctor EZ Nomad is serves as deployable outpost that can be easily transported to any destination. By implementing parametric design, the pod is able to create flexible spaces for a small household, and with the use of hydrolics, this double decker pod can refract and be compacted back in order to be transported again. It self sustains itself by electrolysis for use of energy, and pholovoltaic windows. It continues to recycle its black water for use of clean water again. It is also a giant ant famr, For when offsite farming. Most often the soild and environment is unpredictable. Ants kill so many insects and pest as food, they are one of the best pest controller for plants and farmers. They also feed on termites and their eggs. Ants also dig burrows into the soil, this process enriches and aerates the soil. Thus by farming ants, one can use them on their site for crops. To provide different types of transparencies and implement different types of shading. Ants when enclosed can carve in and modify their environment by tunneling routes and spaces. Temperature and light effected their digging. In the cold, they slowe down and hyberrnate. The gelatenous environment is filled with nutrients and structure for digging. It was first developed by NASA as they studied ants in space.
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BEDROOM
DESK
PLUMBING
TABLE
ELECTRICAL STORAGE
LIVING
TOILET BATHROOM
ENERGY STORAGE
PHOTOVOLTAICS
SHOWER SINK
WASTE
COLLAPSE SEGMENTED
SHELVES STAIRS
SITTING TV_COMPUTER
COOLING/ HEATING LIGHTING
BED
MODULAR
DRAWER
SUBDIVIDED
CASES
JOINTED
CLOSET
FIXED
CHAIRS
DISH MACHINE KITCHEN
WATER COLLECTION
REFRIGERATOR STOVE
RECYCLING OUTDOOR
Light Analysis
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Phasing 3ds Max Animation
Ant Farm Panel
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UNFOLD An Urban Elementary School Grand Ave. Los Angeles, CA Spring 2010. ARC 303 | 3rd Year Studio | Prof. Barry Milofsky
This project focused on designing and urban elementary school in the middle of downtown. Just three blocks from The Staples Center. Other than solving program, design, and context issues, there was an emphasis with codes and environmental controls in this studio. My concept is folded planes. As opposed to taking one way of approaching a problem, my students would “learn by doing�. They would be encouraged to find a solution in many ways as a point would have more than one axis of following in a folded plane than a flat one. This studio coincided with out Environmental Controls class as well as our Codes class. Thus a thorough understanding of these principles was implemented and analyzed during the design process.
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Light Analysis
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Egress
4TH GRADE
Concept
5TH GRADE
3RD GRADE
4TH GRADE
5TH GRADE
3RD GRADE
1ST GRADE
KINDERGARDEN
2ND GRADE
KINDERGARDEN
y
x
z y
cut and fold
GYM
x LOCKERS/STORAGE
y
LIBRARY
LIBRARY
MULTIPURPOSE/AU
ADMINISTRATION
GYM
Light Analysis
CAFETERIA LOCKERS/STORAGE
MULTIPURPOSE/AUDITORIUM
roof
Daylight Da g t Analysis D a y l i g h t Fa ctor
PARKING
Value Range: 0.0 - 100.0 % © E CO T E CT v 5
% 100 + 90
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Light Analysis
classroom integration
80 70 60
natural light
50 40 30 20
natural venti;ation (windows
10 0
Materials Carpet floor acoustical ceiling tile(3/4") Plaster walls Curtain wall (west) pleated drapery (west curtain wall) Door (Sliding Door) (2)Door (wood) 4TH GRADE 4TH GRADE
Acoustic Tile
Large Pane Windows
5TH GRADE 5TH GRADE
Pleated Drapery 3RD GRADE 3RD GRADE
LIBRARY LIBRARY 1ST GRADE 1ST GRADE
Plater Wall
2ND GRADE 2ND GRADE
KINDERGARDEN KINDERGARDEN
Carpet floor
ADMINISTRATION ADMINISTRATION
GYM GYM
CAFETERIA CAFETERIA LOCKERS/STORAGE LOCKERS/STORAGE
MULTIPURPOSE/AUDITORIUM MULTIPURPOSE/AUDITORIUM
PARKING PARKING
Acoustic Ray and Particle Diagram
LightAnalysis Analysis Light
Level Direct Useful Border Echo Reverb Masked
Daylight Da g t Analysis D lg i g h ttFa ctor Da D aayylight Analysis 0.0 - 100.0 % D aValue y l i g Range: h t Fa ctor © E CO T E CT v 5
Value Range: 0.0 - 100.0 % © E CO T E CT v 5
% % 100 + 1009+0 90 80 80 70 70 60 60 50
Level Direct Useful Border Echo Reverb Masked
50 40 40 30 30 20 20 10
ows ws
10 0 0
Level Direct Useful
classroomintegration integration classroom
Border Echo Reverb Masked
Sections Sections 1/16”=1’ 1/16”=1’
ons 1/16”=1’ ns 1/16”=1’
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Plans
underground level 1/16”=1’
ground level 1/16”=1’
2nd level 1/16”=1’
Concept y
x
cut and fold
roof
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lementary School. Grand Ave & 12th St. Los Angeles
This project focused on designing and urban elementary school in the middle of downtown,Just three blocks from the Staples Center. Challenges given other than solving program, design, and context issues, there was also an Unforld Elementary School. Grand Ave & 12th St. Los Angeles emphasis with codes and environmental controls in this studio. My concept is folded planes. As opposed to taking This project focused on designing and urban elementary school in the middle of downtown,Just three blocks from one way of approaching a problem, my students would “learn by doing”. They would be encouraged to find a soluthe Staples Center. Challenges given other than solving program, design, and context issues, there was also an tion in many ways as a point would have more than one axis of following emphasis in a foldedwith plane than a environmental flat one. codes and controls in this studio. My concept is folded planes. As opposed to taking
one way of approaching a problem, my students would “learn by doing”. They would be encouraged to find a solution in many ways as a point would have more than one axis of following in a folded plane than a flat one.
ections 1/16”=1’ 29
TERRA CRESCO
Suicidal Prevention Rehabilitation Center Palm Springs, CA | Aquacaliente Tribal Land Enterprise Spring 2012. ARC 495 Senior Thesis Prof. Axel Smitzberger
Terra Cresco is a rehab center for the mentaly ill patients whom are in high risk of or therefore have attempted to commit suicide. This issue is central to native americans whom have a high suicidal rate in their community. This could be due to their environment and health. Their historical isolation can be argued to contribute to their well being today. Architecture cannot solve all of today’s social issues. However, it can serve as a backdrop to the social concerns. Prevention and rehab facilities are available, but many lack funding or are too far for the means of transportation. Although, there are 24 hour help hotlines, Native Americans are reluctant to talk to anyone who is non-native. History has contributed much to the stresses of the Indians. Thus, many are unable get the treatment they need and continue the abusive cycle of drugs and alcoholism. Therefore, I this new prototype uses sport as a catalyst for suicidal prevention methods. There have been many evolutionary trends of rehab center and sports in history. This
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new prototype will present a new evolution of these two institutions and fuse them. The Suicidal Prevention Rehab Center will hope to be a place where teenagers and adults can reach out for help. By it being run or staffed by other Native Americans, the center anticipates patients to be more willing to accept help and speak out that they need help before it is too late. This center will not be inclusive to just Native Americans in a reservation, but it will welcome anyone who needs help as well. The approach for healing will relate to perhaps Native American holistic approaches, and other evidence based treatments.
SITE PLAN LAN
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STRUCTURAL COMPONENTS OF AGGREGATES STUDY: Aggregates are formed not through the connection of elements with joints or a binding matrix,but through the loose accumulation of separate elements. Aggregates have load-bearing behaviour, particular mass distribution, spatial organisation, surface textures and strong granular thresholds. the first study focused on accumulation of accregates. They were able to form a geometry while structurally stable. For my design, this approach shall be an extension of the current topography. Differences between void and fill can help create different types of enclosures and openings. This plays in part with a rehab center in order to take advantage of open spaces, and being exposed to nature.
Shotecrete Construction - Provides Thermal Mass - Flyash Concrete Mixture Recycled Rebar
- Framing for shotcrete
Window
- Allows natural daylighting - Metal Framing
The form can play a great deal as a structural component. Between building and landcape starts to become more vague, thus incorporating architecture into the landscape. For the design, certain control must be maintained. Hierarchies between programs , green spaces, and landcape can be accoplished.
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L
1
2
3
4
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6
7
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B
15 DN
DN
17
-5’-0”
ENTRANCE
2
6 6
16
3
-5'-0"
ENTRANCE
8
A
5 4
16
1 9
9
6
12
5
-10'-0" DN
12
DN
-5'-0"
12
12
9
POOL
10
-25-0"
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1. ADMINISTRATIVE 2. CLINIC 3. DINING/KITCHEN 4. VEG. GARDEN 5. BEDROOMS 6. BATHROOMS 7. LAUNDRY 8. COMMON ROOM 9. COUNSEL ROOM 10. LOCKERS 11. GYM 12. MULTIPURPOSE ROOM 13. STORAGE 14. LANDSCAPE 15. HEALING GARDEN 16. COURTYARD 17. MULTI RECREATIONAL AREA
DN
DN
10
DN
35
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Topographic Studies
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Topographic Studies
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Topographic Studies
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-
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