KARLA BUQUET
portfolio | architecture
CONTENTS
01
vital rebirth
undergraduate
02
natural osmosis graduate
03
don o’rouke professional
04
study abroad
paris
05
06
master’s project
professional
tejido urbano the george hotel
01 VITAL REBIRTH
UNDERGRADUATE | COLLABORATIVE The rapid growth of Lima,Peru has caused a severe water pollution problem and deficiency.This bioremidiation linear water park commemorates the water purification process through a series of spaces that magnify the process and allow the inhabitants to enjoy nature.The location of the project is on undeveloped land along the river before the city’s main water plant and at the edge of the inner slum of Lima, Peru. The park also serves as a transitional boundary, emphasizing the importance of preserving undeveloped land. Recipients of Sustainable Design Award “ 2011 Cazayoux Award”. Participants of the 2011 International Federation of Landscape Architects Competition.
02
park perspective| wet season 03
remediation plant chart
form | 2012
82
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removes lead
switch | 2013
chara globularis
removes cadium and zinc
plan key low level contamination tank medium level contamination tank high level contamination tank farmland- economic acsess clensing wetland
rebirth | 2014
open landscape experiencal obsevation deck cultural interaction pond hyacinth growing pond human pathway filtertion canals waru waru irrigation system trees- positive transitional element urban boundary urban slums
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bioremidiation overview 1.1 First tank in the remediation process. This tank holds water that is highly contaminated with heavy metals and organic matter. Algae and water hyacinth are used to collect the contaminants from the water, these have to be regularly cleaned out and disposed of in a contained land fill. Then the water is pumped to tank 2.
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1.3 Third tank in the remediation process. This tank holds water that has very low levels of contamination by heavy metals and organic matter. Algae and water hyacinth are used to collect the contaminants from the water. Then the water is pumped to tank 2. The algae from this tank can be harvested and used for biofuel production. The revenue from the biofuel will help fund the upkeep of the park facilities.
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1.2 Second tank in the remediation process. This tank holds water that is slightly contaminate wit heavy metals and organic matter. Algae and water hyacinth are used to collect the contaminants from the water, these have to be regularly cleaned out and disposed of in a contained land fill. Then the water is pumped to tank 3.
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bioremidiation tank’s cycle growth Algae grows on the screens and begin to decontaminate the water by collecting and storing the heavy metal contaminants.
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seeding Clean turf scrubber screens are installed to the remediation tanks.
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biofuel
...repeat the cycle again 05
recreational area | 2013 | section B 2.1 re-channeling the Rimac river into the propose park is intended to cleanse the current water thru the process of bioremidiation. 82
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recreational area | 2014 | section B 2.2 over time the park becomes more vibrant with the plants continuing to cleanse the river.
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2.3 the plants only need to provide minimal remediation as the park continues to grow and flourish. The purity of the landscape becomes the perfect escape for the dense urban city.
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buoyant bridge | dry season | section C
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arsenic
buoyant bridge | wet season| section C 07
02 NATURAL OSMOSIS GRADUATE | COLLABORATIVE
The client for this project was The Nature Conservancy. We were challenge to design a field house at Bayou Sorrel in the Atchafalaya Basin. The intent for this facility is to house researchers as well as investors for the basin program. After analysing the mission of The Nature Conservancy Alie Perrodin and I developed a group of key terms that we believe best described the client and the project__ MITIGATION, ADAPTATION, and TRANSFORMATION, allowing them to become the main drivers of our design. The intent of our design was to encourage a dynamic development utilizing sustainable technologies, which promotes an ecological balance, energy production, and continuing education for people who visit the site. The architecture is intended to be in harmony with its surroundings and make reference to the history of the place, as well as create added value with the design.
design overview
Our design was derived by local building typologies. The dog-trot became the centralized spine of the field house separating the private and public spaces. Due to its north south orientation it also helped with passive ventilation. The materiality of the house was inspired by the swampy marshland of the site. The house is composed of two major skinning systems which can be adjusted to the climate and the user’s needs. Throughout the design we implemented strategies that allowed this design to MITIGATE, ADAPT, and TRANSFORM in order for the architecture to coexist with in the landscape.
MITIGATION ADAPTATION the process of becoming the process of becoming milder, milder,gentler, gentler,or or less less severe severe
non non confrontaitional confrontaitional pragmatic pragmatic
sensitive sensitive to to ecology ecology site site specific specific
the the state state of of being being adapted; adapted;adjustment adjustment
inovative inovative
macro/micro macro/micro climate climate
TRANSFORMATION change change in in form, form, appearance, appearance, nature, nature, or or character character
open/ open/ transperent transperent pracmatic/operative pracmatic/operative
reorganization reorganization
flood flood diversity diversity circulation circulation circulation
shift shift shift
com common monss com mon s rotate rotate rotate
dog trot interior closed | conditioned
10
dog trot exterior closed | semi-conditioned
bayou sorrel
dog trot interior open | unconditioned
dog trot exterior open | unconditioned
A
B
C
D
20'-0"
20'-0"
5'-0"
1
20'-0"
65'-0" C/C
9'-6" 9'-6"
6"
storage 9'- 4"
9’- 9” 9'-6"
bedroom
9"
battery
4'- 5”
3
20'
9'-6"
9'-6" 9'- 9"
24'-10"
12'- 5"
bath
4'- 6“
20'
beroom/ office
4'- 6 "
13'- 3"
14'-7"
4'-6"
5’- 0”
mud room
dog trot
9'-6"
4'-6"
beroom/ office
12'-1"
11'-8 27/64" 113"
7'- 8"
9"
13'-3"
10’- 0”
5'-5”
9'-6" 9'-6"
kitchen
media room 20’-0”
2
35’-0” O/C
5'- 9”
bedroom
bath
11'- 3”
15’-0”
wet lab
N
floor plan not to scale
12
2
1
3
15’-0”
A
B 20'-0"
12
12
D
20'-0"
2
TOR 40'-0"
3
15’-0”
TOR 40'-0"
20’-0”
metal standing seam roof 7
12
TOR 40'-0"
7
12
pv panels
33
metal siding
polygal wall metal siding
[ with mosquito screen lining ]
wood louvre screen
polygal wall
1
5'-0"
slope 7:12
5'-0"
slope 7:12
wood louvre screen
20'-0"
polygal roof
1
pv20'-0" panels
polygal roof
D
20'-0"
metal standing seam roof
TOR 40'-0"
C
7
C
B 20'-0"
20’-0”
metal standing seam roof 7
metal standing seam roof
A
A
1
A
metal siding
1
wood louvre screen1ST 20'-0"
[ with mosquito screen lining ]
wood louvre screen
A
1
A
[ with mosquito screen lining ]
1
B
33
B
ada ramp [ slope 1:12 ]
metal siding
1ST 20'-0"
[ with mosquito screen lining ]
1
B
B
ada ramp [ slope 1:12 ]
1ST 20'-0"
1ST 20'-0"
ada ramp [ slope 1:12 ] TOF 10'-0"
ada ramp [ slope 1:12 ]
TOF 10'-0"
WEST ELEVATION BUILDING FACADE SCALE: 1/8" =
1'-0" TOF 10'-0"
south elevation D
C
A BUILDING FACADE SOUTH ELEVATION B SCALE: 1/8" =
6'
20'-0" metal standing seam roof
20'-0" polygal roof
3
2
20’-0”
7
polygal wall
2
2
20’-0”
1'-0"
20'-0" slope 7:12
15’-0”
TOR 40'-0"
1
D
metal standing seam roof 12
pv panels
2
12
3
TOF 10'-0" SOUTH ELEVATION BUILDING FACADE SCALE: 1/8" = 1'-0" west elevation WEST ELEVATION BUILDING FACADE
TOR 40'-0"
C
6'
7
12
SCALE: 1/8" =
1'-0"
metal standing seam roof
B
pv panels
20'-0" metal standing seam roof
1
15’-0”
12
TOR 40'-0"
A
7
20'-0" polygal roof
20'-0" slope 7:12
TOR 40'-0"
7 metal siding
2
wood louvre screen
metal siding
wood louvre screen
[ with mosquito screen lining ]
[ with mosquito screen lining ]
2
2
A
A
2
B
wood louvre screen
2
metal siding B
polygal wall
2 B
B
metal siding
2
wood louvre screen [ with 1STmosquito 20'-0" screen lining ]
[ with mosquito screen lining ]
1ST 20'-0"
2
2 B
A
B
B
A
2
B
ada ramp [ slope 1:12 ] 1ST 20'-0"
1ST 20'-0"
ada ramp [ slope 1:12 ]
ada ramp [ slope 1:12 ]
ada ramp [ slope 1:12 ]
TOF 10'-0"
TOF 10'-0"
north elevation NORTH ELEVATION BUILDING FACADE TOF 10'-0" SCALE: 1/8" =
1'-0"
east elevation TOF 10'-0"
13
03 KAPLAN CITY COURTHOUSE
DON O’ROURKE & ASSOCIATES | PROFESSIONAL The Kaplan City Court House was an adaptive reuse project. My participation in this project was during the pre-design and schematic design phases of the project. I assisted with the development of as-built drawings, schematic design, construction documents, renderings and charette packages. The most fulfilling experience during this project was being able to present to the city of Kaplan in a public charette.
14
west entrance| proposal B 15
15'
15'-9"
3'-9"
20'
4'
7'-8"
10'-7"
14'-3"
3'
17'-3"
floor plan | proposal B
east elevation | proposal B 4
floor plan - proposal "b" SCALE 1/8" = 1'-0"
north elevation - proposal SCALE 1/8" = 1'-0"
SCALE 1/8" = 1'-0"
37'-1" north elevation - proposal 22" 17'
north elevation | proposal B
SCALE 1/8" = 1'-0"
4'
1'
8'-11"
1'
13'-8"
12'
10'-6"
15'-5"
17'
65'-7"
6'
10'-7"
36'-9"
20'
25'-8"
9'-9"
28'-9"
11'-6"
3
18'
south elevation - proposal
37'-1"
104'-1"
17'
106'-1"
10'-7"
3
1'
south elevation - proposal
104'-1" 106'-1"
10'-9"
10'-9"
9'-9"
south elevation | proposal B
16
1'
8'-11"
1'
13'-8"
12' 25'-8"
15'-5"
1'
SCALE 1/8" = 1'-0"
10'-9"
10'-9"
SCALE 1/8" = 1'-0"
to wilkins stroud building
37'-1"
6'
1'
8'-11"
1'
13'-8"
12'
SCALE 1/8" = 1'-0" 25'-8"
ilkins stroud building
3'
4
10'-7"
SCALE 1/8" = 1'-0"
plan court house
5'
9'-9"
18'
6'
floor plan - proposal "2" 2'
north elevation - proposal
9'-4"
1
11'-11"
N
16'-2"
15'-5"
4
4
SCALE 1/8" = 1'-0"
plan, louisiana
4
10'-7"
'-0"
10'
10'-7"
1
13'-9"
12'-5" 53'-2"
16'-2"
"
12'-6"
16'-2"
N
12'-6"
35'-1"
east entrance| proposal 1
west entrance| proposal A
east entrance| proposal 2 17
04 STUDY ABROAD GRADUATE | PARIS
Paris is the home for e avant-garde movement and it is filled with wonders. It is a place that constantly sparks curiosity and inspiration. Learning about Pantheon, Maison La Roche, the Arab Institute, the Pompidu, and the Brantley museum, as well as Haussmann’s re-planning of the city would not have been the same without experiencing them first hand. Actively analyzing the city through sketching allowed me to be more in-tune with the city. This experience was educational in many ways. I now have a better appreciation for Gothic and modern architecture. During this six weeks not only did I mature as a designer, but also as a citizen of the world.
18
palais garnier| beaux arts | 1875 19
palais garnier| beaux arts | 1875
20
maison la roche| modern | 1925
pavillion suisse| modern | 1930
villa savoye| international | 1931
pompidou| postmodern | 1977
musee du quai branly| contemp| 2006
21
05 TEJIDO URBANO MASTER’S PROJECT | VENEZUELA
The fragmentation of political entities within Venezuela has hindered the development of social and economic forces to such a degree that the fragmentation has created a disconnect within Merida’s urban fabric and its inhabitants. Developing an architectural response that acts at the human, urban, and social scale has the potential to rehabilitate the relationship between the city and its occupants, as well as promoting the improvement for the inhabitant’s life opportunities. Merida is a valley city with not much area to expand. It is approximately twenty-three square miles with a population of 237,575 habitants. The city is the main hub for twenty-three municipalities, all which are mostly rural. The urge for rural individuals to live a more urban life has created a disturbance in the already saturated infrastructure of the city. SOCIAL FORCES + NATURAL FORCES + ECONOMIC FORCES = ARCHITECTURE 22
section A 23
The intent of this project was to develop cohesion within the urban fabric of Mérida Venezuela, as well as a proactive response to the rural/urban migration patterns. The reintegration of the 3,660,000 square foot airport runway back into the city’s urban fabric was the primary move−thus creating the master plan. This master plan reincorporates thirty-one new city blocks all surrounding a linear park, which serves as the main organizer. The new city blocks average in size between 200’ by 400’. Vehicular access has been limited to five points in order to emphasize the hierarchy of the pedestrian. There are five junctions where the stitch meets the light rail; these junctions create nodal points throughout the master plan. Adjacent blocks to each nodal point become crucial unifying seams. The coupling of programs is introduced in order to seek cohesion on an economic and social scale. As a reaction, a series of key moves were developed: STITCH creates a connection to the existing city grid through a series of green spaces and pedestrian ways. The connection reinforces cohesion at an urban and economic scale.
UNIFY introduces multiple programs that overlap with the primary green spaces. This move allows for the significance of green spaces to be dominant for the users. The programs reinforce cohesion at an economic and social scale.
24
ACTIVATE is the outcome from both previous moves. It reinforces cohesion at a social scale by creating a sense of community.
proposed catalyst block
N
master plan not to scale
25
19 x3 1/8" = 4'-8 3/8"
4'-0"
-12'
-14'
B
-16' 19 x 3 1/8" = 4'-8 3/8"
8'-0"
-18'
-20'
-22'
-24' 5'-0"
-5'-0"
10'-0"
UP
DOWN
UP
A 11'-5"
C
11'-0" 8
7
6
5
2
8 x 7" = 4'-8"
4
3
1
27
2
3
27 x 5 21/64" = 12'-0"
1 26
25
24 4 23 5 22 6
1
3
27 x 5 5/16" = 12'
21
2
7 20 8 19 9
4
18 10 17
M
8
11 7
16 12
6 15 5
13
F F
I
E SCALE: 1/16" =
1'-0"
1 9 x 6 43/64" = 5'-0"
1
4
3
5
14 2
1
D
F
2
3
4
5
0"
6
7
8
9
5
4
F
30 x 6" = 15'-0"
BASEMENT @ -24'-0" FFE
8 x 7" = 4'-8"
4
3
2
30 x 6" = 15'-0"
3
2
1
G
I
H
J
K
L
5
DR
30 x 6" = 15'-0"
4
3
2
W
1
N
C
basement | -24’ FFE
B
A N
light rail
1st FLOOR @ 0'-0" FFE SCALE: 1/16" =
26
1'-0"
plan key
DOWN
BASEMENT | -24’FFE 2,340 A agriculture classroom B farmland
UP
11'-5"
8
7
6
5
8 x 7" = 4'-8"
4
3
2
1
14'-9" 8
7
6
5
8 x 7" = 4'-8"
4
3
2
1
4
8
7
3
5
2
9
6
11
13
12
10
14
1
30 x 6" = 15'-0"
15
15 30
29
28
27
26
16
25
24
22
21
20
19
18
17
23
N
16 14 17
15'
13 18 12 19 11 20 10 21 9 22 8 23 7 24 6 25 5 26 4
28
30 x 6" = 15'-0"
27 3
2
29 1 30
P
O
L
Q
P
P
Q
15
K
P
16 14 17 13 18 12 19 11 20 10 21 9 22 8 23 7
Q
Q
24 6 25 5 26 4
28
30 x 6" = 15'-0"
27 3
2
29 1 30
N
floor 1| 0’FFE
2nd FLOOR@ 15'-0" FFE SCALE: 1/16" =
1'-0"
floor 2 | 15’ FFE not to scale
FLOOR 1 | 0’FFE C green house D fire stair E elevator F wood shop G sewing shop H lecture hall I court yard J cosmetology classroom K administration L bike rental M cafeteria
24,580
FLOOR 2 | 15’FFE N playground O nursery P petite court yard Q classroom
11,060
37,980 sqft 27
architecture overview The quality of life in Merida has been compromised by the quantity of poor development restrictions that has taken place in the city. MĂŠrida has become a central educational and tourist core for Venezuela. The architecture should begin to respond in a way that embraces such aspects. By studying the relationship between the natural and built fabric I hope to develop an understanding of what is best suited for the city. It is important to keep in mind that a single intervention will not be enough to create a strong response that will change the course of the current urban city morphology. ARCHITECTURE
with in
on
LANDSCAPE
under
green space = primary stitch
pedestrian way = secondary stitch
28
beside
section B
section C
29
A direct relationship between the landscape and the built environment has been created. Architecture is not intruding on the landscape, as it serve to explain it. The landscape creates moments that further emphasize the experience of the place. Both the architecture and landscape act as expression that promotes social, economic and natural forces. The agricultural classroom exposes natural systems to connecting the students and inhabitants back to nature. Thus introducing a socio-ecological set piece.
30
view to agricultural classroom
31
06 THE GEORGE HOTEL PROFESSIONAL | KIRKSEY ARCHITECTURE
Kirksey served as the Architect of Record on The George Hotel in College Station, Texas, with Munoz + Albin as the designer. The George is 110,000-sf, wood frame hotel with a masonry veneer. The facility includes a 3,000-sf lobby, 6,000-sf bar/restaurant, 1,600-sf conference/meeting space, and back of house service area of 5,000-sf. This boutique hotel by the Valencia Group is located in the north end of Century Square, a mixed-use development by Midway, and is oriented around a vibrant central plaza. LOCATION College Station, Texas SIZE 110,000 sf PROJECT FEATURES 161 key hotel Restaurant Meeting rooms Lobby Bar 32 * Photos and drawings courtesy of Kirksey Architecure.
33
west elevation
east wing elevation
north elevation 34
courtyard 35
whiskey bar
36
first floor restrooms
elevator lobby
typical king room
37
pool | pavilion 38
R1
LIGHTING CONSULTANT
KUDELA & WEINHEIMER
1'-6"
LANDSCAPE ARCHITECT C
EL. 16'-6" TOP OF PARAPET
MANUFACTURED COPING, PREFINISHED ALUMINUM077100
STRUCTURAL STEEL (MF-2) 051200 EL. 15'-0" TOP OF PARAPET
EL. 18'-0" TOP OF PARAPET
EL. 15'-0" ROOF
1'-6 5/8"
MANUFACTURED COPING, PREFINISHED ALUMINUM- 077100
WOOD STUD FRAMING TYP. EL. 15'-0" MAIN ROOFR ED JA S
ON
ARC
C . S T. JU
LI
HI
AN
REG
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TE
RUN ROOFING MEMBRANE UP WALL .
MANUFACTURED COPING, PREFINISHED ALUMINUM077100
CT TE
MANUFACTURED COPING, PREFINISHED ALUMINUM077100
GLASS-FIBER BLANKET INSULATION- 072100
MINOUS OOFING
AT
C3/A5.20 SIM.
NO. MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
EEL (MF-
DATE
NO.
ROOF INSULATION- 075423
EL. 11'-1/2" MEZZ. ROOF
INOUS OFING
COVER BOARD- 075423
LOUVER BLANK OFF PANEL
N- 075423
SCHEDULED STRUCTURAL WOOD TRUSS
75423
LOUVER- 089000
FLUSH BEAM
EL. 11'-1/2" MEZZ. ROOF
EL. 11'-1/2" MEZZ ROOF
ROOF INSULATION- 075423
WOOD BLOCKING- 061000
WOOD BLOCKING- 061000
WOOD STUD FRAMING
B
CONSTR
MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
ROOF INSULATION- 075423
FLUSH BEAM
ISSUE
EL. 12'-8" MEZZ ROOF
MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
CONSTRUCTION DOCUMENTS
DATE
EL. 13'-6" LOUVER PARAPET
ISSUE
CD 28 AUG 2015
EL. 11'-1/2" MEZZ ROOF
JA S
EL. 15'-0" MAIN ROOF
CD 28 AUG 2015
MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
SLOPE DOWN 1/4" PER FT.
31 AUGUST 2015
ALL .
ANKET 100
EL. 13'-6" TOP OF PARAPET
E O F TE X
EL. 12'-8" MEZZ ROOF
GLASS-FIBER BLANKET INSULATION072100
MING TYP. BRANE
AS
ST
EL. 13'-6" LOUVER PARAPET
N- 075423
G- 061000
23291
1
31 AUGUST
GLASS-FIBER BLANKET INSULATION072100 MANUFACTURED COPING, PREFINISHED ALUMINUM077100
STRUCTURAL STEEL (MF2) 051200 MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
23
ST
WOOD BLOCKING- 061000
C3/A5.20 SIM.
UL
ON
A T SLOPE2 9DOW E1/4"OPER T F FT
ROOF INSULATION- 075423
SLOPE DOWN 1/4" PER FT.
SLOPE DOWN 1/4" PER FT.
STRUCTURAL STEEL (MF-2) 051200 EL. 15'-0" ROOF
RED AR TE C . ST. J
MODIFIED BITUMINOUS MEMBRANE ROOFING SYSTEM- 075216
C
WOOD STUD FRAMING
COPING, UMINUM-
C
SLOPE DOWN 1/4" PER FT.
IS
5'-1 1/2"
3 1/2"
2'-3 3/4"
MANUFACTURED COPING, PREFINISHED ALUMINUM- 077100
WOOD STUD FRAMING
EL. 18'-0" TOP OF PARAPET
R1 1/2"
EL. 16'-6" TOP OF PARAPET
1'-6 5/8"
REG
1'-6"
FOOD SERVICE
EL. 18'-0" TOP OF PARAPET
EL. 15'-0" TOP OF PARAPET
COL
C&T DESIGN AND EQUIPMENT CO., INC
MANUFACTURED COPING, PREFINISHED ALUMINUM077100
1/2"
5'-1 1/2"
BEARING PLATE
LOUVER BLANK OFF PANEL
STRUCTURAL STEEL (MF2) 051200
SCHEDULED STRUCTURAL WOOD TRUSS
B
EXTERIOR
INTERIOR
LOUVER- 089000
SCHED. STRUCTURAL WOOD JOIST
WOOD STUD FRAMING
COLUMN BEYOND
B GYPSUM BOARD 092900
EEL (MF-
PROJECT NAME EXTERIOR
LIMESTONE (DSC-1)
INTERIOR
ALUMINUM CURTAIN WALL084413
THE GEORGE HO ALUMINUM CURTAIN WALL084413 ALUMINUM CURTAIN WALL084413
GLASS-FIBER BLANKET INSULATION072100
PROJECT ADDRESS
COLUMN BEYOND
500 CENTURY CO COLLEGE STATIO
GLASS-FIBER BLANKET INSULATION072100 8'-2"
8'-2"
LATION092900
PROJECT NAME
THE GEORGE HOTEL CAST-IN-PLACE CONCRETE- RE: STRUCT.
FLUID-APPLIED MEMBRANE AIR BARRIER- 072726 METAL WALL PANELS-(METAFOR MFP 120 PROFILE WITH PAC-CLAD "SLATE PROJECT ADDRESS GREY" COATING) (MWP-1) 074213
WOOD-PRESERVATIVE-TREATED LUMBER- 061000
CAST-IN-PLACE CONCRETE- RE: STRUCT.
TED
CAST-IN-PLACE CONCRETE- RE: STRUCT. EL. 0'-0"
R-
POR RE: STRUCT.
POOL
ECTION @ NORTH ELEVATION
500 CENTURY COURT COLLEGE STATION, TX 77840
EL. 0'-0" LEVEL1
CAST-IN-PLACE CONCRETE- RE: STRUCT.
1'-0"
2014197
EL. 0'-0" LEVEL 1
EL. 0'-0" LEVEL 1
EL. 0'-0" LEVEL1
1'-0"
KEY PLAN POOL
SHEET TITLE 1'-0"
UNDER SLAB VAPOR BARRIER072600
UNDER SLAB VAPOR BARRIER072600
CAST-IN-PLACE CONCRETE- RE: STRUCT.
Wall Sections
CAST-IN-PLACE CONCRETE- RE: STRUCT.
A
SHEET NUMBER SHEET TITLE
SCALE: 3/4" = ELEVATION 1'-0" SCALE: 3/4" = 1'-0" A2 RESTAURANT WALL SECTION @ SOUTH 3
1'-0"
KEY PLAN
A KIRKSEY PROJECT NO.
EL. 0'-0" LEVEL 1
Wall Sections SECTION @ PAVILION METAL WALL SCALE: 3/4" = 1'-0" A3 1
SHEET NUMBER
SCALE: 3/4" =
CAST-IN-PLACE CONCRETE- RE: STRUCT.
A
2
A4
WATER
UNDER SLAB VAPOR BARRIER- 072600
1'-0"
STRUCT.
A3/A5.20 SIM.
WOOD-PRESERVATIVE-TREATED LUMBER- 061000
EL. 0'-0" LEVEL 1
WATER
KIRKSEY PROJECT NO.
EL. 0'-0"
1'-0"
A3/A5.20 SIM.
2014197_George Hotel [Bimserver2] | 10/5/2015 | 5:39 PM
ALUMINUM CURTAIN WALL084413
1'-0"
FLUID-APPLIED MEMBRANE AIR BARRIER- 072726
AIR
wall section @ pool A4.26 PAVILION WALL SECTION AT POOL edge A5 5
SCALE: =WALL 1'-0" SECTION SCALE: 3/4" = PAVILION 1'-0" A1 RESTAURANT @ NORTH ELEVATION WALL SECTIONWALL @ SOUTH ELEVATION 3/4" = 1'-0" A2 RESTAURANT WALL3/4"SECTION @ PAVILION A4 SCALE: SECTION AT POOL A3A5 4
2
wall section @ pavilion
5
3
A4.26
SCALE: 3/4" =
1'-0"
© 2015 Kirksey
wall section @ glazing and screen
© 2015 Kirksey
39
THANK YOU
kcbuquet@gmail.com