A N N E T T E
V E L I Z
PROFESSIONAL WORK H U A W E I T S I N G H U A
C H A N G G E N G
H O S P I T A L S K
M A S H A N
I R C
H Y N I X
H E A L T H
T O W N
UNDERGRADUATE WORK T H E
A R T E R I A L
L U M I N O U S
P L A N E
P O C K E T S
L O U D W A T E R
C I T Y
J O U R N E Y
EXTERIOR RENDERED IN LUMION
H U A W E I
I R C
Observing wafer chip manufacturing through void space. The office component is connected to the fabrication clean lab through an atrium, creating control observation points into the R&D labs, part of the clean lab program. Brian Kowalchuk, Director of Design Thomas Smith, Director of EST Michael Andrewski, Landscape Designer Damian Wentzel, Architectural Coordinator
01 SAWSTON, UK
3.8
OPTIONS AND STUDIES
MODELS
03.140
UK IRC Fab Construction Project | Section 03 | Architecture
03.142
EXPLORATION OF OPTIONS IN VARIOUS MEDIUMS.
FAB DETAIL SECTION-ELEVATION
OFFICE DETAIL SECTION-ELEVATION
Metal Coping Green Roof Integration Metal Louver
Terracotta Cornice Aluminum Curtainwall
Aluminum Curtainwall (Type 3)
Terracotta Sill Aluminum Curtainwall
Operable Window Terra Cotta Sill
Metal Panel (Type 1)
Stone (Type 1) Terra Cotta Pier (Beyond) Operable Window
FAB-DETAIL SECTION-ELEVATION
OFFICE-DETAIL SECTION-ELEVATION
3.5.3 ELEVATIONS 03.116
SOUTH ELEVATION
SOUTH ELEVATION
03.112
E N V E LO P E E L E VAT I O N A N D S E C T I O N S T U D I E S F O R FA B B U I L D I N G A N D O F F I C E
- TOP
SOUTH ELEVATION - BOTTOM
EXTERIOR rendering BY BeStar Creations 3D MODELED IN RHINO AND CONTEXT IN SKETCHUP
T S I N G H U A H O S P I T A L
C H A G G E N G
This was a winning competition for a 500 bed Hospital. We were inspired to create a court between the existing hospital and the new addition. Within the court there will be a representation of the“centers of excellence� the diferent hospitals within. An elevated connector wrapping along the court will tie the new phase 2 hospital with the existing phase 1 hospital. Thomas Smith, Director of EST Jeremy Wei, Architect James Burton, Senior Architectural Designer Damian Wentzel, Architectural Coordinator Professional rendering by BeStar Creations
02 BEIJING, CHINA
PUBLIC
规划的功能性与高效性
卓越服务
FUNCTIONAL AND EFFICIENT FUNCTIONAL AND EFFICIENT
CENTERS OF EXCELLENCE CENTERS OF EXCELLENCE
规划的功能性与高效性 • • • • •
卓越服务 • • • •
精益设计手法,增加医务人员与患者的互动时间 标准化科室单元与病房 灵活性与可调整性 连接新老建筑的合理流线 洁/污流线完全分开
场所感
“院中院” 借助高科技和智慧标识系统,毫无困难地找到目的地 公共用房与门户 强烈的个性,专用通道,但又与整体相融
Centers Of Excellence
Functional and Efficient Planning
• • • •
• • • •
Lean design methods to increase staff time with patient Standardization of units and patient rooms Flexible and adaptable Well-designed circulation paths connect the existing building to the new building • Complete segregation of clean and dirty material streams
“Hospital within a Hospital” Ease of way finding using technology and smart signage Public rooms and portals-of-entry for navigation Centers of Excellence have strong identities and dedicated access but are integrated into the whole
04
05
03
02
01
06
SITE PL AN - 1. IMPATIENT CARE, 2. DI AGNOSTICS & TESTING, 3. ADMINISTRATION, 4. PHASE I HOSPITAL, 5. CANTEEN, 6. RESEARCH
• • • •
建筑互连,即时污 环境温馨 迎合患者及其家属 “前|后台”设计互
Sense of Place • • • •
Connected buildin Warm and welcom Supportive of pati “On-stage | off-st
N
W
场所感 场所感
场所感 • • • •
场所感
Sense of PlaceSense of Place
设备系统 • Connected buildings • Connected with point-of-care buildings with service point-of-care service FUNCTION SPECIFIC MECHANICAL SYSTEMS
d smart signage • Warm and welcoming • Warmenvironment and welcoming environment vigation • Supportive of patients • Supportive and their of patients families’ and needs their families’ needs ed tiesaccess and dedicated but are access but • “On-stage are | off-stage” • “On-stage design | off-stage” provides respite design provides respite
房间小进深易于自然采光 NARROW, NATURALLY LIT FLOORPLATE
E
S
HEALTHY ENVIRONMENTS
HEALTHY ENVIRONMENT HEALTHY ENVIRONMENT
健康环境
建筑互连,即时污物 • 建筑互连,即时污物 环境温馨 • 环境温馨 迎合患者及其家属需求 • 迎合患者及其家属需求 “前|后台”设计互不干扰 • “前|后台”设计互不干扰
25
健康环境 健康环境
SENSE OF PLACE SENSE OF PLACE SENSE OF PLACE
CELLENCE
地找到目的地
E
W
S
服务
25
N
• • • • •
健康环境
自然采光 • 自然采光 都市中的绿洲 • 都市中的绿洲 空中花园 • 空中花园 设计灵感源于自然 • 设计灵感源于自然 可持续设计 • 可持续设计
Healthy Environment Healthy Environment • • • • •
Access to daylight • Access to daylight A green oasis within • A green the city oasis within the city Healing roof gardens • Healing roof gardens Inspired by nature • Inspired by nature Sustainable design • Sustainable design N
65 高性能建筑幕墙 HIGH PERFORMANCE BUILDING SKIN
LED 照明系统 LED LIGHTING SYSTEMS
节水龙头 LOW FLOW FIXTURES
屋顶绿化 GREEN ROOF 竖向百叶 VERTICAL SHADING
自然通风 NATURAL VENTILATION
蒸发制冷 EVAPORATIVE COOLING
下沉采光花园 SUNKEN LIGHT GARDEN 雨水/水蒸气冷凝再利用 RAINWATER /CONDENSATE REUSE
冷凝水回收 CONDENSATE WATER RECLAMATION
CONCEPT SKETCHES - TOP SUSTAINABILITY SECTION , RENDERED IN AMBIENT OCCLUSION - BOTTOM
ow for effective specialty utilization odality care units. As an alternative, be collocated onto one floor but this and result in a reduction in the quality
77 住院病房 INPATIENT WARD
nits are located adjacent to the relevant to maximize patient safety. Each ICU atient rooms. The Transplant ICU and ollocated with their adjacent medical / mponent as the length of stay for these longer than average. This provides TCH with varying census as well as y trained staff to stay on the floor. VIP
住院病房
organized with a central nurse station INPATIENT WARD ess to utility rooms, a medication room, IMPATIENT WARD gistics system for quickly sending
服务
VIP SUITES
SERVICE
als from the pharmacy, lab, and other
atient rooms are located on the south aximize natural southern daylight. s share a central core with dedicated patients, staff and service goods. Staff y utilize the north corridor and visitors m the south corridor. A central family VIP ed on the south side of the building.
病人
tage and off-stage” concept is used throughout 服务 ng ofwith theflexible Phase 1 hospital as well as in the designed and adaptable SERVICE which can be inter-changeable, n to the existing hospital. Wherever possible, move-in but could also accommodate uld that be necessary in the future. and services are separated from the n will staff allow TCH to potentially increase 人for ional 100 inpatient beds NT 家属区 atient and public corridors. The clinics feature FAMILY d exam rooms to maximize clinical staff efficiency 流线 ursing units include CIRCULATION dedicated service corridors to ecessary noises away from patient areas to reduce SOUTH d enhance the patients’ overall well-being.
nt room is where the patient spends the majority me while hospitalized. By incorporating Evidence sign strategies the patient room can contribute to SOUTH SOUTH g the patient’s healing and prevent unnecessary ks. While there are many design features that can sitive effect on patient outcomes and family or faction, the following are the most common: PHYSICAL MODEL - BOTTOM
家属区
PATIENT
FAMILY
流线 CIRCULATION
SOUTH
m the south corridor. A central family ed on the south side of the building.
流线
VIP
designed with flexible and adaptable which can be inter-changeable, PATIENT move-in but could also accommodate uld that be necessary in the future. n will allow TCH to potentially increase 人ional 100 inpatient beds
CIRCULATION
PUBLIC
服务
SERVICE SERVICE
家属区
NT
病
FAMILY
流线 CIRCULATION SOUTH
CIRCULATION
VIEWS
PATIENT RO SOUTH
PATIENT TOILET ROOM SOUTH
SOUTH
EQUIPMENT STAGING
PATIENT ALCOVE PATIENT BED
PRIVACY CURTAIN
IMPATIENT ROOM, RENDERED IN ESCAPE - BOT TOM
PHYSICAL MODEL
S K
H Y N I X
The Core, is about creating a presence, to attract talent and network with surrounding companies. Brian Kowalchuk, Director of Design Jeremy Wei, Architect James Burton, Senior Architectural Designer Muhong Zang, Architectural Coordinator Professional rendering by ATCHAIN
03 S I L I C O N V A L L E Y, C A L I F O R N I A
Samsung Google
AMD NXP Apple
NIVIDIA
MASTER PLAN OPTIO TECHNOLOGY
TALENT
Sustainability & Program NNATURAL ATURAL
PHOTO-VOL
PHOTOVOLTA
VVENTILATION ENTIL ATION
SSOLAR O L A RPANEL PAN
KNOWLEDGE
-
COLL ABORATION SPACE
CONCEPT DIAGRAMS - LEFT
-
ONS
LT A I C AIC L RING L ERING
Option 1 – “CORE”
RRAIN A I N WATER WATER SSYSTEM YSTEM
GREEN ROOF
GREEN ROOF
GDYNAMIC LAZING
GLAZING
P OPOROUS ROUS P APAVING VING
America Headquarters
RENDERING BY AT CH AIN
22
- TOP RIGHT, SECTION - BOTTOM RIGHT
PHYSICAL MODEL
OFFICE HEADQUARTER
FUTURE
ENTRANCE
FUTURE
EXISTING
DEVELOPMENT
TO BE RENOVATED
VISITOR CENTER
DEVELOPMENT
SITE PLAN
AERIAL RENDERING BY SMILODON
M A S H A N
H E A L T H
T O W N
Connectivity? How can a low density town become walkable? Water across the site in the form of a heart beat to enhance multiple parcels and the relationship between the user, site, and buildings. Thomas Smith, Director of EST Damian Wentzel, Architectural Coordinator Rachel Park, Principal Strategic Planner Professional rendering by Smilodon
04 LISBON, PORTUGAL
SITE PLAN RENDERING BY SMILODON
RESEARCH HEALTH ‘GARDEN ‘GARDEN OF OF HEALTH’ HEALTH’ DEVELOPMENT
DISTRICS
‘GARDEN OF HEALTH’ ‘GARDEN OF HEALTH’
GARDEN OF HEALTH
DI AGRAM ILLUSTRATION
PARCEL
ASSIGNED ZONES - TOP ,
DI AGRAM ILLUSTRATING CONNECTIVE GREEN - BOTTOM.
EXTERIOR - WATERFRONT NODE
T H E
A R T E R I A L
P L A N E
Are there many Lisbons? Are they based on the individuals’ experiences and routines? Can they all merge and celebrate each other? May leisure, daily map, and street encounters live in a single combined space, attracting both the permanent dweller and the temporary visitor. Our thesis is based on a criticism to the disconnected isolated park nodes and the street as a limited escape which manipulates encounters. ARCH 503 Thesis Design/SP17 Instructor: Michael Su & Philippe Baumann Collaboration with: Elard Timana
05 LISBON, PORTUGAL
LO N G S E C T I O N / I N N E R FA B R I C T O WAT E R F R O N T - T O P , P E R F O R AT I O N S AT PA R K N O D E - B O T T O M LEF T, OPENING CIT Y UP BY TIDING SPACES/GRAPHIC M AP - BOT TOM RIGHT
DAY TO NIGHT/ EXPLODED PARK NODE - RIGHT
SKETCH MODEL The streets in most cities have become static. Streets as datums could be use for activities and open leisure spaces. This sketch model is questioning the idea of what if the street datum will expand? New public spaces could be created above and below the existing city, through the process of de-lamination. This will also begin to uncover the hidden spaces within the city and open up cultural opportunities which will provide a different overview Lisbon, Portugal.
SKETCH MODEL - LEFT
SKE TCH MODEL - TOP, SECTION THROUGH WATERFRONT NODE- CENTER, SECTION THROUGH PARK NODE - BOT TOM
EXTERIOR NIGHT VIEW - AT WATERFRONT
L U M I N O U S
P O C K E T S
How can I help you rebuilt, start over a new life, in a different culture, region, to make it you own space? Growth and cultural resiliency is based on...? We questioned what it means for a space to become activated to entice growth and cultural resiliency. We chose Lisbon, Portugal as the site because we absolutely believe that in itself is an empty capital. Facing critical issues such as declining population (aging) and structure deterioration. So.. lets invite different cultures over to stay, this is the activating solution. Nonetheless it isn’t perfect! Why would a different culture leave home and settle in Lisbon. Refugees need a place, still it isn’t perfect. How do they provide for themselves, our proposal does! It is a moving structure, housing culture. COME... COME... TAKE THIS BOX, IT COMES WITH INSTRUCTIONS! URBAN SOS hOUR CITY, Los Angeles Independent Competition Collaboration: Shaguni Ghupta, Tara Fleur Boonkhun, Vardhan Mehta SEMI-FINALIST announced September, waiting on November-Finalist Notice.
06 LISBON, PORTUGAL
IKEA INSTALL ATION M ANUAL, ONE PER PACKAGE
I N T E R I O R R E N D E R I N G . - T O P, FIN ALIZED INSTALL ATION AT WATERFRONT - BOTTOM
EXTERIOR - GRAND AVE VIEW
L O U D
C I T Y
The studio requirement for this semester was to design a dormitory with 110 bedrooms, to follow and to respond to all zoning and code regulations; creating a diverse environment for Pratt’ creative students. The approach my partner and I took was to use the site as a type of legend, to organize type of units and facade strategy. The site is a corner condition in Brooklyn, NY. Myrtle Avenue is a mostly commercial with high pedestrian and car traffic. Where as Grand Avenue in a residential street with one way traffic. These dynamics determined the design. SHHH... LET THE CITY SPEAK , LOUDER PLEASE! ARCH 301Comprehensive Design/FA15 Instructor: Robert Siegel Collaboration with: Sharvari Mhatre
07 B R O O K LY N , N E W Y O R K
Project Name
Pratt Institute Student Housing 309-315 Myrtle Ave Brooklyn NY 11205
Up Dn 11'-8"STEP / SEATING
Dn
Dn
Design Studio 301-04
8'-8"STEP / SEATING
Ramp to Parking
7'-2"STEP / SEATING
Dn
Individual Study Area
5'-8"STEP / SEATING
4'-2"STEP / SEATING
Studio Details
10'-2"STEP / SEATING
Professor Robert Siegel
2'-8"STEP / SEATING
Decidious trees (between balconies) Group Study Area
1'-2"REAR YARD
Dn
Annette Veliz Sharvari Mhatre
Bicycle Parking
Design Team
Undergraduate School of Architecture
0'-0"DATUM
Robert Otani
(Structural Consultant)
Consultants
Permeable Pavers
Erik Verboon
(Facade Consultant)
Jeffrey Huang
Computer Room
(MEP Consultant)
Perennial bushes
No. Date Description
SETBACK DESIGN
Revision Issuance Schedule
Seasonal planters along the building (under balconies)
11'-8" STEP / SEATING
Lobby
10'-2" STEP / SEATING
8'-8" STEP / SEATING
7'-2" STEP / SEATING
5'-8" STEP / SEATING
4'-2" STEP / SEATING
2'-8" STEP / SEATING
Amphitheater
Up
REAR YARD
Permeable Pavers
Dn
Mailroom
Gallery
Site
Grand Avenue
Security Desk Dn 1'-2"
Myrtle Avenue
Dn Myrtle Hall
North
Entrance
Scuplture on a base
1/8” = 1’-0” 0
5'
Scale
Dn Dn
10'
REAR YARD DESIGN
REAR YARD/CURATED BY STUDENTS - BOTTOM
LOBBY PLAN
03
Drawing Name Drawing No.
Floor Plans and Site Design
Perennial bushes
Date
unless otherwise noted
12/11/2015
15'
8'
1
1
2
5'
11
4
3 A-210
1'
10
1
A-302
8
29
1
1
2
4' 1
1
D
7'
4
1 A-2101
2
4
3 A-210
2
7'
6' 6'
Living Room
UP
8 Living Room
UP
8
13'-8"
Project Date: 2
10 10
4 4
D
2
1
5
2
1
65
2
5'1 5'
Drawn
4' 65
1 1
Project Drawn 24' 24'
7
CD S Scale: Date: Scale:
5 Bathroom I
2'
1
4
Bathroom I 4
2'
29
1
1
CD S
4
4
4
4' 4
Bedroom II 9 Bedroom II 9
14' 14'
7 Kitchen
E
10'
8'
5' 4'
Kitchen
E
2
2
3
A-302
Key Key
10'
D
2 A-500
8'
5'
9' Level 02, 04 & 06 Plan Level 02, 0413'-8" & 06 Plan 13'-8"
2
A-500
1
4
12' 12'
2
1 A-513
1
A-501
Checke
Checke
Drawin
Drawin
13'-8"
8
21'
9'
21'
9'
Four B
Four B
38'
7'
10
12' 12'
12' 12'
9'
7
8'
1
1
1
13
D
2
14'
2
1
4
7'
2
66
A-501
9'
9' 9'
8' 8'
1 1 A-513
2 A-513
6 Bedroom I
7
10'-10" 10'-10"
1
1
66
1
Bedroom I
9'
2 A-513
1
4 Bed Duplex Stair " 4 Bed Duplex Stair "
Level 3 23'-0" Level 3 23'-0"
3 A-513
13 Bedroom IV
1
14'
12' 12'
14
1 A-504
6'
14
12
4
93
Bedroom IV
1
2'
4
93
9'
C
9'6
3 A-513
4
2
38'
6'
12
1 A-504
19' 19'
8'
1
3
2'
8'
9'
8' 1
4
9'
6
10'10'
1
2
8'
6
1
14
C 8'
B
15'
Level 4 32'-4" Level 4 32'-4"
3
DN
2
4
B 15'
A
A-501
14
DN
2
1 A-503
8
1 A-302
4
1 A-503
8'
4 A-501
4
12
2 23'-0"
1 A-210
8'
7
12 Bathroom II
12
23'-0"
4
12' 12' 1'
8
A
6
Bathroom II
48'
8
8
A-302
1
48'
Level 3 - 4 Bed Duplex 1/4" = 1'-0" Level 3 - 4 Bed Duplex 3 1/4" = 1'-0"
1
1
12
W ELO OB NT OPE OW BEL O NT OPE Convenience Stairs Convenience Stairs
3
7
14'
3
1
13
14'
1
5'
1
A-302
B B Revi Revi
2
D
11
1
4
12' 12'
10
2
1
A-302
E
10'
D
12' 12'
10 Bedroom III
1
1
6
2
4
1
A-501
3D View 1 - 4 duplex stair
A-500
10'
8'
5' 5'
373
4
3D View 1 - 4 duplex stair
14'
E
D
13
1
Bedroom 2III
24' 24'
12' 12'
373
7
4
A-500
2
2
A-501
D
2
14'
6
6
7
C
8'
8'
6
C
B
15' 6
18' 18'
4
B
A
18' 18'
4
A
28' Level 2 - 4 Bed Duplex 1/4" = 1'-0" Level 2 - 4 Bed Duplex 1 1/4" = 1'-0"
28'
1
4BED DUPLEX DETAIL CALLOUTS - LEFT
Dra
Dra
BACKYARD VIEW OF FINAL MODEL - LEFT C O R N E R C O N D I T I O N R E N D E R I N G - T O P R I G H T, F I N A L M O D E L - B O T T O M R I G H T
S U S T A I N A B I L I T Y A N A LY S I S - B O T T O M ,
I S O N O M E T R I C D U P L E X C O R N E R C O N D I T I O N A P T. - T O P
CONCEPT DRAWING/THE SHED
W A T E R
J O U R N E Y
What potential does water have? Water can serve as a type of inspirational tool for the user. Water is channeled through the roof and at one point merges with the user for an experience of smell, sight and sound. There are two circulations. One for the public, along the exterior, always viewing the shore and the professional rowing team. A journey of water and information. The other for the professional rowing team, a direct route connecting main spaces used by rowers. MERGE ME W/ WATER! TAKE ME FROM INTEREST TO MOTIVATION. ARCH 302 Comprehensive Design/SP16 Instructor: Beth O’Neill Collaboration with: Pablo Gualde
08 INWOOD - NEW YORK, NY
NORTH ELEVATION
Exposed-Sealed Concrete High-Polished Exposed-Sealed Concrete Reinforcement High-Polished GFRC Roof Edge Reinforcement Concrete Finished Roof Edge Poured GFRC in place Concrete Finished Reinforce concrete Poured Cantilever part in place Reinforce concrete Cantilever part
3'-4"
3'-4"
SCALE: 1/8" = 1'-0"
NORTH ELEVATION SCALE: 1/8" = 1'-0"
EAST ELEVATION NORTH ELEVATION
SCALE: 1/8" = 1'-0"
Steel Cover
SCALE: 1/8" = 1'-0"
Steel Cover Exposed Porous Concrete Exposed Acoustical Porous Concrete Acoustical
EAST ELEVATION SCALE: 1/8" = 1'-0"
EXTERIOR
SCALE: 1/8" = 1'-0"
18'-3 3/4"
Erg Storage
SOUTH ELEVATION SCALE: 1/8" = 1'-0"
EAST ELEVATION SCALE: 1/8" = 1'-0"
SOUTH ELEVATION SCALE: 1/8" = 1'-0"
WEST ELEVATION SCALE: 1/8" = 1'-0"
Finished Floor High-polished Finished Floor Concrete High-polished Concrete Steel Structure Motor GFRC Steel Structure Motor GFRC
TEAM: ANNETTE VELIZ & PABLO GUALDE
2'-7 1/4"
SOUTH ELEVATION
2'-7 1/4"
SCALE: 1/8" = 1'-0"
S.S. Plate TEAM: ANNETTE VELIZ & PABLO GUALDE Suspended Clg. Cap S.S. Plate Suspended Clg. Light Fixture Cap Light Reflector
2nd Fl. Rest Area 15'-6"
ELEVATIONS
ELEVATIONS
BETH O’NEILL SECTION 302.11
WEST ELEVATION SCALE: 1/8" = 1'-0"
TEAM: ANNETTE VELIZ & PABLO GUALDE COMPREHENSIVE DESIGN II: UNIVERSITY BOATHOUSE
BOAT HOUSE
555 West 281th Street, New York, NY 10034
Bubble Deck Slab
1'-6"
2'-3 1/2"
2nd Fl. 15'-6"
8"
2'-3 1/2"
9'-10 3/4"
12'-6"
12'-6"
Rest Area
BOAT HOUSE
555 West 281th Street, New York, NY 10034
12'-2 1/2"
Light Fixture Light Reflector Suspended Ceiling With Exposed S.S. Suspended Ceiling Cable Ties. With Exposed S.S. Double Cable Glass Ties. Argon filled Double Bird Safe - AcidGlass Etch Argon filled Bubble Bird DeckSafe Slab- Acid Etch 12'-2 1/2"
COMPREHENSIVE DESIGN II: UNIVERSITY BOATHOUSE
1'-6"
BOAT HOUSE
555 West 281th Street, New York, NY 10034
COMPREHENSIVE DESIGN II: UNIVERSITY BOATHOUSE
TEAM: ANNETTE VELIZ & PABLO GUALDE
8"
ELEVATIONS
1'-9 1/2"
WEST ELEVATION SCALE: 1/8" = 1'-0"
SCALE: 1/8" = 1'-0"
9'-10 3/4"
1'-9 1/2"
1'-6"
1'-6"
3rd Fl. 29'-6"
WEST ELEVATION
ht Room
BOAT HOUSE
555 West 281th Street, New York, NY 10034
COMPREHENSIVE DESIGN II: UNIVERSITY BOATHOUSE
3rd Fl. 29'-6"
m
AT HOUSE
EXTERIOR
18'-6"
18'-6"
Erg Storage
SCALE: 1/8" = 1'-0"
SCALE: 1/8" = 1'-0"
18'-3 3/4"
NORTH ELEVATION SOUTH ELEVATION
EAST ELEVATION
GFRC under Slab Panels w/ seamless attachment GFRC under Slab Panels w/ seamless attachment
EXTERIOR
13'-4"
13'-4"
EXTERIOR
Waterproofing Stainless Steel Waterproofing Drain Stainless Steel Valser Quartzite Drain Mortar Driveway Valser Quartzite Mortar 6"
6"
Driveway
WALL DE TAIL SECTION - LEF T, ELEVATION DRAWINGS - TOP RIGHT, FINAL FULL MODEL/WATER SUBMERGENCE MOMENT - CENTER RIGHT, FINAL SECTION MODEL - BOTTOM RIGHT. BETH O’NEILL
Men Restroom 190 Sq.Ft.
Janitor's Closet Fire Protection
Women Restroom
395 Sq.Ft.
155 Sq.Ft.
6 (8
+)
Flo 6 (8
or
+)
Water Storage Concrete Volume 610 Sq.Ft.
Slo
pe
sU
P
4 (8
+)
Flo 7 (4
or
+)
Slo
pe
sU
P 6 (8
+)
UP 6 (8
+)
7 (4
+)
4 (8
+)
UP 7 (2
+)
20
'-
2"
Cistern Access
20
'-
2"
UP
15
'-
5"
N
"
12' - 11
16' - 0"
28' - 0" Inwood Park Path
GROUND FLOOR PLAN SCALE: 1/8" = 1'-0"
GROUND LEVEL FLOOR PLAN
Weight Tranning 2000 Sq.Ft.
Rest / Gather Area Kitchenette 390 Sq.Ft.
UP
Ventilation Opening
UP
DN
96
Me
0S
nL
q.F
t.
oc
ke
rR
oo
m
Women
Locker
Room
Ft.
1050 Sq.
DN
20
'-
2"
20
'-
2"
DN
15
'-
5"
N
"
12' - 11 28' - 0"
SECOND FLOOR PLAN SCALE: 1/8" = 1'-0"
SECOND LEVEL FLOOR PLAN
16' - 0"
Erg Tranning 2400 Sq.Ft.
Erg Storage 390 Sq.Ft.
DN DN Re
st
OP TO EN BE LL
/G
OW
ath
er
Ar
ea Ventilation Opening
Ft.
180 Sq.
Men Re stroom
m
HWH
oo str
tion De
Re
Mechanical/Elevator Room
dy
q.F
t.
24
Stu
0S
t.
en
575 Sq.Ft.
0S
W om
sk 38
q.F
Registra
Lobby
HWH
Manifold Geo Exchange
Ar
ea
Heat Pump
Electrical 215 Sq.Ft.
Coach Office 615 Sq.Ft.
Outdoor Water Observatory 400 Sq.Ft.
Staff Office 395 Sq.Ft.
Energy Recovery
Video Room/Lounge
20
'-
2"
20
'-
2"
560 Sq.Ft.
15
'-
5"
N
"
12' - 11
16' - 0"
28' - 0"
THIRD FLOOR PLAN SCALE: 1/8" = 1'-0"
THIRD LEVEL FLOOR PLAN