Date post: | 13-Mar-2016 |
Category: |
Documents |
Upload: | joseph-keppel |
View: | 228 times |
Download: | 1 times |
HMT NOB UB4 CCH MQV TAM MMI
Lake Pontchartrain
Mississippi River
DPS 2
DPS 1
DPS 6
DPS 23
DPS 7
DPS 17
DPS 19
DPS 4
DPS 12
DPS 3
NEWORLEANS_BATHHOUSE KINNARDSTUDIO_SPRING2010_NEWORLEANS_LA
Imperviousness
THESIS STATEMENT: Performance Actuating
Atmospheric E(a)ffect
The NOAC Bath House seeks to exceed performance
in the conventional sense by employing structural
strategies that transcend mere functionality and
address multiple conditions/constraints simultane-
ously while manipulating them to generate
atmospheric E(a)ffect.
NOB
MMiiss
ssiiss
ssiippii
pppppp
iiRR
iivveerr
DP
S 2
DP
S 3
WATER INFRASTRUCTURE: Drainage Network
New Orleans is a city surrounded by water
and throughout the citys history water has been
viewed as an undesirable resource which is quickly
drained away and pumped out into Lake Pontchar-
train. As rain water falls near the Mississippi river, it
drains towards the center of the city where pumping
stations are located to pump the water out into the
lake. The site is at the beginning of the drainage
process, which is a prime location to establish
architectural strategies that embrace and use water at
different scales to minimize runoff and greatly reduce
the flooding in New Orleans.
222 N. Rampart St. - New Orleans, LA
The site is located on the edge of the
French Quarter, the densest area of New Orleans,
on the corner of Bienville and N. Rampart St. This
highly dense urban condition is a catalyst for large
impervious areas that shed enormous quantities of
water that cause flooding and overwhelm pumping
stations.The NOAC site is a prime location to push
architectural strategies that not only engage and
use this water in a multitude of ways but also
perform a variety of other tasks such as controlling
natural light, ventilation, circulation, etc. in order
to produce atmospheric e(a)ffect.
KINNARDSTUDIO_SPRING2010_NEWORLEANS_LA
NOB_02
NOAC
Wet PondSTAFF/SERVICE
URBAN RUNOFF
DOMESTIC
DPS 3
H20 Overflow
Large Bath
MAIN
NOAC
H20 Channel
H20 Collector
Sanitation
Cold Bath
Mist Room
Sauna
Hot Bath
SOLID / VOID STRATEGIES
PROGRAM: Why a Bath House?
The program for a bath house requires large quantities of
water to be directed, collected, stored, and used and provides an
opportunity to develop architectural strategies that use rain and ground
water in functional ways, while creating exhilarating conditions and
atmospheres on the interior and exterior of the building. The New
Orleans Athletic Center (NOAC) is currently running into space issues
and the sauna and steam rooms are inadequate for the number of
members. The new addition will allow for the clearing out of cramped
exercise rooms and the expansion of a full bath house.
NOAC
Typical
Ground - 1/64 Third Floor - 1/64
Second Floor - 1/64Roof - 1/64
KINNARDSTUDIO_SPRING2010_NEWORLEANS_LA
NOB_03
KINNARDSTUDIO_SPRING2010_NEWORLEANS_LA
Longitudinal Section
NOB_04
INTO THE VOID: STRUCTURAL CANYONS
The interior surface of each canyon consists of a supple
articulation of stone that results in dynamic corrugation patterns
that move and direct water in various ways not only to increase the
distance the water must travel to reach the ground but to become an
experiential component of the building by creating numerous
atmospheric E(a)ffects between interior and exterior spaces. The
canyons also provide cross ventilation, calculated views, and the
dispersion of natural light.
KINNARDSTUDIO_SPRING2010_NEWORLEANS_LA
NOB_05
Transverse Section
Claiborne Ave Aerial
06
0 5025 75 100 125
0 50 5752
HFT_07
Program Analysis
Contours
New Landscape
Street Grid
Existing Bldgs
New Sidewalks
HFT_08
HFT_09
0 2010 30 40 50
HFT_10
Claiborne Ave Aerial
11
4'0"
EDGE OF ROOF
21'6"
GROUND FLOOR
3'-
0"
CLARIFICATION OF REFERENCE DESIGNATIONS:
HARDI-BOARD CLAPBOARD SIDING
HARDI-PANEL
IMPACT RESISTANT HURRICANE PANEL
IMPACT RESISTANT POLY-CARB PANEL
65'-0"
8'-0"
R.O.=16'-3" x 10'-5"
SILL HT.=0"
UB4_12
Claiborne Ave Aerial
13
Restaurant
Kitchen
Storage
A/V Equipment Rm
Banquet
Valet
FCC FPR
GP
EMR
ETV EDRES
CR
ESEER
Fan/Boiler/Chiller
Service
Inll
Porte Cochere
Parking
A
1
2
3
4
5
6
7
8
B C D E F G H I J L MK N O P Q R
C Tower
Restaurant
MLR
Break SBreak NS
WLR
C Tower
Parking
A
1
2
3
4
5
6
7
8
B C D E F G H I J L MK N O P Q R
Rm Serv
Kitchen
Pantry
HousekeepLaundry
O!ce
Dry
Storage
Walk-in
Fridge
Sta
Sta Oce
Small
Large
C Tower
Pool
A
1
2
3
4
5
6
7
8
B C D E F G H I J L MK N O P Q R
CCH_14
1 2 3 4
0 4020 60 80 100
CCH_15
CCH_16
N S
CCH_17
11.68 ft
13.68 ft
O.C.
16.67 ft
18.67 ft
O.C.
media pod
CCH_18
19
MECHANICAL
BREAK ROOM
OFFICE MANAGER
RECEPTIONIST
WAITING AREA CHILDREN AREA
EXAM ROOMS MEETING ROOM
LAB
TEAM ROOM
OUTDOOR SEATING
MEDICAL
OFFICE
ASSISTANTS
PHASE II ADDITION
STORAGE
SUPPLY ROOM
250 50
MQV_20
250 50
MQV_21
MQV_22
MQV_23
57.0-
52.2-
52.2-
52.2-
57.0+
52.2-
57.0+
52.2+
05.1+
+0.75
57.0+
57.0+
+0.00
S-A
S-B S-C
R-G
S-E S-D
S-2
F-A
F-B
F-1
R-2
R-C
R-B
R-1
R-D
R-A
R-2
R-1R-1
G-1
G-A
R-3
R-2
R-H
R-E
S-1
R-F
EDUCATIONAL
LOBBY
HIGH CEILING EXHIBITION HALL
AU
DIO
TOR
IUM
MAIN EXHIBITION HALL 2
MAIN EXHIBITION HALL 4
TEMPORAR
Y EXHIBIT
ION HALL 3
SOUVENIR & ART BOOKSTORE
TEMPORAR
Y EXHIBIT
ION HALL 2
SCULPTURE COURTYARD
DR
ESSIN
G R
OO
MS
PR
OJE
CTIO
N
RECEPTIO
N LOBBY
MAIN EXHIBITION HALL 3
CENTRAL HALL ATRIUM
TECHNICAL
MAIN EXHIBITION HALL 1
TEMPORAR
Y EXHIBIT
ION HALL 1
MAIN ENT
RANCE
OPEN TO B
ELOW
STO
RAG
E
KITCHEN
FIRE CONTROL OFFICE
CAFE
B
B
A
A
C
C
24
05.11+
52.21+
52.21+
00.01+
52.21+
R-1
R-1
R-2
R-2
R-E
R-F
R-3
R-3
G-1
G-AR-H
R-B
S-1
R-A
R-C
R-D
BASIC EXHIBITION HALL 3
ADMINISTRATIVE MANAGMENT OFFICE
OPEN TO BELOW
BASIC EXHIBITION HALL 4
BASIC EXHIBITION HALL 5
BASIC EXHIBITION HALL 1
CENTRAL HALL ATRIUM
BASIC EXHIBITION HALL 2
GREEENHOUSE
A.H.U ROOM
ELECTRICITY BOARDS
R-D
R-H
R-3
G-A
G-1
R-1
R-B
R-2
R-F
R-E
R-2
R-C
R-B
R-C
R-A
R-3
R-1
S-D
S-C
S-2
S-1
S-B S-A
S-E
52.7+
52.7+
52.7+
00.5+
00.5+
+7.25
52.7+
52.7+
00.5+
05.1+
GREENHOUSE
MOUN
TING
CLASSROO
M
CLASSROO
M
CLASSROO
M
OPEN TO BELOW
EXHIBITION HALL 1
UNLOADING
EXHIBITION HALL 2
CENTRAL HALL ATRIUM
CHILDREN EXHIBITION HALL 1
CHILDREN EXHIBITION HALL 2
VIDEO ROO
M
LOUN
GE
EXHIBITION HALL 4
CLASSROO
M
EXHIBITION HALL 3
RENO
VATIO
N
EMUL
ATIO
N RO
OM
GUAR
D
BROD. STU
DIO
PHOT
OGRA
PHY
ROO
MS
CLASSROO
M
CLASSROOMCLASSROOM
MULT
IFUNC
TIONA
L
+18.75
R-1
R-2
R-3
R-D
R-C
R-A
R-B
CNFRM
CENTRAL H
ALL ATRIU
M
STU
DIO
CNFROOM
GREENHOU
SE OPEN
TO BELOW
STU
DIO
TAM_25
TAM_26
01 02 03
04 05 06 07
08 09 10 11
12 13 14 15
Create normals to ground plane at desired
final hypar height and attach to the bottom
of each hypar end
Initial hypar
Extend orthogonals to create planes Extend all sides of each plane so that
planes intersect and extend beyond
corresponding hypar
Intersect crossing planes Draw line on edges of hypar
without crossing planes and
extend to meet with its plane
Extend edge of hypar along
lines to meet its plane
Delete everything but hypar,
normals, and intersecting lines
Adjust hypar along lines of
intersectionfor desired angles
Resulting stepped flat panel hypar Delete existing hypar and ungroup
lines Divide any normal by the same
number as hypar
Select all dividing lines and copy from
the blue point to the red point on the
divided normal. Delete single bottom
line not touching any normals
Loft each individual section of
hypar seperately
*in some instances lofting may need to be done
line by line to produce flat panels
Divide hypar into desired
number of strips
Create orthogonals to become planes
and attach to the top and bottom of
each normal line
TAM_27
In the public spaces, which includes the lobby, cafe
and courtyard space, a long ribbon window runs the
length of the building allowing ample natural light
and visual connection between the lobby and exterior
courtyard garden.
Completion - 2011
28
MMI_29
MMI_30
CURRENT_RENDERING_ SAMPLES
Lamar Advertising
31
EDR_NEWORLEANS_LA
Lamar Advertising
CRS_31
EDR_NEWORLEANS_LA
Keller Library
CRS_32
EDR_NEWORLEANS_LA
Transfiguration of the Lord
CRS_33
00_Cover.pdf01_Contents01aAcademic02_NOB03_HMT04_UB405_CCH06_Professional07_MQV08_TAM09_MMI10_CRS