ALEXCHINDERLE
320 E. NORTH WATER
CURRENT STUDIO - SAN FRANCISCO AQUATIC CENTER
CHICAGO OLYMPIC TRAINING
GRADUATION PAVILION
GREEN SPACE IN THE CITY
BEYOND THE RIDGE
320 E. NORTH WATER chicago, illinois part. ALEX LEPPERT + JOHN ESSIG prof. PAUL ARMSTRONG sem. FALL 2015
3
4
SHADED SEATING
SITE PLAN
5
6
REFLECTIVE GLAZING + PASSIVE LEASABLE SPACE
PASSIVE RESTAURANT SPACE
7
8
TRANSPARENT GLAZING + DYNAMIC EVENT SPACE
DYNAMIC SITE ACCESS
9
10
FULL SITE PROPOSAL
11
UP
12
RIVER LEVEL PLAN + STREET LEVEL PLAN
N
SITE ACCESS + ENTRANCES
13
14
BUILDING FORM + STRUCTURAL EXPRESSION
GREEN SPACE + MECHANICAL SYSTEMS
15
16
CHICAGO’S GREEN SPACE
17
18
OFFICE SECTION
19
20
TYPICAL OFFICE PLAN
N
AIR INTAKE Outside air enters through front face of “wing”
MECHANICAL FLOOR
ARCHED SLAB EDGE Increases views out near exterior facade and allows more sunlight to penetrate deeper into the floor plate
OPEN OFFICE
AIR INTAKE
STRUCTURAL MULLION Also serves as light shelf to reduce direct sunlight entering the atrium
HEATED SLAB
OPEN OFFICE
SECONDARY STRUCTURE Intersects with primary structure every four floors
RAISED FLOOR Allows space for ducts and other mechanical systems to circulate DOUBLE SKIN Allows air to be brought in and exhausted at every floor level for improved energy performance
SUSPENDED WOOD ACOUSTIC CLG. Natural material to compliment concrete slab with perforations for air flow and improved acoustics, allows light housing and sprinkler lines to be concealed above
OPEN OFFICE
10’-0”
FLEXIBLE OFFICE ATRIUM Functions as building’s “lungs” by bringing air in to be treated and distributed to office floors, reducing energy usage via solar gain and reducing floor-to-floor heights
13’-0” FLOOR-TO-FLOOR
3’-0”
OPERABLE WINDOW
OPEN OFFICE
OPEN OFFICE
OFFICE SECTION
21
22
TYPICAL RESIDENTIAL PLAN
N
ELEVATION
23
24
SITE MODEL
25
26
SITE MODEL
27
28
SITE MODEL
29
30
BUILDING MODEL
31
32
BUILDING MODEL
33
34
BUILDING MODEL
35
CURRENT DESIGN STUDIO AQUATIC + AQUATIC THERAPY CENTER san francisco, california part. JOSHUA CHEN prof. SCOTT MURRAY + MARCI UIHLEIN sem. SPRING 2016
37
competition aquatic therapy
PROGRAM
competition
UNIFYING ROOF
aquatic therapy
PROGRAM
UNIFYING ROOF
rainin
rainin
38
CELEBRATE
BIOFILTRATIO
ng
ng
ON
spectator entry therapy + athlete entry
WATER COLLECTION
ENTRANCE therapy + athlete entry
WATER COLLECTION
ENTRANCE dry translucent cover
dry
from dbl. skin & recirculation translucent cover from dbl. skin & recirculation
indoor
outdoor
~68*
~55* or less
indoor exhaust ~68*
outdoor water collected ~55* or less
DOUBLE SKIN EXHAUST
exhaust
water collected
39
40
SOAP MODEL
PROGRAM STUDY
41
42
STUDY MODELS
FORM FINDING
43
44
CARVING ROOF FORM
CAST CONCRETE, VACUUM FORM ROOF PLANE
45
46
MORNING SUN POSITION
SOLAR NOON
47
A1
A
STORAGE
24' - 0"
PUMP ROOM
B 24' - 0"
UP
24' - 0"
C
TEAM
24' - 0"
D
TEAM
WOMEN'S LOCKER
E 24' - 0"
TEAM
24' - 0"
F
A2
FIRST AID
MEN'S LOCKER
G 24' - 0"
TEAM
TEAM
24' - 0"
H
24' - 0"
I
24' - 0"
J
K 24' - 0"
MECHANICAL
24' - 0"
L
24' - 0"
M
UP
N 24' - 0"
UP
O 24' - 0"
A3
P 24' - 0"
UP STAFF LOCKERS
STORAGE
MASS'G ACUPUNCTURE
Q
SAUNA
24' - 0"
MASS'G
SAUNA
WOMEN
MASS'G
MEN
MASS'G
MASS'G
UP DN
24' - 0"
R
24' - 0"
S
24' - 0"
T PARKING
U 24' - 0"
A4
V 24' - 0"
UP DN BIKE PARKING
W
25' - 8" 1
48
GROUND FLOOR PLAN
1' - 4"
20' - 11" 2 2a
24' - 0" 3
24' - 0" 4
24' - 0" 5
24' - 0" 6
24' - 1" 7
8
9
$
$
6725$*( &$)(
75$6+ 3,&.83
7,&.(76
%
DN
UP
&
0(1
'
(
:20(1
)
$ *
&21&(66,21
+
,
-
.
&21&(66,21
/
0
DN
1
DN
2
$
UP
3
%$7+
DN 2)),&(
%$7+
4
2)),&(
DN 2)),&(
5
2)),&(
6
2)),&(
7
2)),&(
8
$
2)),&(
9
DN
:
D
UPPER LEVEL FLOOR PLAN
49
50
PRELIMINARY COMPETITION SPACE
ROOF SANDWICH aluminium roofing membrane insulation vapour barrier
LIGHT SCOOP aluminium roofing membrane insulation vapour barrier steel construction w/ rigid rafters
SECONDARY & TERTIARY FRAMING STRUCTURE
PRIMARY LONG-SPAN STRUCTURE bowed 3D truss 8’-0” depth; ~144’ unbraced length (4) struts form fixed connection w/ column on each end
PRIMARY VERTICAL STRUCTURE 24”Ø columns height range: ~10’ to 47’streetfront ; ~24’ to 50’ back
LONG SPAN STRUCTURE
51
52
WATER COLLECTION AT MAIN ENTRANCE
PIVOT NEOPRENE SKIRT TO FILTER 1 WALL SECTION PIVOT NEOPRENE SKIRT OVERFLOW DRAIN
2
WELL SECTION BASE
TENSION ROD SYSTEM
3 WELL SECTION TOP
DETAILS FOR WELLS
53
54
PRELIMINARY ENERGY ANALYSIS
LIGHTING STUDY
55
2 D2
1 2 3 4 5
W
copper-nickel roofing to lap over prefabricated light scoop 8” metal decking fastened to HSS8x8x1/2 6“ HSS6X.500 lateral member bolted to gusset plate laminated safety glass of 1/4” glass + 1/2“ cavity + 2x1/4” tempered glass with PVB film photovoltaic module on aluminum structure mounted to copper-nickel standing seam metal roof, waterproof membrane, 5/8” DensGlass sheathing , 8“ metal studs 24”O.C. with 8” fiberglass insulation (R-25), California Sycamore cladding copper-nickel roofing to lap over prefabricated light scoop copper-nickel locking seam metal roof, waterproof membrane, 5/8“ DensGlass, 5” (R-25) rigid insulation, 8“ metal decking with polyurethane spray foam insulation (R-20) in cavities, W16 x 40 steel beam, California Sycamore cladding copper-nickel locking seam metal roof, waterproof membrane, 5/8” DensGlass sheathing, copper-nickel soffit, steel framing, adjustable steel riser, chamfered W16 x 40 steel beam Schock thermal break 2”x4”x10’-0” California Sycamore lapped vertical siding, waterproof membrane, 2” rigid insulation (R-10), 8” metal studs 16”O.C. with fiberglass insulation (R-15), 5/8” DensGlass, 2”x4”x10’-0” California Sycamore lapped vertical cladding 2“x4”x10’-0“ California Sycamore lapped vertical siding, waterproof membrane (aluminum sheet metal at base), 2” rigid insulation, 12“ conc. foundation wall 12” gravel fill, 6” perforated drain pipe, 12“x24” concrete footing 10 HSS10X.500 chord member with fluorescent light fixture, HSS6X.500 web members 6“ metal stud framing with channels, gypsum ceiling, Lumionation LED luminaire - SS Series lighting fixture 2”ø gray water supply pipe from storage tank vegetative biofiltration wall plants embedded in soil 1/4” steel planters, water barrier 8” cmu backup wall with vertical reinforcement, horizontal ladder-type bracing with bond beam every fourth block 3” concrete ledge, water barrier, 2“ø drain pipe 1x4 California Sycamore guardrail cap 42”H, 1 1/2“ round California Sycamore handrail 36”H 1” California Sycamore, 1/4” glass guardrail to extend 8” below ceiling through-bolted to W14 x 48 beam 8”O.C. perforated exhaust intake, return air duct concealed sprinkler head fluorescent light fixture 3 1/2” concrete over 1 1/2” metal decking, W14 x 30 steel beam, suspended 4” , steel channels, 5/8” type X gyp. board 6’x14’ endless pool with 1 1/2“ grab bars 1” stained concrete cover with slip-resistant concrete deck treatment, 6” concrete slab, 12” gravel fill SECTION DETAIL ADA lift and sloped ADA entry 92‘-0”x82’-0”D22 pool with 5
8
7
6
9
6 7
1 copper-nickel roofing to lap over prefabricated light scoop 2 8” metal decking fastened to HSS8x8x1/2 3 6“ HSS6X.500 lateral member bolted to gusset plate 4 laminated safety glass of 1/4” glass + 1/2“ cavity + 2x1/4” tempered glass with PVB film 5 photovoltaic module on aluminum structure mounted to copper-nickel standing seam metal roof, waterproof membrane, 5/8” DensGlass sheathing , 8“ metal studs 24”O.C. with 8” fiberglass insulation (R-25), California Sycamore cladding 6 copper-nickel roofing to lap over prefabricated light scoop 7 copper-nickel locking seam metal roof, waterproof membrane, 5/8“ DensGlass, 5” (R-25) rigid insulation, 8“ metal decking with polyurethane spray foam insulation (R-20) in cavities, W16 x 40 steel beam, California Sycamore cladding 8 copper-nickel locking seam metal roof, waterproof membrane, 5/8” DensGlass sheathing, copper-nickel soffit, steel framing, adjustable steel riser, chamfered W16 x 40 steel beam 9 Schock thermal break 10 2”x4”x10’-0” California Sycamore lapped vertical siding, waterproof membrane, 2” rigid insulation (R-10), 8” metal studs 16”O.C. with fiberglass insulation (R-15), 5/8” DensGlass, 2”x4”x10’-0” California Sycamore lapped vertical cladding 11 2“x4”x10’-0“ California Sycamore lapped vertical siding, waterproof membrane (aluminum sheet metal at base), 2” rigid insulation, 12“ conc. foundation wall 12 12” gravel fill, 6” perforated drain pipe, 12“x24” concrete footing 10 13 HSS10X.500 chord member with fluorescent light fixture, HSS6X.500 web members 14 6“ metal stud framing with channels, gypsum ceiling, Lumionation LED luminaire - SS Series lighting fixture 15 2”ø gray water supply pipe from storage tank 16 vegetative biofiltration wall plants embedded in soil 1/4” steel planters, water barrier 8” cmu backup wall with vertical reinforcement, horizontal ladder-type bracing with bond beam every fourth block 17 3” concrete ledge, water barrier, 2“ø drain pipe 18 1x4 California Sycamore guardrail cap 42”H, 1 1/2“ round California Sycamore handrail 36”H 19 1” California Sycamore, 1/4” glass guardrail to extend 8” below ceiling through-bolted to W14 x 48 beam 8”O.C. 20 perforated exhaust intake, return air duct 21 concealed sprinkler head 22 fluorescent light fixture 23 3 1/2” concrete over 1 1/2” metal decking, W14 x 30 steel beam, suspended 4” , steel channels, 5/8” type X gyp. board 24 6’x14’ endless pool with 1 1/2“ grab bars 25 1” stained concrete cover with slip-resistant concrete deck treatment, 6” concrete slab, 12” gravel fill 26 92‘-0”x82’-0” pool with ADA lift and sloped ADA entry
8
9 10
11 12 13 14 15 16
17 18 19 20 21 22 23
0’-0”
24 25 1 D2
56
ELEVATION 1/2” = 1’-0”
0
1’
2’
4’
PRELIMINARY AQUATIC THERAPY ELEVATION
26
13
15
14
16
23
17
15’-0”
22
24
25
4’-4”
11
12
1/2” = 1’-0”
0
1’
2’
18
4’
19 20
21
26
2 D2 V
W
5
4
8
7
6
1
2
9
3
1 copper-nickel roofing to lap over prefabricated light scoop 2 8” metal decking fastened to HSS8x8x1/2 3 6“ HSS6X.500 lateral member bolted to gusset plate 4 laminated safety glass of 1/4” glass + 1/2“ cavity + 2x1/4” tempered glass with PVB film 5 photovoltaic module on aluminum structure mounted to copper-nickel standing seam metal roof, waterproof membrane, 5/8” DensGlass sheathing , 8“ metal studs 24”O.C. with 8” fiberglass insulation (R-25), California Sycamore cladding 6 copper-nickel roofing to lap over prefabricated light scoop 7 copper-nickel locking seam metal roof, waterproof membrane, 5/8“ DensGlass, 5” (R-25) rigid insulation, 8“ metal decking with polyurethane spray foam insulation (R-20) in cavities, W16 x 40 steel beam, California Sycamore cladding 8 copper-nickel locking seam metal roof, waterproof membrane, 5/8” DensGlass sheathing, copper-nickel soffit, steel framing, adjustable steel riser, chamfered W16 x 40 steel beam 9 Schock thermal break 10 2”x4”x10’-0” California Sycamore lapped vertical siding, waterproof membrane, 2” rigid insulation (R-10), 8” metal studs 16”O.C. with fiberglass insulation (R-15), 5/8” DensGlass, 2”x4”x10’-0” California Sycamore lapped vertical cladding 11 2“x4”x10’-0“ California Sycamore lapped vertical siding, waterproof membrane (aluminum sheet metal at base), 2” rigid insulation, 12“ conc. foundation wall 12 12” gravel fill, 6” perforated drain pipe, 12“x24” concrete footing 10 13 HSS10X.500 chord member with fluorescent light fixture, HSS6X.500 web members 14 6“ metal stud framing with channels, gypsum ceiling, Lumionation LED luminaire - SS Series lighting fixture 15 2”ø gray water supply pipe from storage tank 16 vegetative biofiltration wall plants embedded in soil 1/4” steel planters, water barrier 8” cmu backup wall with vertical reinforcement, horizontal ladder-type bracing with bond beam every fourth block 17 3” concrete ledge, water barrier, 2“ø drain pipe 18 1x4 California Sycamore guardrail cap 42”H, 1 1/2“ round California Sycamore handrail 36”H 19 1” California Sycamore, 1/4” glass guardrail to extend 8” below ceiling through-bolted to W14 x 48 beam 8”O.C. 20 perforated exhaust intake, return air duct 21 concealed sprinkler head 22 fluorescent light fixture 23 3 1/2” concrete over 1 1/2” metal decking, W14 x 30 steel beam, suspended 4” , steel channels, 5/8” type X gyp. board 24 6’x14’ endless pool with 1 1/2“ grab bars 25 1” stained concrete cover with slip-resistant concrete deck treatment, 6” concrete slab, 12” gravel fill 26 92‘-0”x82’-0” pool with ADA lift and sloped ADA entry
13
15
14
16
18
23
17
15’-0”
19 20 22
24
21
25
26
4’-4”
11
0’-0”
12
2 D2
SECTION DETAIL 1/2” = 1’-0”
0
1’
2’
4’
PRELIMINARY AQUATIC THERAPY SECTION
57
2 D1
2 60’-3”
56’ -5” 4
5
1 copper-nickel locking seam metal roof, waterproof membrane, 5/8“ DensGlass, 5” (R-25) rigid insulation, 8“ metal decking with polyurethane spray foam insulation (R-20) in cavities, W16 x 40 steel beam, California Sycamore cladding 48’ -3” CL bottom chord
2 copper-nickel locking seam metal roof, waterproof membrane, 5/8” DensGlass sheathing, copper-nickel soffit, steel framing, adjustablte steel riser, chamfered W16 x 40 steel beam
46’ 9”
3 10x0.500 CHS chord member mounted to 8x0.500 CHS support 4 exhaust vent with operable glass louvers 5 1/2” laminated safety glass with gradiated sikscreen ceramic frit pattern 6 low-e, low-iron double glazed inner skin 7 HSS vierendeel truss facade support structure with lateral tie to 24”x1/2” CHS 8 stainless steel patch fitting 1/2” laminated safety vision glass outerskin w/ 1/4“ silicone weather seal 9 stainless steel bar grating w/ 2” steel 10 sidewalk 2% grade to stanford street 11 folded sheet steel drainage gutter w/ 2”Ø drainage pipe to grey water system 37’ -7”
12 jet nozzle for pool exhaust air 13 fresh-air intake with operable damper 14 1/2” stone finished floor, 1/2” grout 2” heating screed 2” extruded polystyrene 8” concrete slab 15 continuous linear convector 16 12” continuous trench wall
8
17 8ӯ exhaust air duct 18 4ӯ trench perforated drainage pipe
9 15’-0”
10
ELEVATION
1 D2
1/2” = 1’-0”
3 D2
NTS
0
1’
2’
4’
13
16
15’-0”
18
2 D2
58
SECTION DETAIL
1/2” = 1’-0”
0
1’
2’
4’
INITIAL THERM ANALYSIS
4 D2
CONDENSATION TIME PLOT
PRELIMINARY DOUBLE SKIN ELEVATION, DAYS WATER CAN BE COLLECTED
8
2 1
60’-3”
56’ -5” 4
3
5
1 copper-nickel locking seam metal roof, waterproof membrane, 5/8“ DensGlass, 5” (R-25) rigid insulation, 8“ metal decking with polyurethane spray foam insulation (R-20) in cavities, W16 x 40 steel beam, California Sycamore cladding 48’ -3” CL bottom chord
2 copper-nickel locking seam metal roof, waterproof membrane, 5/8” DensGlass sheathing, copper-nickel soffit, steel framing, adjustablte steel riser, chamfered W16 x 40 steel beam
46’ 9”
3 10x0.500 CHS chord member mounted to 8x0.500 CHS support 4 exhaust vent with operable glass louvers 5 1/2” laminated safety glass with gradiated sikscreen ceramic frit pattern
6
6 low-e, low-iron double glazed inner skin 7 HSS vierendeel truss facade support structure with lateral tie to 24”x1/2” CHS 8 stainless steel patch fitting 1/2” laminated safety vision glass outerskin w/ 1/4“ silicone weather seal 9 stainless steel bar grating w/ 2” steel 10 sidewalk 2% grade to stanford street 11 folded sheet steel drainage gutter w/ 2”Ø drainage pipe to grey water system 7
37’ -7”
12 jet nozzle for pool exhaust air 13 fresh-air intake with operable damper 14 1/2” stone finished floor, 1/2” grout 2” heating screed 2” extruded polystyrene 8” concrete slab 15 continuous linear convector 16 12” continuous trench wall
8
17 8ӯ exhaust air duct 18 4ӯ trench perforated drainage pipe
9 15’-0”
10
11
12
ELEVATION
1 D2
1/2” = 1’-0”
3 D2
NTS
13
16 14
15 15’-0”
17
18
2 D2
SECTION DETAIL
1/2” = 1’-0”
0
1’
2’
4’
PRELIMINARY DOUBLE SKIN SECTION FOR WATER COLLECTION
INITIAL THERM ANAL
59
CHICAGO OLYMPIC TRAINING chicago, illinois prof. CARL LEWIS sem. SPRING 2015
61
62
FINAL SITE MODEL
63
TRAINING
TRAINING
COURT SPORTS PERFORMANCE
64
RIBBON ORGANIZATION + BUILDING INTERACTION
COURT SPORTS
WATER SPORTS
TRACK INDOOR SHOOTING RANGE
PRIMARY TRUSS STRUCTURE
SECONDARY STRUCTURE
VERTICAL CIRCULATION VERTICAL EGRESS ELEVATOR
STADIUM SEATING
COURT SPORTS KAYAK CONVEYOR LIFT STADIUM SEATING
FULL PROPOSAL
65
66
FORM STUDY MODELS
67
Sixth Floor Plan
Fifth Floor Plan
Fourth Floor Plan
Third Floor Plan
Second Floor Plan
68
SCHEMATIC FLOOR PLANS
Ground Floor Plan
ADLER PLANETARIUM
WATER TRAINING
VERTICAL CIRCULATION VERTICAL CIRCULATION COURT TRAINING
KAYAK LIFT
PARKING
PUBLIC CIRCULATION
BLEACHERS
SKIING TRACK SERVICE
SLALOM FINISH
ENTRANCE
SLALOM START
INDOOR SEATING
UPPER POOL
OLYMPIC HISTORY
SLALOM TRAINING PUBLIC CIRCULATION SLALOM TRAINING LOWER POOL
PUBLIC CIRCULATION
69
70
OUTDOOR KAYAK SLALOM COURSE
71
72
ENTRANCE ELEVATION + SECTION
WATER ELEVATION + SECTION
73
74
STADIUM + TRACK
STADIUM
75
76
FINAL BUILDING MODEL
77
78
FINAL BUILDING MODEL
79
80
81
GRADUATION PAVILION champaign, illinois prof. MARCI UIHLEIN sem. FALL 2015
83
84
OCCUPIABLE ROOF + STAIR ACCESS
ROOF CIRCULATION
85
86
SEISMIC STRUCTURAL ANALYSIS
CLIMBING ROPE, VARIOUS COLORS
HSS 6.625x.500"
EXISTING CONCRETE TILE
8"x8" STEEL PLATE, FILLET WELDED TO HSS 6x6x1/2" STEEL ANGLE 3/4"Ø STEEL BOLTS 3/4"Ø STEEL ANCHORS 6-#4 VERTICAL REINFORCING #4 CIRCULAR REINFORCEMENT BAR AT TOP, MIDDLE AND BOTTOM OF PIER FOUNDATION, MINIMUM 1.5" CONC. COVER 16"Ø CONCRETE PIER FOUNDATION TO BEAR ON SOIL CAPABLE OF CARRYING MIN. 3,000 PSF. MINIMUM 3'-0" BELOW GRADE
CONSTRUCTION DETAIL
87
88
89
GREEN SPACE IN THE CITY prof. BRIAN VESELY sem. SPRING 2013
GREEN ROOF FARMER'S MARKET VACANT BUILDINGS
91
Urban populations are on the rise and will continue to be for the foreseeable future.
This has caused city planners, architects and investors to reconsider the ways in which green spaces can be integrated into our urban environments for their environmental and social benefits. Green space is the single element of the urban threshold which seeks to provide relief from everyday stresses and seeks to provide positive human
interactions within them. Urban green space can easily get neglected because it does not, by itself, hold much value to land compared to what a new apartment or office
tower may be able to bring in. However, urban areas with more green space tend to have significantly higher property values and cities have begun to embrace this to provide more landscaped relaxation space.
In regards to sustainability, green space has several functions. Biodiversity is critical to
the food chain and lack of urban green space has driven bug, plant and animal species out of the cities we live in. Green space increases local bird population which helps to improve the ecology of the spaces in and around our cities. Heat island effect is
another major issue in urban environments, caused by large thermal masses (roadways and walkways) capturing heat from sunlight which increases urban environment by ten degrees or more. Urban landscapes can reduce this effect and actually begin to create a cooling effect in these areas from evapotranspiration.
The next two projects look at ways to introduce green space and other programs to
improve social, economic and environmental factors in the area. Vacant buildings are
a natural part of cities as they progress and grow. Old properties become undesirable and need to be redefined. These vacant buildings also bring negative social and
economic situations in their immediate surroundings which means neighboring property values tend to be reduced. One solution to this issue is to look at these
existing structures as an opportunity for new green space which can actually increase local property values. Introducing program, such as urban farming, can provide new opportunities for social and economic situations in an area.
Green space can also be integrated to existing buildings to provide a new way of
interacting in buildings. Common green roofs in urban environments are invisible
to passersby which means that their effectiveness for engaging social interaction is
greatly reduced. One way of redefining this green space in a multi-story program can be implementing a roof garden which has a slope to it. This move provides unique
opportunities for space to be created on the roof garden and also makes the green
space more visible from the street. This allows more people to occupy the green space because more people know of its location. Looking at the building form, in the case of a library, allows the program to be divided so that interaction can occur through
the threshold of the green space, connecting the think tank to the main library stacks. Rethinking the way that green space interacts with a building’s program can provide unique opportunities for the building’s inhabitants while also increasing the number of people that might use the building.
URBAN FARMING chicago, illinois prof. BRIAN VESELY sem. SPRING 2013
95
96
STUDY MODELS + URBAN FARMS
STUDY MODELS + PUBLIC SPACE
97
98
BUILDING SECTION
99
URBAN LIBRARY chicago, illinois prof. BRIAN VESELY sem. SPRING 2013
101
102
1/2” = 1’-0” SECTION MODEL
VISIBLE GREEN ROOF + CIRCULATION + LIBRARY STACKS
103
104
BUIDING SECTION
105
106
BUILDING ELEVATION
BUILDING SECTION
107
108
GROUND FLOOR PLAN
THIRD FLOOR PLAN
109
110
TOP OF GREEN SPACE
111
112
FINAL BUILDING MODEL
113
35°Angle of Repose
Perforated Drainage Pipe Flashing Sloped Skylight
Suspended Acoustic Panels
Stained Concrete Slab
Double Pane Glazing 12” Deep Soil Suitable for Tall Grasses
Waterproofing Membrane 4” Rigid Insulation
Suspended Acoustic Panels Concrete Beam W/ Rebar Steel Stairs w/ Concrete Tread
114
DETAIL AT STAIRS
42” Fritted Glass Guardrail w/ 36” Wood Handrail Steel Channel Stringer Susp. from Concrete Beam
FINAL BUILDING MODEL
115
BEYOND THE RIDGE barcelona, spain part. YANGYANG SHAO prof. SARA BARTUMEUS sem. FALL 2014
117
SAG
CASA BATLLO
PLACA ESPANYA
ARC DE TRIOMF
MNAC
FUNDACIO MIRO OLYMPIC PARK CASTELL DE MONTJUIC
118
GRADA FAMILIA
PLAZA MONUMENTAL TORRE AGBAR
FORUM
MAPPING BARCELONA
119
120
VIEWS OF LA SAGRADA FAMILIA
Monuments have always been a fascination and reason for travel throughout time. While the public interest and intent of the monument has evolved from religious motivation to recreation, the way that people interact with these landmarks and monuments has evolved as well.
DISNEY AVENUE
Cinderella's Castle is a prime example of a modern day monument. The prime motive for visiting Disney World is to experience thrill rides and Disney characters and this monument just happens to be in the background. To many people visiting a monument such as this is just as much about the experience of the surroundings as it is the monument. This brings new meaning to the monument itself as it is experienced so differently from different angles and from different distances and depending upon the pertinent activity.
LEARNING FROM DISNEY
121
VARIETY OF HUMAN SCALE A close, comfortable, seated environment between two people creates space for intimate and personal conversation. A close encounter allows for place to hold medium conversation or grounds for two people meeting for the first time. A more public conversation may occur at further distances, but topics would be very light and less personal. Distance as far as D/H = 4 may be simple eye contact and a brief hello but would not likely contain a conversation for any duration of time.
122
HUMAN INTERACTION
RIDGE [rij] noun 1. artistically divides space and creates a sense of place at a variety of scales 2. organized on a structural grid to promote movement angular to landmark 3. places of gathering among large, open square 4. vertical integration encouraged with pop-up art displays 5. larger than life, one main ridge creates space for public performance and relaxation in the front lawn of La Sagrada FamĂlia
RIDGES
123
124
TOP OF SURFACE AT RIDGES
REMOVE BUILDINGS + ADD SURFACE + PROGRAM
125
28M
126
OPEN CORRIDOR IN EXIAMPLE
GROUND LEVEL PLAN + UPPER LEVEL PLAN
127
128
MARKET FOR LOCAL CITIZENS
129
Modern museum space Pop-up for interior and exterior art viewing Ridge as bench Ridge as railing Digital museum display Opening with artwork
6
1
130
SECTION AT MUSEUM
2
3
4
5
2
FULL SITE SECTION
131
132
MUSEUM SPACE
133
134
3D PRINTING LA SAGRADA FAMILIA
LA SAGRADA FAMILIA
135
136
PROPOSAL FROM LA SAGRADA FAMILIA
FULL PROPOSAL
137
138
VIEW FROM BELOW THE SURFACE
139