PORTFOLIO | ZILONG TAN SELECTED WORKS
STUDENT WORKS
citizens as well. As a spiritral symbol of academe, it is located on the middle of the axis to form a visual focus. The main entrance is on the south side of the axis and shapes a public square with the existing buildings. The secondary entrance is on the west side of the site to serve the citizens from south.
一个老厂房改建 RECONSTRUCTION OF A OLD FACTORY 05/2011
Sunlight Drawer In this project, I don't want to damage brick walls of these old factories, but it doesn't mean that the appearance will remain as same as before. Therefore, I place some boxes througn former window holes. They are just like drawers extracted from inner space which, with shining glass and metal board, contrast the old bricks greatly. Another funtion of these boxes is absorbing sunlight when it is not so bright in the moring and keeping out the sunlight at noon.
N
total area shadow area lighting area
height length space between width
6
Implant stack rooom entrance
library entrance couryard
Array
Sunlight Absorbing
Relations between drawers 8
In order to guarantee each drawer would get enough sunlight in the morning, I made a rule dealing with coresponding position of one box with others next to it, in which Grasshoper would help to rearrange the whole array as sonn as I change position of one box. That means if I lift some boxes to formulate a entrance under them or shorten some boxes to spare space for protective trees, the whole array would take change to balance the lighting condition.
Protective Trees
7
Reading room
Study room
Computer room Stack room (double layered)
Unit Design
These boxes are used as reading rooms, study rooms and stack rooms which are onganized freely in height and connected by slops and stairs. This does not only give us a chance to creat visual excitement of both interior and exterior but also provides conditions for various activities.
stack rooom entrance
library entrance couryard
青浦动迁实验 QINGPU RELOCATED EXPERIMENT 11/2010 In Shanghai, the city is spreading at a surprising speed. Rural areas are continuously urbanized. As a result, many former farmers have to move out from their original residence (usually low dense rural houses) to a totally new settlement (usually collective houses). Each relocated family, as policy says, will obtain three dwellings from the government. In most cases, the relocated family will live in one suit and rent out the other two. On the other hand, the urban construction and the growth of economy demand a large deal of physical and mental labor. Therefore, many young people with particular skills or knowledge migrate to Shanghai to seek career chances. Many of these young people are little wage-earning at the very beginnings of their careers and are usually very busy. For this reason, they need some cheap and convenient place to live temporarily.
our plan. We would like our buildings stand low and harmony with the suroundings. Some boats parked boats and our community is thetoharbor. parking along the bank inspired us so that we find our pattern language. Our buildings are just like parked boats and our community is the harbor. Sight
Shading and Angle
Sight
Shading and Angle 30°
before before
Visual field
20°
10°
30°
20°
10°
-10°
-20°
-30°
-10°
-20°
-30°
after after
In order to field gain a wider visual field, we rotate some buildings along the river. Therefore, the buildings Visual distant from the river will also have chances facing the nice scenery in a wide range. In order to gain a wider visual field, we rotate some buildings along the river. Therefore, the buildings distant from the river will also have chances facing the nice scenery in a wide range.
Public Privacy Public Privacy
Public, Communication
Public Privacy
Privacy Public
Privacy
Privacy
In the commnity for the young, they share the same central public space which is resulted in the Public, Communication social charactors of young people. We do not emphasis the privacy of semi-public of each groups In the commnity young, sharetothe same public space which in the because we'd likefortothe offer them they a chance walk out central from their small groups andistoresulted communicate social charactors of young people. We dofriends. not emphasis the we privacy of semi-public of eachplatform groups in whole community with more potential Therefore, construct a semi-exterior because we'd likedirecting to offer them a chance to central walk outspace from their small groups and to communicate in each building straightly to the which would be supported by variety in whole community with more potential friends. Therefore, we construct a semi-exterior platform operations and activities. in each building directing straightly to the central space which would be supported by variety operations and activities.
Greeting
Water front
Greeting
The site is just near a river. Therefore, how to deal with and utilize the water front is one key issue in our plan. We would like our buildings to stand low and harmony with the suroundings. Some boats parking along the bank inspired us so that we find our pattern language. Our buildings are just like Shopping parked boats and our community is the harbor. Shopping
Sight
Shading and Angle
Recreation
before
Visual field
30°
20°
-10°
-20°
Recreation
10°
after
Sports Sports
-30°
In order to gain a wider visual field, we rotate some buildings along the river. Therefore, the buildings distant from the river will also have chances facing the nice scenery in a wide range.
12 12
Type A
Type B
Type C
Type D
Multiply
90m2 multi-floor apartments for the young
Stack
Multiply 90m2 multi-floor apartments for the young
laundry barbershop shop printshop drugstore housekeeping commercial and household service
60m2 small dwellings for the single
Combination
自然的维度 THE DIMENSION OF NATURE 05/2012 YONGSAN DISTRICT URBAN DESIGN
编织装置 | WEAVING SWIRL 07/2011
Director: Pro.Philipe Yuan Collaborators: Qian Lie, Gao Yi, Chen Jingcheng, He Jing
喀斯特 | FORMING OF KARST 07/2011 Karst topography is a geologic formation shaped by the dissolution of a layer or layers of soluble bedrock, usually carbonate rock such as limestone or dolomite, but has also been documented for weathering resistant rocks like quartzite given the right conditions. Due to subterranean drainage, there may be very limited surface water, even to the absence of all rivers and lakes. Many karst regions display distinctive surface features, with cenotes, sinkholes or dolines being the most common. However, distinctive karst surface features may be completely absent where the soluble rock is mantled, such as by glacial debris, or confined by a superimposed non-soluble rock strata. Some karst regions include thousands of caves, even though evidence of caves that are big enough for human exploration is not a required characteristic of karst.
chemical model
cave sections
16
织墙 | WEAVING WALL 05/2013
WEAVING FABR
30
RICATION
Silin, Xuezi,Zilong
32 4 2 3 4 2 3
17 3 2
79
79
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2
23
2 3 3
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97 203 97
69
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欲望都 | CITY OF DESIRE 12/2012
Date:12/2012 Director: Winka Dubbledam Collaborator:Silin He
Bogota city, city, the the capital capital of of Colombia, Colombia, isis experiencing experiencing the the most most Bogota rapid changes during these years. Downtown Bogota, with its poor rapid changes during these years. Downtown Bogota, with its poor conditions, is becoming more and more empty and fragmented. conditions, is becoming more and more empty and fragmented. As aa result result of of civil civil war war in in 1948, 1948, the the downtown downtown isis now now quite quite empty empty As and insecure. However the historical area is just in the center within and insecure. However the historical area is just in the center within which located the national government and presidential palace. which located the national government and presidential palace. Therefore the the government government wants wants to to bring bring the the people people back back to to Therefore downtown. What's critical is that the poor people cannot afford the downtown. What's critical is that the poor people cannot afford the living expense expense and and the the rich rich do do not not want want to to come come back back considering considering living the safety problems. the safety problems. The developers developers are are still still building building housing housing and and housing housing again, again, but but The nobody lives there. We really need to build some public structrues nobody lives there. We really need to build some public structrues there so so that that these these will will bring bring some some activities activities there there which which we we believe believe there will help to motivate the downtown area. will help to motivate the downtown area. Thelarge largearea areaof offormer formerindustrial industrialzones zonesisisgoing goingto tobe berenovated renovatedinin The the future. This area used to be the most important industrial area the future. This area used to be the most important industrial area which contributed a lot to Bogota economy. As the city develops, the which contributed a lot to Bogota economy. As the city develops, the price of the land there is more and more expensive so that most of price of the land there is more and more expensive so that most of the former industry cannot afford the expense to stay here. What's the former industry cannot afford the expense to stay here. What's more,the thecity citygovernment governmenthad hadset setaanumber numberof ofpolicies policiesto toencourage encourage more, those industrial companies, especially those highly polluting and those industrial companies, especially those highly polluting and poisonous ones, to move out of the city to rural areas. poisonous ones, to move out of the city to rural areas. The present present situation situation isis that that many many of of those those factories factories are are deserted deserted The and occupied by informal residence. Therefore this area highly and occupied by informal residence. Therefore this area isis highly insecure at present. As the norms say the government is going to insecure at present. As the norms say the government is going to renovate this district for office and business use. But in our opinion, renovate this district for office and business use. But in our opinion, this area area isis really really aa great great place place with with potential potential to to be be developed developed into into this an cultural area. Those empty factories could be rented to artists an cultural area. Those empty factories could be rented to artists at aa low low rental rental so so that that itit would would attract attract tourists tourists here here with with who who will will be be at followed retail and service function. Only in this way could this area followed retail and service function. Only in this way could this area behealthy healthyand andvigor. vigor. be 20
City started to develop to the North and South from the Nodes. The trading route to northern port cites had replaced the Bogota River to be the dominant connection to the outer world. As a result, the northern part of the city gradually became the ecnomic zone where live the upper class now. The domestic migration from rural areas gathered aroud the southwest urban node.
Two city nodes were formulated to connect to the port cities in the North and other populated Columbia cities to the Southwest. Those port cities were becoming more and more crucial to the Atlantic trade route.
The Bogota River is the main connection between the city and the world. A historic skeches shows how the colonist crossed the Atlantic Ocean, entered the the Magadalena River and its subsidiary, the Bogota River, to finally reach the destination of the Bogota city. Therefore a main road, which is now Calle 13, was built to connect the Bogota River to the northwest of the city.
The Bogota City was first established between two subsidiaries of Bogota river. It is located on a plateau for defence consideration. The native inhabitance was developed into a Spanish colonial settlement which has a clear grids system with a square, Boulivard Plaza, in the center.
The northern part of the city along the trading route became more and more prosperous because of the railway establishment and that partly explains why the north part of Bogota today enjoyed higher quality of life and facilities.
With the Industrial Revolution, a lot of factories were built along the Calle 13 as it is close to the Bogota River and its subsidiaries which were main water and power source and disposal ducts for the industries. Therefore, a railway was established to connect industrial areas and northern port cities transporting raw materials and goods in and out of the city.
24
25
MASTER PLAN The downtown area is quite a fragmented one with seperated groups and different needs and desires which cause a war for space.
es which cause a war achieve a compromise ated a lot of lines with o make them repell or prototypes.
We want to build a self-organized system dealing with various desires in downtown to achieve a compromise and a banlance between supply and needs. Ferri Otto's experiment really inspired us.
26
Fi r s t we c re a te d a l o t o f l i n e s w i t h different colors and properties indicating desire connections of different groups. Then we set rules to make them repell or adictive to each other. Based on the generated diagram, we did the programing and developed four prototypes.
URBAN HUB This high densed cluster constitute of highrise office buildings, shopping malls and a new station on the old railway. This would be attracting to middle and upper class people and would also provide job opportunities for lower class people. We consider this as a district where people exchange what they have and what they need. Different social groups would emerge in this place and get better understandings of each other.
ART CENTER Art area combined with landscape could fully utilize the industrial legacy and adjacent historical district to attract tourists. Local craft school could benefit from this.
STUDENT/SOCIAL HOUSING This can accomodate students from both University city to northwest and craft school nearby. This will surely bring some fresh blood to this region and promote the value of the land.
表面膨胀 | SURFACE EXPENSION 05/2013
形态效率 | FORMAL EFFICIENCY 05/2013
PROFESSIONAL WORKS
STL ARCHITECTS
AS + GG ARCHITCTURE LLP
安博特的住家更新 AMBORTS' HOUSE RENOVATION 11/2013
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18 Ch 39 W ica E go ve , IL rg 60 reen 61 A 0 ve
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18 Ch 39 W ica E go ve , IL rg 60 reen 61 A 0 ve
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W North Ave
W Schiller St
N Damen Ave
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1 SITE PLAN 1
3 CITY CONTEXT
1/128" = 1'-0"
N.T.S
SITE PLAN
1/128" = 1'-0"
7
2
5
W Evergreen Ave
3
6
Ground Floor +2'-6" Ground Floor +2'-6"
Garden Level -0'-7 1/2"
1 4 Street Level +0'-0"
8
3
5 6
Ground Floor +2'-6"
4. Back Garden
2 PROPERTY PLAN 1/16" = 1'-0"
LEGEND 1. Concrete Path at Entry 2. Front Garden 3. Back Terrace
Garden Level -0'-7 1/2"
6. Garage 7. North Building 8. South Building Property Line
4'-0 3/4"
13'-0 3/4"
1'-0"
18'-3 1/4"
7'-7 3/4"
Ground Floor +2'-6"
3'-0" 6'-0"
9'-6 3/4"
1'-0"
11'-7 1/2"
11'-9"
Garden Level -0'-7 1/2"
4'-0"
1'-1 1/2"
15.2 sf.
1'-0"
8'-5 1/8"
81.1 sf.
4'-0 3/8"
11'-8 3/4"
7'-3 1/4"
127.7sf.
2'-0 3/8"
5'-9 1/2"
2'-9 1/2"
7'-1 3/4"
Ground Floor +2'-6"
2'-6"
15'-5 1/2" Landing +2'-4"
205.8 sf.
5'-6 3/4"
246.3 sf.
3'-0"
385.1 sf.
2'-9 3/4"
11'-4 3/4"
3'-0"
3'-8 1/4"
2'-0"
1'-0"
2'-0" 32'-9 1/4"
2'-0"
Street Level +0'-0"
1 FIRST FLOOR 1/8" = 1'-0"
8a
2
1
8b
11
8c 8
7
12
10
8d
9
4
3
6
13
5
14
2 FIRST FLOOR PLAN 1/8" = 1'-0"
FURNITURE LAYOUT
LEGEND 1. Sitting Room 2. Dinning Room 3. Foyer 4. Cloak Room 5. Powder Room
DIMENSIONS & AREAS
6. Study Room 7. Aquarium 8. Kitchen 8a. Fridge
8c. Dishwasher 8d. Dinning Island 9. Stairs to Basement 10. Family Room
8b. Ovens
11. Grill
12. Terrace 13. Garden
1
8
10
NEW
OLD
313.2 sf. 786.2 sf.
14. Library 3
5
6
2'-0"
5'-6"
3'-5 3/8"
4'-8 7/8"
13'-8 3/4"
EQ.
2'-0"
96.9 sf.
279.9 sf.
20'-3 1/4"
6'-9 1/2"
47.9 sf.
5'-8"
5'-2"
54.4 sf.
111.4 sf.
4'-7 3/4"
4'-2 7/8" 2'-6"
146.1 sf. 46.8 sf.
2'-1"
13'-9 3/8"
12'-4 7/8"
9'-7 1/4"
2'-0" 8'-7 1/2"
3'-5 1/2"
19'-2 3/8"
205.4 sf.
12'-2 3/8"
32.7 sf.
EQ.
29.0 sf.
6'-7 7/8"
1'-5 3/4"
44.1 sf.
4'-8 3/4"
5'-10"
6'-4 1/2"
6'-10"
11'-0 1/4"
1 SECOND FLOOR 1/8" = 1'-0"
4a
1
4
4b
3a
2
DIMENSIONS & AREAS
3c 3e
3b 3d
4c
3 4b
4d
4e
2 SECOND FLOOR PLAN 1/8" = 1'-0"
FURNITURE LAYOUT
LEGEND 1. 2. 3. 3a. 3b.
Guest Room Guest Bathroom Master Bathroom Toilet and Bidet Shower
3c. 3d. 3e. 4. 4a.
Towel Warmer Bathtub Basins Master Bedroom Vanity Room / Dressing Room
4b. Dressing Room 4c. Sitting Room 4d. Bedroom 4e. Terrace
1
3a
2 3d
4b
4a 3e 4b
4c
4d 4e
NEW
OLD
571.3 sf. 527.5 sf.
56.6 sf.
2'-0"
56.6 sf.
11'-11"
18'-5 1/8"
3'-6 1/8"
8'-3 5/8"
7'-3"
2'-0"
8'-3 5/8"
3'-5 7/8"
12'-9 7/8"
251.9 sf.
239.1 sf.
14'-3 7/8"
8'-8 3/8"
14'-4 1/8"
164.2 sf.
17'-7 3/8"
12'-0"
11'-11"
1 THIRD FLOOR 1/8" = 1'-0"
DIMENSIONS & AREAS
6
2
3
4 7
1
5
2 THIRD FLOOR PLAN 1/8" = 1'-0"
FURNITURE LAYOUT
LEGEND 1. 2. 3. 4. 5.
Bedroom 1 Bathroom 1 w/ bathtub Bathroom 2 w/ shower Sitting Room Bedroom 2
6. Terrace 7. Skylight over Stairs
2 1
4
NEW
OLD
3 5
572.9 sf.
163.7 sf.
808 N Dearborn Street,
ROOF +34'-5 7/16"
1
+8'-4 7/8"
2
3
PROJECT INFORMATIO
Ambort House
Project Nam
+7'-7 3/4"
1839 Evergreen
Project Addr
8'-9 3/4"
Alison, Steven
Owner's Nam
Project Num
PROJECT TEAM
THIRD FLOOR +25'-0 1/8"
4
+9'-8"
5
8
7
6
STL Arc Architect MEP Structural Civil
10'-10"
Landscape Lighting Acoustical
STL TEAM INFORMATIO
SECOND FLOOR +14'-0 1/2"
9
10
+10'-4 1/2"
Project Direc
11 ISSUED FOR
11'-6 1/2" GROUD FLOOR +2'-6" 3'-1 1/2"
13
12
STREET LEVEL +0'-0"
GARDEN LEVEL -0'-7 1/2"
1 SECTION
1
NO.
1/8" = 1'-0"
INTERNAL REVIEWS
Design Revi
LEGEND 1. 2. 3. 4. 5.
Girl's Bedroom 1 Girls' Seating Room Girl's Bedroom 2 Guest Room Master Bathroom
SHEET INFORMATION
6. 7. 8. 9. 10.
Master Seating Room Master Bedroom Terrace Sitting and Dinning Room Kitchen
11. Family Room 12. Basement (Boiler) 13. Basement (Washing Machine)
1
2
3
4
5
6
NEW
OLD 7
9
10
4
5
11
Section
Sheet Name
8 572.9 sf.
163.7 sf.
COPYRIGHT
C
2013
ROOF +35'-2 9/16"
ROOF +34'-5 7/16"
EXSITING BUILDING
THIRD FLOOR +25'-0 1/8"
NEW CONSTRUCTION
SECOND FLOOR +14'-0 1/2"
SECOND FLOOR +14'-0 1/2"
GROUD FLOOR +2'-6"
GROUD FLOOR +2'-6"
STREET LEVEL +0'-0"
3
GARDEN LEVEL -0'-7 1/2"
1
NORTH ELEVATION
3/32" = 1'-0"
ROOF +34'-5 7/16"
THIRD FLOOR +25'-0 1/8"
WEST ELEVATION
3/32" = 1'-0"
EXSITING BUILDING
LEGEND
SOUTH ELEVATION
3/32" = 1'-0"
ROOF +35'-2 9/16"
THIRD FLOOR +25'-0 1/8"
NEW CONSTRUCTION
SECOND FLOOR +14'-0 1/2"
SECOND FLOOR +14'-0 1/2"
GROUD FLOOR +2'-6"
GROUD FLOOR +2'-6" STREET LEVEL +0'-0"
GARDEN LEVEL -0'-7 1/2"
4
THIRD FLOOR +25'-0 1/8"
2
EAST ELEVATION
3/32" = 1'-0"
80
PR
A
4 THIRD FLOOR 1/16" = 1'-0"
DEMOLISHED
1 THIRD FLOOR 1/16" = 1'-0"
18 EXISTING
A
PR
NEW CONSTRUCTION
EXISTING CONDITION
656.0sf.
195.8 sf.
THIRD FLOOR EXTRA 23%
EXISTING CONDITION
NEW CONSTRUCTION
ST
5 SECOND FLOOR DEMOLISHED
2 SECOND FLOOR
EXISTING
6 FIRST FLOOR
3 FIRST FLOOR
EXISTING
1/16" = 1'-0"
623.5 sf.
1/16" = 1'-0"
IS
590.1 sf.
SECOND FLOOR EXTRA 49%
EXISTING CONDITION
NEW CONSTRUCTION
641.9 sf.
568.1 sf.
FIRST FLOOR EXTRA 47%
7 EXISTING & NEW CONSTRUCTION N.T.S
1/16" = 1'-0"
DEMOLISHED
1/16" = 1'-0"
IN
LEGEND
SH
E
CO
欧贝罗伊国际学校竞赛 COMPETITION: OBEROI INTERNATIONAL SCHOOL 08/2013
苏州苏地 2012-G82 地块项目方案设计 SKEMETIC DESIGN SUZHOU GOLDENLAND 01/2014-06/2014
This blue dash is tanget to the first portion of the circular curve
62200mm 60000mm 23420mm F
F
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Midpoint between two tangent
C
174900mm
260000mm
Blue lines go to center point of circle with radius 1738550.78mm
F
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85800mm
B
A
1
2
Three point circle
34
A
1
2
34
Conic with 2 tangents. Rho = .45
A
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Final tower outline
BAY STREET
EXISTING ENTRANCE
*
YONGE STREET
TORONTO EATON CENTER OLD CITY HALL
QUEEN STREET WEST
HUDSON’S BAY
EXISTING ENTRY AT QUEEN STREET
OLD CITY HALL
QUEEN STREET WEST
TORONTO EATON CENTER
PROPOSED ENTRANCE
YONGE STREET
多伦多伊顿中心步行连桥概念设计 CONCEPT DESIGN TORONTO EATON CENTER BRIDGE 10/2014
BAY STREET
SCALE: 1:1500
*
HUDSON’S BAY
PROPOSED ENTRY AT QUEEN STREET SCALE: 1:1500
HUDSON’S BAY +0.00 m T/FF
+5.75 m T/FF
HUDSON’S BAY
TORONTO EATON CENTRE +0.00 m T/FF +5.05 m T/FF
+5.75 m T/FF
TORONTO EATON CENTRE +5.05 m T/FF
FLOOR PLAN
SCALE: 1:150
FLOOR PLAN
SCALE: 1:150
HUDSON’S BAY
HUDSON’S BAY
TORONTO EATON CENTRE
TORONTO EATON CENTRE
ROOF PLAN
SCALE: 1:150
VIEW EAST TOWARD YONGE STREET VIEW EAST TOWARD YONGE STREET
VIEW WEST TOWARD BAY STREET
MATERIALS Identify opportunities for re-using steel pipe, potentially from another industry, to be bent and used in bridge construction. Source aluminum extrusions with the lowest embodied carbon. Use recycled materials for walking surface.
EXTERIOR LIGHTING
REDUCE COOLING DEMAND
LED lighting embedded in glass panels provides a branding and revenue generation opportunity on the bridge’s envelope, as well as illuminating the interior space when active.
Sensor-driven or manually operable windows open during favorable weather. Sensor-driven, motorized roof panels exaust heat during summer.
REDUCE HEATING DEMAND Hydronic floor system provides heat at lower cost while requiring less volume.
阿斯坦纳世博会 ASTANA EXPO 01/2014-12/2014
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00 19
WP-C4.6
SE
10 00
0.32°
00 10
SW
WP-C3.5
41 50
37
7. 10°
WP-C3.2 7.1
5°
5°
0 415
7. 40 °
41 50
23
WP-C4.2
4150
7.40 °
WP-C4.1
17 7.1
C4.2 67
.50°
TYPE D
16
° 7.40
WP-C3.4
19
C3.2 TYPE D
20
17 0°
0°
7.1
15
15 13
11
12
7.10°
7.10°
10 9
12.15°
8
MIRROR LINE FOR PAVILION C AND PAVILION D
24
23
21
4150
20
19
0° 7.4
WP-C3.3
21
27 28 .7
0.32°
24
0°
25
0.32°
TYPE D
TYPE C
33
.7 33
0.32°
0.32°
C3.1
31
29
0.32°
0.32°
25
C4.3
0.32°
1900
0°
1000
1900
33 50
WP-C4.3 7.1
41 50
27
1000
33 32
0.32°
50 41
28
0.32°
1000
0.32°
50 33
1000
3350
29
12
10 00
00 10 0 190
10° 7.
31
WP-C3.1 00 10
10 00
0.32°
32
TYPE C
C3.5
10 00
190 0
C4.4
C4.6 19 00
0.32°
37
33 50
00 19
50 33
WP-C4.4
33
3350
.15°
00 10
12
0.32°
.15°
0.32°
50 41
C4.1 33.75°
7
9
12.15°
3
3 So.
TYPE C
7
11
16
13
C3.3
12
TYPE D
67
.50°
8
C3.4 TYPE C
33.75°
____ 1A
MIRROR LINE FOR PAVILION C AND PAVILION D
GS-0806
MIRROR LINE FOR BUILDINGS #C3 AND BUILDINGS #C4
GEOMETRY PLAN - PARCEL C ROOF 0 0.5
1
2.5
5
Scale: Sheet:
1 : 1000 GS-0805
2A
2014.12.19 IN NOT FO
ROOF GEOMETRY STEP 1: CREAT A SECTION PLANE (AS SHOWN BELOW) THROUGH WP-B1 (PROJECT ORIGIN) STEP 2: DRAW A LINE THROUGH WP-SEC1 AND WP-SEC2 ON SECTION PLANE AND REVOLVE IT AROUND Z AXIS ON WP-B1 TO GET REFERENCE CONIC PLANE #1
REFERENCE CONIC PLANE #3 WP-B1 REFERENCE CONIC PLANE #2
STEP 3: DUPLICATE THE REFERENCE CONIC PLANE #1 UP BY 1000 MM AND 7000 MM TO GET REFERENCE CONIC PLANE #2 AND #3
REFERENCE CONIC PLANE #1
STEP 4: FIND WP-SEC3 AND DRAW A HORIZONTAL LINE THROUGH WPSEC3 ON SECTION PLANE
REFERENCE CONIC PLANE #1
STEP 5: ROTATE THE LINE IN STEP 3 ON SECTION PLANE BY 1.72 DEGREE AND REVOLVE IT AROUND Z AXIS ON WP-B1 TO GET REFERENCE CONIC PLANE #4
WP-SEC2
STEP 6: PROJECT GUTTER EDGES (SEE GS-0802 & GS-0803) ONTO REFERENCE CONIC PLANE #1
WP-SEC1
SETP 7: PROJECT ROOF EDGE (SEE GS-0802 & GS-0803) ONTO REFERENCE CONIC PLANE #2 9
8
STEP 8: PROJECT ROOF RIDGE (SEE GS-0804) ONTO REFERENCE CONIC PLANE #3
7
6
5
8
3
STEP 1&2
2
1
STEP 3 FLAT ROOF EDGE
NOTE - REFER TO ROOF PLANS AND SECTIONS FOR ADDITIONAL INFORMATION 9
4
NOT
STEP 9: PROJECT FLAT ROOF EDGE (SEE GS-0803) ONTO REFERENCE CONIC PLANE #4
GUTTER EDGE 7
ROOF EDGE
6
5
4
3
2
1
NOT
ROOF RIDGE
PARCEL C ROOF GEOMETRY DIAGRAM1 Sheet: Scale:
1E
GS-0806 NTS
DRAWIN
AS+GG
REFERENCE CONIC PLANE #3 REFERENCE CONIC PLANE #2
26525.1
E
J
REFERENCE CONIC PLANE #1
6000
REFERENCE CONIC PLANE #1
T
3000 1400
24959.1
REFERENCE CONIC PLANE #4
WP-SEC3 PROJECTED GUTTER EDGE 26100.0
WP-SEC2 1000
Q REFERENCE CONIC PLANE #2
REFERENCE CONIC PLANE #4
PROJECTED ROOF EDGE
REFERENCE CONIC PLANE #1
1
№ П.П Rev. No
REFERENCE CONIC PLANE #2
1000
WP-SEC3 20400.0
WP-SEC1
REFERENCE CONIC PLANE #4
PROJE
PROJECTED ROOF EDGE
PROJECTED GUTTER EDGE 1.72°
DESIG
ARCHITEC
WP-SEC3
ADRIAN
STEP 4&5
STEP 6
GUTTER EDGE
STEP 7
Architects 111 West Chicago Tel: 312 9 Fax: 312
ROOF EDGE
INFRASTR
OTHER CO
LEVEL 01 5750
STEP 4&5
2200
STEP 6
1000 EDGE 3000 GUTTER
STEP 7
ROOF EDGE
4809
DRAWN
DRAWIN CHECK
APPRO
REFERENCE CONIC PLANE #3
GEOMETRY SECTION - PARCEL C ROOF 0 0.5
REFERENCE CONIC PLANE #4
PROJECTED ROOF RIDGE
1
2.5
5
Scale: Sheet:
1 : 200 GS-0806
DRAWIN AS+GG
PROJECT УЧАСТОК
1A
АСТ-Э
FILE PATH
DRAWIN
PROJECTED FLAT ROOF EDGE
REFERENCE CONIC PLANE #3
КОЛ.У ИЗМ AS+GG TRUE NORTH
PROJECT NORTH
1
REFERENCE CONIC PLANE #4
№ П.П No
ГАП Rev.
2014.12.19 IN-PROGRESS ISSUE NOT FOR CONSTRUCTION
ПРОВЕРИЛ РАЗРАБОТАЛ
PROJECTED ROOF RIDGE
PROJECTED FLAT ROOF EDGE
1 PROJE № П.П Rev. No
STEP 8
ROOF RIDGE
STEP 9
FLAT ROOF EDGE
FINAL GEOMETRY
DESIG
ARCHITEC
ADRIAN
Architects 111 West
Chicago PROJE Tel: 312 9 Fax: 312
INFRASTR
STEP 8
ROOF RIDGE
STEP 9
FLAT ROOF EDGE
FINAL GEOMETRY
PARCEL C ROOF GEOMETRY DIAGRAM2 Sheet: Scale:
GS-0807 NTS
OTHER CO
DESIG
1B
ARCHITEC
ADRIAN
Architects 111 West Chicago Tel: 312 9 Fax: 312
INFRASTR
DRAWN
PARCEL C ROOF GEOMETRY DIAGRAM2 Sheet: Scale:
GS-0807 NTS
CHECK OTHER CO
1B
APPRO
DRAWIN
PROJECT УЧАСТОК
АСТ-Э
FILE PATH
DRAWN
CHECK
APPRO
DRAWIN ИЗМ КОЛ.У TRUE NORTH
PROJECT NORTH
PROJECT УЧАСТОК
АСТ-Э 2014.12.19 IN-PROGRESS ISSUE NOT FOR CONSTRUCTION
ГАП FILE PATH ПРОВЕРИЛ РАЗРАБОТАЛ
9
8
7
6
5
4
3
2
1
ROOF GEOMETRY STEP 1: CREAT A SECTION PLANE (AS SHOWN BELOW) THROUGH WP-B1 (PROJECT ORIGIN) STEP 2: DRAW A LINE THROUGH WP-SEC1 AND WP-SEC2 ON SECTION PLANE AND REVOLVE IT AROUND Z AXIS ON WP-B1 TO GET REFERENCE CONIC PLANE #1
REFERENCE CONIC PLANE #3 WP-B1 REFERENCE CONIC PLANE #2
STEP 3: DUPLICATE THE REFERENCE CONIC PLANE #1 UP BY 1000 MM AND 7000 MM TO GET REFERENCE CONIC PLANE #2 AND #3
REFERENCE CONIC PLANE #1
STEP 4: FIND WP-SEC3 AND DRAW A HORIZONTAL LINE THROUGH WPSEC3 ON SECTION PLANE
REFERENCE CONIC PLANE #1
STEP 5: ROTATE THE LINE IN STEP 3 ON SECTION PLANE BY 1.72 DEGREE AND REVOLVE IT AROUND Z AXIS ON WP-B1 TO GET REFERENCE CONIC PLANE #4
WP-SEC2
STEP 6: PROJECT GUTTER EDGES (SEE GS-0802 & GS-0803) ONTO REFERENCE CONIC PLANE #1
WP-SEC1
SETP 7: PROJECT ROOF EDGE (SEE GS-0802 & GS-0803) ONTO REFERENCE CONIC PLANE #2 STEP 8: PROJECT ROOF RIDGE (SEE GS-0804) ONTO REFERENCE CONIC PLANE #3 STEP 9: PROJECT FLAT ROOF EDGE (SEE GS-0803) ONTO REFERENCE CONIC PLANE #4
STEP 1&2
STEP 3 FLAT ROOF EDGE
NOTE - REFER TO ROOF PLANS AND SECTIONS FOR ADDITIONAL INFORMATION
GUTTER EDGE ROOF EDGE ROOF RIDGE
PARCEL C ROOF GEOMETRY DIAGRAM1 Sheet: Scale:
REFERENCE CONIC PLANE #3 REFERENCE CONIC PLANE #2
GS-0806 NTS
1E
26525.1
E
J Q
REFERENCE CONIC PLANE #4
REFERENCE CONIC PLANE #1
T
3000 1400
24959.1
6000
WP-SEC3
26100.0
1000
1000
WP-SEC2
20400.0
WP-SEC1
1.72째
LEVEL 01 5750
2200
1000
4809
3000
GEOMETRY SECTION - PARCEL C ROOF 0 0.5
1
2.5
5
Scale: Sheet:
1 : 200 GS-0806
1A
TRUE NORTH
2014.12.19 IN-PROGRESS ISSUE NOT FOR CONSTRUCTION
PROJECT NORTH
SOUTH ORIENTATION: 165 DEGREES FROM NORTH DAYLIGHTING ANALYSIS : SEPTEMEBER 21 09:00 GOAL: 300LUX AT 700MM AFF. ACHEIVED: 14.8% >= 300 LUX
WWR: 33%
SOUTH ORIENTATION: 165 DEGREES FROM NORTH DAYLIGHTING ANALYSIS : SEPTEMEBER 21 09:00 GOAL: 300 LUX AT 700MM AFF. ACHEIVED: 16.5% >= 300 LUX
WWR: 45%
INTERNATIONAL PAVILION C3.3
SOUTH ORIENTATION: 165 DEGREES FROM NORTH DAYLIGHTING ANALYSIS : SEPTEMEBER 21 15:00 GOAL:300LUX AT 700MM AFF. ACHEIVED: 28.4% >= 300 LUX
WWR: 33%
SOUTH ORIENTATION: 165 DEGREES FROM NORTH DAYLIGHTING ANALYSIS : SEPTEMEBER 21 15:00 GOAL: 300 LUX AT 700MM AFF. ACHEIVED: 36.5% >= 300 LUX
WWR: 45%
3
FACADE SOLAR ANALYSIS
SOLID INSULATED ROOF WITH INTEGRATED PHOTOVOLTAIC PANELS • U-VALUE= .15 W/m2K
INTERNATIONAL & THEMATIC PAVILIONS
ANGLED CEILING TO MAXIMIZE VISTAS AND DAYLIGHTING
40% RATIO OF SOLID WALL TO VISION GLAZING • GLAZING U-VALUE = .8 W/m2K
SUMMER SUN
PV PANELS COLLECT ENERGY • PV PANEL SURFACE AREA MAXIMIZED
DASHED LINE INDICATES ‘DESK HEIGHT’ FOR CALCULATING DAYLIGHTING VALUES
ANGLED CEILING TO MAXIMIZE VISTAS AND DAYLIGHTING
LIGHT SHELF DESIGNED TO THROW LIGHT DEEP INTO THE BUILDING
REINFORCED CONCRETE WALL BASE PROVIDES BARRIER FROM SEASONAL ELEMENTS
WINTER SUN 50% RATIO OF SOLID WALL TO VISION GLAZING • GLAZING U-VALUE = .8 W/m2K
GLAZING 90•
02.24.2014
EAST/WEST WALL GLAZING 80•
SOUTH WALL GLAZING 75•
EXPO SITE
NORTH WALL
ASTANA EXPO 2017
153
Concetric Arc
Eccentric Arc Concentric Arc
DESIGN SURFACE: DOUBLE CURVED SURFACE
STEPING CO TYPICAL CON
FIT PLANE THROUGH 4 CONER POINTS
DESIGN SURFACE
RETRIM TO FIT IN
FIT PLANE FL
DESIGN SURFACE CURVATURE
FIT FLAT SURFACE CURVATURE
ONICAL SURFACE: NICAL SURFACE
STEPING FLAT SURFACE: SYMETRIC TRAPEZOIDAL FLAT SURFACE
STEPING CYLINDRICAL SURFACE: SYMETRIC TRAPEZOIDAL SINGLE CURVED SURFACE.THE DEVIATION IS CLOSE TO CONICAL SURFACE.
STEP1: DRAW ARC TRHOUGH MID POINTS
STEP2: MOVE ALONG CENTER LINE
LOFT ARCS AND TRIM TO FIT
LAT SURFACE:
FIT SINGLE CURVE SURFACE:
DESIGN SURFACE CURVATURE
FIT SINGLE CURVED SURFACE CURVATURE