speculation of future city ? portfolio | WEN Fan 2006 - 2017
content
Supermicro City | thesis project
01
Urban Water Park | design studio
11
Negative Block | design studio
17
Rhythm of Construction | research project
25
Campus Recycler | design studio
29
Close City | undergraduate final project
35
Other Works
41
____ Supermicro City / thesis project Site: Gangxia Village, Shenzhen January . 2015 | 6 months M.arch Thesis | Supervisor: Juan DU Individual work
for detail information, please visit: https://wenfan.hk/projects/supermicro-city
supermicro city | 01
The thesis is about the scale of public space. The scale of architecture and city has been enlarged in the past decades, and has deeply impacted urban public space. However, public space is not a kind of space, but a condition of space, which cannot be calculated by numbers. The enlargement of space has not created more public space, but has eliminated a lot, which also brings inequality both socially and economically. From the perspective of architecture, this thesis will illustrate the huge potential of architecture and urban, on how scale alone embodies an ideological program and how it can impact the social relationship and economic development.
proposed development (under construction)
demolished houses
modification proposal
supermicro city | 02
Gangxia Village map | before demolition
68,000 293,103 525,000 ???
Gangxia Village map | after redevelopment
3,887 16,756 1,083,000 22,660
ppl
ppl
ppl/sqkm
ppl/sqkm
sqm (GFA)
sqm public space
sqm public space
Gangxia Village | before demolition
sqm (GFA)
Gangxia Village | after redevelopment
supermicro city | 03
continuous ground
1:1000 0m 20m 50m 100m
| before demolishment
this image is scaled down for printing
area for 1:500 drawing
supermicro city | 04
discontinuous ground
1:1000 0m 20m 50m 100m
| after redevelopment
re-connected multi-ground
1:1000 0m 20m 50m 100m
| modification proposal
area for 1:500 drawing
this image is scaled down for printing
area for 1:500 drawing
1:500
intimate interface | before demolishment
0m 10m 25m 50m this image is scaled down for printing
area for 1:100 drawing
1:500
distant interface | after demolishment
0m 10m 25m 50m this image is scaled down for printing
area for 1:100 drawing
1:500
intensified interface | modification proposal
0m 10m 25m 50m this image is scaled down for printing
area for 1:100 drawing
supermicro city | 05
dynamic boundary
1:100 0m1m
| before demolishment
5m
10m
this image is scaled down for printing
solid boundary
1:100 0m1m
| after demolishment
5m
10m
this image is scaled down for printing
thickened boundary | modification proposal
1:100 0m1m
area for 1:50 drawing
最新优惠 latest news
supermicro city | 06
10m
this image is scaled down for printing
area for 1:50 drawing
area for 1:50 drawing
5m
spontaneous insertion | before demolishment
1:50 0m 1m 2m
5m
this image is scaled down for printing
NO insertion | after demolishment
1:50 0m 1m 2m
5m
this image is scaled down for printing
designed insertion | modification proposal
1:50 0m 1m 2m
5m
this image is scaled down for printing
supermicro city | 07
Hey, WEN, long time no see!
Yes, I bring my daughter to visit our family temple!
1 rmb for each, the same price, right?
hello, do you want some snacks?
I want to go home!
supermicro city | 08
don’t worry, I’ll take you home!
today is your grandfather’s death anniversary, let’s visit the family temple!
who said we cannot use this space?! It’s a great place for hanging clothes!
a empty small garden here! Anyone wants to have a gathering here?
yeah! also a good place to prepare dinner!
hey,are you going to the food market! yes, the vegetable in the market is much cheaper!
hello, here is your express package!
supermicro city | 09
1
share your space
2
search for space
3
book space
4
guide you to the space
Besides the four physical scales, there is a new scale that appeared in the current city. That is the mobile device scale. On this scale, an App named Spacehunter has been developed to help better the “supermicro city�. Nowadays, Internet has changed our life drastically. Thousands of APPs are appearing everyday which help break the information asymmetry, connecting whatever kind of resources. Apparently, all of Taobao, Google, and Tencent are doing the same thing that connecting everyone, and connecting every piece of information and resource.
http://spacehunter.org
a shared kitchen address: 3F, Rongchao Garden, Gangxia village area: 8 sqm facilities: tel: 56232222 price: 10 rmb / 2H
book direction
a short passage address: 13F, Fuhua Building, Gangxia village area: 12 sqm facilities: tel: 25818222 price: free!
book direction
a private parking lot address: LG2, Fuhao Garden, Gangxia village area: 2 sqm facilities: tel: 85624555 price: free!
book direction
payments supported:
download spacehunter right now!
supermicro city | 10
____ urban water park / design studio Site: Xiangmihu, Shenzhen September . 2013 | 12 Weeks M.arch 1 Studio | Tutor: Juan DU Individual Work
for detail information, please visit: https://wenfan.hk/projects/urbanization-of-tilapias
close city | 06
urban water park | 11
origin of the fish
origin of the water
1 2 3
1
rain water and waste water from the urban drainage
2
waste water from the golf court
2
Domestic waste water from the residentials and the restaurants
the quantity of tilapia in the lake 1970s 1990s
2008 2010
2000s
pesticide seeped from the golf court
young tilapia/catfish
grass carp/silver carp/catfish rain water and waste water from the urban drainage dead fish and dead littel shrimp urban water park | 12
tilapia/carp moss and water grass with oil
where the pollution came from
12
2
1 3 4
5
Xiangmao River (Underground)
6 7
8 9 10
11 13
120
Proportion of polluted water
September July
100
80% of rainwater dropped from April to September 30% of the rainwater dropped down in 3 to 4 days
May
JAN 1
80
FEB 2 MAR3 APR 4
1&2 are also the two main sources of water of the lake. 1
MAY5
60
JUN 6 JUL 7 AUG8
40
2
SEP 9 OCT10 NOV11
20
DEC 12
3
4
5
6
7
8
9
10
11
12
13
0 5
Water Collection Area for Xiangmihu (About 0.6 sqkm)
10
15
20
25
30
Jan.
Feb.
Mar.
Apr.
May
Jun.
Jul.
Aug.
Sep.
Oct.
Nov.
Dec.
Water Collection Area for Xiangmihu (About 0.8 sqkm)
Xiangmihu (Honey Lake)
Xiangmao River (Underground) The Sea
urban water park | 13
water purification strategy
Stage 1a filtration
+
Chemical+Physical Mechanism
Stage 2a heavy elements removal
Stage 1b primary sedimentation
Stage 2b pathogens removal
Stage 2c nutrients removal
Stage 1c aeration
Stage 1d secondary sedimentation
Stage 2d reuse or storage
Biological Mechanism Stage 2a Remove heavy elements Stage 2b Remove pathogens Stage 2c Remove nutrients
stage 1a stage 1b stage 1c
urban water park | 14
stage 1b
stage 2a
stage 2b
stage 2c
rain water
October to April
(May to September)
sewage water (May to September)
daily domestic waste water
semi-purified water sewage water
1460 cub.m / day
sewage water
(April to October)
(April to October)
tanks for fish
rain water sewage water (May to September)
city waste water treatment
May to September
city waste water treatment semi-purified water
daily domestic waste water polluted rain water
39165 cub.m / each time tanks for fish
catchment for water flow 4
catchment for water flow 3 1
4
2
3
master plan
N
1:5000
water flow diagram urban water park | 15
Safari Shenzhen & Hong Kong along the Luobao Line and East rail line
wechat app follow: safari-szhk or scan the QRcode
http://safarihksz.org upload your photo/sound online and listen to others around
urban water park | 16
____ Negative Block / design studio Site: North Point, Hong Kong Febrary . 2014 | 10 Weeks M.arch 1 Studio | Tutor: Nasrine Seraji Pairwork (WEN Fan + Tang Tak Shing)
for detail information, please visit: https://wenfan.hk/projects/negative-block
negative block | 17
nolli map of North Point
negative block | 18
leftover spaces
nolli map of North Point negative block | 19
rationale behind the appearance of large developments
history of podiums and alleys
from a historical perspective
a continuation of the houses from 1903 main features: limited to 3 (max:5) storeys
1966
A Diagram in the 1966 Building Regulation
birth of tower and podium With the new regulations in 1966, plot ratios fell substantially from 18:1 to 8:1. Other than plot ratio, the new regulations also introduced more variable to ensure enough light and air into the units.
a naturally lit and ventilated common staircase
depth limited to 35 ft
1903
1935
1966
rear window = 10 sq. ft footbridge 3’6’ allowed Area B
6’ scavenging lane
street
negative block | 20
max 40’
typical width 15’ Area C > (A+B) /2
A Diagram in the 2005 Building Regulation
2005 Further control of distance between building blocks Max H= 2W area “b“ = WxW1
Area A
1970s
A Diagram in the 1956 Building Regulation
A Building Built to Building Ordinance 1903
front window > A/10 (1/2 of its openable) Bldg HT < street width (max = 75’)
1956
A = KH2
Max W
W1
Max H= 2W
H
W
a
F1
A
F
Area “a” equals 2W1xF1
H
A is the UVA in front of the window H is the height of the building containing the window to be tested K is a coefficient and needs to be devised using parametric tests
from external to internal
publicness 0%
30%
50%
70%
100%
negative block | 21
before
after
goverment
goverment
#S
#M
a
community developers developers
developers
semi-block #1
semi-block #2
semi-block #5
semi-block #3
semi-block #4
semi-block #8
semi-block #6
semi-block #7
community (podiums) developers (towers)
re-development process c
c
exsiting block
#L b
b
semi-block #9
semi-block #10
# XL
pull down the towers and podiums
expand the block boundary
designs of podiums community designs the podiums
a
sell the land on podium level and developers build back their towers
some bonus GFA offered
plan 1:1500 negative block | 22
land ownership re-distribution
semi-block #11
semi-block #12
semi-block #13
semi-block #14
living
the speculation: a negative city
public surface
public space
with no podium (type A)
with podium H < 20M (type B)
with podium 20M < H < 60M (type C)
with floating podiums (type D)
with no podium (type A)
with podium H < 20M (type B)
with podium 20M < H < 60M (type C)
with floating podiums (type D)
negative block | 23
negative block | 24
____ Rhythm of Construction / research project Site: Setagaya, Tokyo 158-0093, Japan September . 2013 | 10 Weeks M.arch 1 course | Tutor: Erdman, David C.M. Groupwork (WEN Fan + QIN Liting)
for detail information, please visit: https://wenfan.hk/projects/the-logic-of-architecture
rhythm of construction | 25
master plan 1:1000 N
Arc 3 r=91686
Y -13027 X 130970
Arc 6 r=46691
Ar 4 c r=2 367
3
5
1
Y -20502 X 33870
6
2
A
Arc 9 r=16191
Y -2917 X 74384
7
Y0 X0
4
7
8 9 10
Y -3272 X 142723 Y -8693 X 127428
11 12
A
Y -17740 X 68557
Y -26228 X 33919
2 Arc 5774 r=6
Ar r=8 c 1 732 8
Y -28252 X 148454
9
4
6
Arc 5 r=60762
D
Y -63619 X 87760
B
11
E
Y -72434 X 1764
A r=7 rc C 113 0
E
Y -104231 X 38995
5
D C
7
8
2 10
1
12
Y -870778 X 124459
c D 99 Ar 379 r=
A r=9 rc 10 265 3
Arc 7 r=70093
3 Y -60340 X 132657
Y -38830 X 288222
Arc 11 r=26388
B C
rhythm of construction | 26
Y -17740 X 132457
structure diagram
roof slab steel + concrete + frame t=200
axonometric arc5-b intersection
5-A 5
B-1
5-3
B-2
2f arch steel + concrete + frame t=200
r=6
076
2
B-5
B 5-2
l=8
l=1
B-7
.7
.6
41
18
179
5-C
2f slab RC void slab t=250-450
l=6
5-1
96
l=9
B-8
.5
675
l=6
.0
017
2.8
l=7
62
3.0
.2 8643
B-10
l=
0.7
l=748
1f arch steel + concrete + frame t=200
0
668
r=8
l=
92
88
.9
5 B-D
.2
86
66
l=
B-12
2.0
44
l=8 8.6
20
l=8
1f slab (partly b1f ) RC slab t=180-200
B
key annotation
steel frame detail
5-3
9-11
A A-10
B-2
9-10
r=16
19
5
1
A-9
B-5
5
r=60
762
5-2
10
B
B l=6
96
2.8
6
.5 75
5
l=06 68
86
r=
B
1
90
l=
A-8
7.0
642
l=7
3
65
92
r=
l=3
.3
802
l=5
.1
.6
62
3.0
9
l=5042
5 B
rhythm of construction | 27
key annotation
detail of A-10 intersection 9-11
A
9
10
A-10
9
9-10 r=1
61
91
10
A-9
detail of construction
23
7
C
B
A1
5
6
4 8
10
A-8
1 steel arch:
9
10
11
3
65
2 =9
r l=3
642
2.6
l=504 9
rhythm of construction | 28
.1
2.3
80 l=5
1
ARCH CONSTRUCTION 1 : 50
A steel frame B reinforcing mat to limit cracks C finished composite construction 1 steel arch: 9mm web 22/65 mm flange 2 150mm openings 3 320/167/9 mm steel connector plate 4 column core, steel: 16mm web/28/65 mm flange 5 steel reinforcing mat to limit cracks 6 composite steel-and-concrete arch(overall thickness 200 mm), hydrophobic coating 7 precast concrete, thermal insulation sealing layer hollow-core floor slab, 300 mm reinforced concrete (hydrophobic coating on underside) 8 raised floor, insulating board hollow-core floor slab 250-400 mm reinforce concrete (hydrophobic coating on underside)
9 concrete layer with 100 mm granolithic aggregate 10 seismic isolation pit 11 seismic isolator
____ Campus Recycler / design studio Site: Tongji University Campus, Shanghai Febrary . 2012 | 12 Weeks Year 4 Studio | Tutor: CHEN Juan Individual work
campus recycler | 29
after
before
Condensation pipes
Trellis with plants sectional model Ventilating cowl
Vertical Greening
Green shading
overall concept diagram campus recycler | 30
Summer Mode
Before
1
Reflector
2
Vertical greening is closed
Air-conditioning Sunlight
7
11
Lower the load of air-conditioning
8 9
12
22
13
23 24
10
14 15 16 17
3 4 5 6
25 26
18
27 19
28
20 21
Spring/Autumn Mode Reflector Vertical greening is opened
29
Air-conditioning Sunlight
Maintenace Detail of the vertical greening scale 1/100 1-C20 integral casting layer of fine stone concrete, with warehouse slot 6MX6M 6@200,two way reinforcement t=40 stired concrete ; 2-1ďź&#x161;2.5 cement mortar protective course, t=20 ; 3-glass fiber thermal insulation layer t=35 ; 4-a steak of waterproof roll ; 5-1ďź&#x161;8 cement aerated concrete slope structure t=20 (at least) ; 6-reinforced concrete structure layer ; 7-aluminous cornice gusset plate t=20 ; 8-frilled edge composed of aluminium sheet t=2 fastened with cement nail @300 ; 9-embedded sealant ; 10-a steak of waterproof roll, a layer of waterproof coating ; 11-200*65 galvanized hollow steel tube ; 12-suspended type of plastic tow box ; 13-product of growing medium with good water-retaining capability ; 14-plastic net ; 15-campsis grandiflora, Ivy league ; 16-80*110 galvanized hollow steel tube ; 17-40*40 galvanized hollow steel tube ; 18-40*40 hollow steel tube ; 19-tongue-and-groove hardwood floor ; 20-wool plate cushion layer ; 21-embedded sealant ; 22-frilled edge composed of aluminium sheet t=2 fastened with cement nail @300 ; 23-reinforced concrete wall (floor) ; 24-50mm-thick rock wool board of wire rack ; 25-painted with adhesion agent and cement plaster with the portion of 1:2.5 ; 26-painted with 4mm-thick gypsum plaster along with Yaru fiberglass mesh ; 27-195X640X30 cherry wood panel @200,with seam of 5 (width) 28-32X5 edge sealing with steel plate ; 29-75X75X8 galvanized angle steel keel .
Winter Mode Reflector Vertical greening is unloaded
Air-conditioning
Sunlight Lower the load of air-conditioning
campus recycler | 31
Research into influence to the airflow carried by different shapes of windows
Summer DAY Mode
Spring/Autumn DAY Mode
Ventilating cowl is opened
Ventilating cowl is opened
Vertical greening is closed
Vertical greening is adjustable to the surrounding
Lower the load of air-conditioning
U-shape windows are opened
Condensation pipes are used to cool down (Water recycled from rain)
Condensation pipes are used to cool down (Water recycled from rain)
Night Mode
Winter DAY Mode
Ventilating cowl is opened
Ventilating cowl is closed Vertical greening is unloaded
U-shape windows are opened
Heat accumulation by concrete
campus recycler | 32
Simulation of the airflow around the atrium by AIRPAK
Lower the load of air-conditioning Inside insulation wall
North Facade
South Facade
Detail of the condenser pipe scale 1/80
Intake hose
Intake grill
1-20mm (thick) aluminum tube cover 2-customized sprinkler 3-115(h)*80(b)steel ring, t=8 4-semicircle steel ring 5-zipper fixed block(d=50,t=15) 6-waterproof sealant seal 7-plastic pipe(d=50) 8-25*25 steel hoop 9-ETFT membrane & steel zipper 10-115(h)*80(b) steel ring, t=8.
1 2 3 4 5 6
Evaporation
7 8
Condenser pipe 5 pipes with ETFE on surfface , 13m in height and a diameter of 1 m
9
Air outlet Recycling water
10
campus recycler | 33
Before For natural lighting only
Detail of the cap scale/1:50
1
2 3 4 5 6 7 8 9 10
After For natural lighting ventilation and waterproofing
11 12 13
Bilayer lighting shield with LOW-E glass
Waterproofing louvers
Slide and bell glass that could be closed in winter
14 15 16 1-product of double-layer light absorbing shade 2-200*100 galvanized steel ring of cubicle type with rectangular cross-section t=5 3-50*140 hollow galvanized steel pipe with rectangular cross-section 4-rainproof shutter made of aluminum alloy 5-aluminous cornice gusset plate t=2 6-C2 integral casting layer of fine stone concrete, with warehouse slot 6MX6M (6@200, two way reinforcement) t=40 stired concrete 7-1:2.5 cement mortar protective course, t=20 8-glass fiber thermal insulation layer t=35 9-a steak of waterproof roll 10-1:8 cement aerated concrete slope structure t=20 (at least) 11-reinforced concrete structure layer 12-a steak of waterproof roll, a layer of waterproof coating 13-embedded sealant 14-galvanized I-steel slide of 10# 15-aluminum alloy frame 16-product of light absorbing shade . 1-150(h)*70(b)galvanized hollow girder t=5 2-150(h)*200(b)galvanized I-steel beam t=10 3-bolted connection 4-200*200 square galvanized steel column t=20 5-C20 integral casting layer of fine stone concrete, with warehouse slot 6MX6M & 6@200,two way reinforcement t=40 stired concrete 6-1:2.5 cement mortar protective course t=40 7-thermal insulation layer of extruded sheet t=35 8-a steak of waterproof roll, a layer of waterproof coating 9-1ďź&#x161;8 cement aerated concrete slope structure t=20 (at least) 10-aluminous cornice gusset plate t=20
Detail of the roof greening scale/1:100
1 2 3 4
5 6 7 8 9
10 11
13 14
campus recycler | 34
12
15 16 17
11-frilled edge composed of aluminium sheet t=2 fastened with cement nail @300 12-grouted with bitumastic oakum 13-embedded sealant 14-apron flashing of aluminium sheet with frilled edge and fastened with cement nail @300 15-reinforced concrete wall (floor);50mm-thick rock wool board of wire rack 16-painted with adhesion agent and cement plaster with the portion of 1:2.5 17-painted with 4mm-thick gypsum plaster along with fiberglass mesh
____ Close City / undergraduate final project Site: Hanoi, Vietnam Febrary . 2013 | 15 Weeks Final year project | Supervisor: WANG Zhendong Groupwork (WEN Fan + BO Yao + LI Xun)
for detail information, please visit: https://wenfan.hk/projects/close-city
close city | 35
vietnam scale
Hanoi
China
minimum distance to communicate on transportation
0.8 m
3.75 m
800mm
3750mm
800mm
800mm
1800mm
1800mm 3750 mm
10m
width of typical streets 60-100m 20m 10-12m
50m 3750mm
10m
15m 15-30m
(10000/800)*(50000/2000)*4=
(10000/1800)*(50000/4800)*5=
1250 persons
289 persons
10000*50000/1250=
10000*50000/289=
0.4 sqm
1.728 sqm
50m For 100000 people
In an extreme mode - each motorcycle or car is fully used 0.4 * 100000=
1.728 * 100000=
0.04 sqkm
0.1728 sqkm
In another extreme mode - everyone has a motorcycle or car 0.8* 2 * 100000=
1.8 * 4.8 * 100000=
0.16 sqkm
0.864 sqkm
according to the code of vietnam, the density for sub-regional roads should between 10-13.3km/km2, thus about 6.4 m2 / person, if in these two modes,there should be
2.5 km close city | 36
15-30m
10.8 km
Kitchen Space
Family Type A
Family Type B
Family Type C
Family Type D
Family Type E
45 sqm
90 sqm
120 sqm
160 sqm
200 sqm
6/10 M
2
0M
2
3/3 M
2
14/5 M
2
6/5 M
2
10 M
2
8M
2
Dining Space
Terrace and garden
Living Space
Toilet & Bathing Space
Bedroom Space
Public area
area
2
6/4 M
2
4/3 M
2
(18-10)/3 M
2
8M
2
32 M
2
18 M
2
10/3 M
2
10/3 M
2
10/4 M
2
(22-10)/3 M
2
10 M
2
36 M
2
24 M
2
12/2 M
2
10/2 M
2
10/3 M
2
(34-20)/3 M
2
12 M
2
54 M
2
32 M
2
12/2 M
16/2 M
(40-20)/3 M
12 M
64 M
40 M
21.2 sqm
60.1 sqm
75.97 sqm
107.4 sqm
130.67 sqm
before
45 sqm
90 sqm
120 sqm
160 sqm
200 sqm
52.89%
33.22%
36.69%
32.87%
34.67%
after
21.2 sqm
15.03 sqm
12.66 sqm
13.43 sqm
13.07 M
before
45 sqm
22.5 sqm
20 sqm
20 sqm
20 sqm
2
2
12/2 M
after
compress rate
cverage area
8/4 M
2
2
2
2
2
close city | 37
close nature CANALS SYSTEM
Lake
Ponding Area for ponding
Concentrated wetland park at lower position with water flowing through the city and converging here. It play the role as recreational space when store flood water at the same time.
Ponding
CANALS DEPENDS ON THE LOW LANDS Area for ponding
Area for lakes
WETLAND SECTION
Area for lakes high SYSTEM CANALS
low
CANALS DEPENDS ON THE LOW LANDS
WETLAND SECTION Lake
CANALS SYSTEM
CANALS DEPENDS ON THE LOW LANDS
HIGH
WETLAND SECTION
Ponding
LOW
Canal system in the city
Area for ponding Area for lakes
CANALS SYSTEM
CANALS SYSTEM CANALS SYSTEM
CANALS DEPENDS ON THE LOW LANDS
WETLAND SECTION
CANALS DEPENDS ON THE LOW LANDS
WETLAND SECTION
CANALS DEPENDS ON THE LOW LANDS
WETLAND SECTION
HIGH LOW
Wetlands along canals with natural soil to allow water permeating through. The water level would change by seasons, supporting seasonal agriculture.
Artificial wetlands in community deal the grey water and semi-clean water drained from the buildings. As for the black water, which will go through the initial treatment in special plants before flowing into the wetland.
Gray water
Semi-clean water Black water
close city | 38
close infrastructure
1
Low-density Typical Block
2
Medium-density Typical Block
3
Wet Land along the River
4
Complex with Light Railway Station & Monorail Station
1
3
2
Close Infrastructure System
4
Infrastructure in blocks Infrastructure on streets
close city | 39
close city | 40
____ supplementary works
supplementary works | 41
I like to sing very much!
Nobody around, nothing to sing
When the cicadas are staying alone, they are too lazy to sing.
On the contrary, when they get together, the more the crowd gathered, the louder they will sing.
Tired, have a rest... ...
+
I sing the best !
Robot plays as agent of the Swarm Intelligence system, having its own simple moving rules.
Cicada plays as real individual of the swarm intelligence system, which has its natural simple rules during its colony activities.
Tired, not wanna to sing! Or I'm dying... ...
emotional robot | 42
motor coupler assemble process
connection board
ultrasonic range detecter
show on the exhibition sound sensor
watch how it works at : https://www.youtube.com/watch?v=enBgElftDAo
emotional robot | 43
RESEARCH : Mapping and Drawing of Hui-style Folk House
Detail of Roof 1 : 30
Site : Guichi District , Chizhou City , Anhui Province , China July . 2011 | 8 Weeks Research Project Supervisor: Li Zhen A
Residence of Gao Family is located in a mountainous area in Anhui Province , where most of the folk houses in the past were built in Hui style . The delicate structure and ornament there is an epitome of Chinese folk house .This residence is typically with skylights surrounded by houses from four sides , reducing beat of sunshine and enjoying ventilation and is also built with black tiles and white walls , surrounded by high walls shaped like horse heads for fireproofing.
A
Detail of Liang-Tuo 1 : 30
Detail of Yue-Liang 1 : 20
Detail of Di-Shui 1 : 30
N
First Floor Plan
全区文物保护单位
高氏宗祠
PART OF SECTION A-A 0M 0.5M
1.5M
3M
research of Hui-style house | 44
project name: Luneng City location: Chengdu, China status: competition responsibilities: building models, designing details, research into highrises in Chengdu
project name: Luneng City location: Chengdu, China status: competition responsibilities: building models, designing details, research into highrises in Chengdu
project name: Lingshan Bay Development location: Qingdao, China status: competition responsibilities: building models, designing details, urban planning research
project name: Hengqin Development location: Zhuhai, China status: competition responsibilities: building models, designing details, urban planning research
project name: Hengqin Development location: Zhuhai, China status: competition responsibilities: building models, designing details, urban planning research
For more information please visit: wenfan.hk