Keying Zhong Architecture Portfolio
Table of Contents 02 Vegetable Station
Agricultural Cooperative in the High Density City Individual Work | Fall 2022 | Critic: Jing Li
14 Blossom Chasing
Nomadic Beekeepers' House Design Individual Work | Summer 2021 | Critic: Lili Zhang
22 Ruin Reborn
Community Design for Women in Post-war Iraq Individual Work | Spring 2022 | Critic: Lingqing Zhang
38 International Housing in Barcelona Housing Design for Condensed City Individual Work | Fall 2023 | Critic: Emiliano Lepez
56 Stitching
Forgotten Spaces Design in the City Individual Work | Fall 2020 | Critic: Yixuan Wei
72 Voice of Wind
Pavilion Design and Construction Group Work | Summer 2021 | Critic: Shen Gao
82 Bowler House Construction Analysis From sketchbooks
Building System Project Group Work | Fall 2023 | Critic: Gregory Cuddihee
86 National Green Building Design Competition Chinese Traditional Housing Renovation Group Work | Fall 2020 | Critic: Chaoping Hou
92 Other Work
Vegetable Station
Agricultural Cooperative in the High Density City Shenzhen, Guangdong, China
The urbanization causes the emergence of urban villages. Alomost 70% of pupulation living here are the underclass who come to work here from other city due to the low-cost housing in urban villages, resulting in the economic stratification. The city now facing the farmland marginalization, making the rise of vegetable prices, which create the inequality of food supply. Government is planning to rebuild the urban village to improve the appearance of the city, but once it is improved, these underclass people will not be able to afford the rising rents , even facing unemployment, their re-moving leads to the emergence of the next urban village problem. This project plans to create a new type of urban agricultural operation system. Providing those underclass with part-time jobs of farming in exchange for discounts on renting and shopping, and also provide the city with fresh vegetables, so as to reduce economic stratification, food inequality and guarantee the lives of the underclass.
Individual Work Fall 2022 Critic: Jing Li
2
Vegetable Station
3
Exploded Drawing
Shenzhen Guangdong Province China
Top 3 cities with the number of urban villages 1600
Cities with the largest
240
number of urban villages
139
Shenzhen
Beijing
Hydroponic Harvesting Area
Guangzhou
urban village farmland transport distance
Gardening and Learning Area
Vegetable Shoping Area
Soil Harvesting Farm
Luohu District
0
5
10
15
20km
Soil and hydroponic Harvesting Researching Farm Types of house in Shenzhen self-built house
low-rent house
Population in Shenzhen urban village
workers from other cities (renter)
5% 5%
apartments and others
9%
factory dormitory
17%
47%
Population in urban village 30% 70%
9,800,000
urban village house
villagers
Soil and Hydroponic Harvesting Researching Area
(landlord)
total
Processing Area Activity Area
17%
commercial house
17,560,000
Farmland marginalization in Shenzhen
year: 1980 area: 35,473 hectares
4
Vegetable Station
Transportation Area
Longer transport distances
year: 2022 area: 3,833 hectares
Insufficient supply of vegetables in Luohu District
Vertical Shopping Street
5
Amusement Area + 3.000 Plan
6
Vegetable Station
Amusement Area + 6.000 Plan
Working Area + 60.000 Plan
7
104.700 104.700 100.200 100.200
90.300 90.300 85.200 85.200
75.300 75.300 70.200 70.200
60.300 60.300 55.200 55.200
45.300 45.300
35.400 35.400 30.300 30.300 26.700 26.700 23.400 23.400 19.500 19.500 15.300 15.300 9.700 9.700 6.300 6.300 3.600 3.600 ±0.000 ±0.000
-9.000 -9.000
8
Vegetable Station
9
Hydroponic Harvesting Area
Gardening and Learning Area
Soil Harvesting Farm
10 Vegetable Station
11
12 Vegetable Station
13
Flower Chasing Route
S312 Provincial Highway, LuoBei City, HeiLongJiang Province Basswood Time: June-July
Tangbula Grassland, Weiwuer City, XinJiang Province Leonurus Time: Aug.-Sept.
5 km
km 55 16 9 h 1 0
20 h
17
Kulunqi Village, Tongliao City, NeiMengGu Province
S312 Provincial Highway, LuoBei City, HeiLongJiang Province 9 h km 6 73
Basswood Time: 8 h June-July 681 km
8h
7 km 10 h
Buckwheat Time: Aug.-Sept.
17
5 km
84
13
3 km 14 h
120
119
m
h
434 k
12 6 90
6h
km
1254 m 13 h
km
RapeFlower Time: Dec.-Jan. Ke Village,
Huangshan City, AnHui Province RapeFlower Time: Mar.-Apr.
434 k
120 3
14 h
West Line
13
119
km
5 km
m
RapeFlower Time: Dec.-Feb..
h
Jiaoshan Village, Shigu City, HuNan Province
6h
Luoping Village, Qujing City, YunNan Province
Individual Work Summer 2021 Critic: Lili Zhang
Robinia Qianling Village, Time: Apr.-May Gaocun Village, Guangdong City, FuJian Province Yiyang City, HeNan Province RapeFlower Time: Dec.-Mar. Xiba Village, Jujuba Time: Apr.-May Yulan City, GuangDong Province h
RapeFlower Time: Mar.-Apr.
Wild Stay One night
MilkVetch Time: Jua.-Mar.
Qianling Village, Guangdong City, FuJian Province
Xiba Village, Yulan City, GuangDong Province
Middle Line East Line
RapeFlower Time: Dec.-Jan.
Leonurus RapeFlower
KaShi River
Village
Time: Mar.-Apr.
Chastehoney
6h
458
Longfeng Village, Mianyang City, SiChuan Province
Village
Ke Village,
Huangshan City, AnHui Province Haoran Mountain Village, RapeFlower Zhalantun City, BeiJing Province June-July JiaoshanTime: Village, Shigu City, HuNan Province Baiwa Forest Farm, MilkVetch Jinxiang City, ShanDong Province Time: Jua.-Mar.
km
Sophora davidii Time: May-June
Middle Line East Line
8h 681 km
8h
651
This project plans to provide housing prototypes for these beekeepers along the way to improve their living environment. At the same time, using the form of off-grid buildings to protect the ecological environment.
km
km
Luoping Village, Qujing City, YunNan Province
Luren Village, RapeFlower Dec.-Feb.. Mingchang City,Time: GanSu Province
West Line
Jujuba Time: Apr.-May
h
12 6 90
6 73
6h
km
9
RapeFlower
Menyuan Village,Time: Mar.-Apr. Haibei City, QingHai Province
458
Kulunqi Village, Tongliao City, NeiMengGu Province Longfeng Village, Buckwheat Time: Aug.-Sept. Mianyang City, SiChuan Province h
RapeFlower Time: July
0
Robinia Time: Apr.-May
Gaocun Village, Yiyang City, HeNan Province
20 h
Sophora davidii Time: May-June
Beekeeping is a widespread global activity with millions of beekeepers rely on bees for their livelihoods. There are 300,000 beekeepers in China with total output of bee products accounts for more than 1/4 of the world, which ranks world first for many years in spite of the extremely poor living conditions.
Baiwa Forest Farm, Jinxiang City, ShanDong Province
1254 m 13 h
China
Chastehoney Time: June-July
5 km
Luren Village, Mingchang City, GanSu Province
Haoran Mountain Village, Zhalantun City, BeiJing Province
km 55 16 9 h 1
km
Nomadic Beekeepers' House
651
Time: JulyLeonurus Time: Aug.-Sept.
7 km 10 h
Blossom Chasing
84
Menyuan Village, Tangbula Grassland, Haibei City, QingHai Province Weiwuer City, XinJiang Province RapeFlower
RapeFlower Time: Dec.-Mar. Heilong River
Basswood
JiuLong River
Select 3 beekeepers' stop points with large differences in terrain, environment and temperature as the sites of housing prototypes.
Wild Stay One night
Selection Principles Nector Source
Tangbula Grassland, Weiwuer City, XinJiang Province
Terrain
Qianling Village, Guangdong City, FuJian Province
Water source
Noise
S312 Provincial Highway, LuoBei City, HeiLongJiang Province
Basswood
Leonurus
Heilong River
RapeFlower
KaShi River JiuLong River
Tangbula Grassland, Weiwuer City, XinJiang Province
14 Blossom Chasing
Qianling Village, Guangdong City, FuJian Province
S312 Provincial Highway, LuoBei City, HeiLongJiang Province
15
Tangbula Grassland 43°42′N - 83°41′E
7200 1200
4500
7200 Living Area
2
Facility Area
3
Bee Area
3000
1
2
7200
1
2400
1800
1500
3
7200
+1.500 Plan
16 Blossom Chasing
17
Qianling Village
24°56′N - 117°30′E
6000 2400
780
2400
7200
3600
up
1320
1
Living Area
2
Facility Area
3
Bee Area
18 Blossom Chasing
2280
+1.500 Plan
6000
6000
3
down
1500
1500
2
6000
6000
4500
4500
1
2400
3600
2400
+4.500 Plan
19
S312 Provincial Highway 47°55′N - 130°52′E
5400 2400
3000
5400 2400
3000
1
5400
4500
5400
2
up
5400
4500
5400
down
900
900
3
5400
5400
20 Blossom Chasing
1
Living Area
2
Facility Area
3
Bee Area
+1.500 Plan
+4.500 Plan
21
Ruin Reborn Community Design for Women in Post-war Iraq Mosul, Iraq
At present, the government plans to close the last refugee camp in the country, but many people are still living in the refugee camp although five years have passed since the Iraq War. According to the survey, women and chidren who are facing discrimination, fear and trauma make up the vast majority of this refugees, which means that the closure of the refugee camp will make them unable to find a job or even a place to live. This project plans to build a community on the ruins for refugees which is under the premise of protecting women's guardianship, safety and privacy. Provide these refugees with a place to live, work, study and relax.
Individual Work Spring 2022 Critic: Lingqing Zhang
22 Ruin Reborn
23
Master Plan
Legend handicraft factory
farm
women classroom
handicraft factory
storehouse
sharing room
store
administrative office
assembly squre
food distribution station
clinic
mosque
female residential area
elderly residential area
children residential area
male residential area
recreation area
children lassroom
entrance
24 Ruin Reborn
25
Residential Area Housing Plan
Public Space Exploded Drawing
19320
1 Bedroom 2 Public kitchen and dining area 5
3780
1800
3780
4980
10 m 3750
3750
0 1
4980
3780
4980
1
1
17100
2
Women Classroom
3900
1
1800
1800
3900
3780
19320
1
3900
4980
ning area
1800
17100
3900
Chidren classroom
Rest Area
Private Room
3750
3750
3750
3750
10 m
Chidren classroom
Women Classroom
Clinic
3900
1
3750
2280
1500
1800
1
3780
19320
2
3750
1230
3900
1230
3750
3750
1230
3750
2280
1500
1800 19320
3780
3750
Outdoor Patio Administrative Office
3900
1
17100
1800
1800
1
3900
17100
Rest Area
Material Processing Factory
Chidren classroom
Women Classroom
1230
Rest Area
Clinic
Administrative Office
26 Ruin Reborn
Handicraft Factory
27
28 Ruin Reborn
29
30 Ruin Reborn
31
32 Ruin Reborn
33
34 Ruin Reborn
35
36 Ruin Reborn
37
International Housing in Barcelona Housing Design for Condensed City Barcelona, Spain
The concept of this project adapts the high-density community in Barcelona. The spatial arrangement creates the lighting gradient from the dark foyer to f brighter outdoor space, as well as the division of public and private realms. Spaces in different shapes with similar size provide flexible usage of rooms and the rich potential of cross views, which accommodated to dwellers with various income. The use of ventral shafts at the center and the adjustable louvers enveloped the apartment is designed for pleasant lighting condition and climate change. Althese together evolves the living quality and creating modern lifestyle in Barcelona.
Individual Work Fall 2023 Critic: Emiliano Lepez
38 International Housing in Barcelona
39
New Orleans
40 International Housing in Barcelona
Barcelona
41
Typical Plan
Ground Floor Plan
up
dow
n
up
42 International Housing in Barcelona
43
Roof Plan
Site Plan
walk min 15
down
walk min 10
alk in w 5m Park Market School Hospital Museum Bus Station Government Office
44 International Housing in Barcelona
45
Section
46 International Housing in Barcelona
47
Elevation
48 International Housing in Barcelona
49
Unit Plan
There are 4 different units on each floor. The internal spaces of the units all remain similar in size to adapt to the different usage of people with different incomes. More entrances are provided between spaces to enrich the user’s experience.
50 International Housing in Barcelona
Unit A
Unit B
Unit C
Unit D 51
52 International Housing in Barcelona
53
54 International Housing in Barcelona
55
Stitching Forgotten Spaces in the City Chengdu, Sichuan, China
During the large-scale plannings and constructions in the urban renewal, some inconspicuous corners and spaces often lack planning and management, which called forgotten spaces, being prone to the problems such as dirty environment, illegal using and traffic jam. This site is a narrow passage which is under above mentioned situation. This project plans to take full advantages of this forgotten space, creating a space that changes according to human behaviors. It will not only keep the activities currently happening on the site, but also add more activities in order to activate this forgotten space, solve the problem of traffic jam, and improve space utilization, offering more public areas for city.
Individual Work Fall 2020 Critic: Yixuan Wei
56
Stitching
57
4.5 M
Fixed Module
4.5 M
untransformable
e 1 e Mod d o M ing k or W
untransformable 42
M
untransformable
n1
tio
ua
Sit 3M
4.5 M
n1
Transform
tio
ua
Sit
n2
tio
ua
Sit
n2
tio
ua
Sit
4.5 M
M 21
Movable Module
n1
tio
ua
Sit
2.5M
6M
n1
Transform
tio
ua
Sit
n2
tio
ua
Sit
4.5 M
transformable
n2
tio
ua
Sit
2 ing e od ork M i-w m Se
e
od
M
untransformable
n1
tio
ua
21
M
Sit
6M 1M
on
ati
u Sit
1
Transform
on
ati
u Sit
n2
tio
ua
Sit
4.5 M
e 3 e od od M M re isu Le
21
M
2
6M
58
Stitching
59
+3.000 Plan
+7.500 Plan
+12.000 Plan 60
Stitching
61
1
2
1
Time: 8:00 - 15:30 Mode1: Working Mode
4
3
2
3
5
4
6
5
6
9.600 9.000
4.500
±0.000
62
Stitching
63
Mode 1: Working Mode
This time period is the busiest time of the day.Workers are busy delivering and unloading goods, and the surrounding residents rush to work.
64
Stitching
65
Mode 1: Working Mode
This time period is the busiest time of the day.Workers are busy delivering and unloading goods, and the surrounding residents rush to work.
66
Stitching
67
Mode 2: Semi-Working Mode The delivery work is basically completed during this time. People who work or shop nearby can also relax, chat or play chess.
68
Stitching
69
Mode 3: Leisure Mode
During this time, people go for a walk after dinner, they drink and chat in the wind, and some entertainers perform here.
70
Stitching
71
Voice of Wind Pavilion Design and Construction Yaan, Sichuan, China
The site is located in the Mingshan District of Ya'an City,The local area is famous for its tea mountains. It is located among the hills and has an excellent view of over 270 degrees. This project provides an excellent viewing and leisure platform for tea pickers, local residents and travellers.
Group Work Summer 2021 Critic: Shen Gao
72
Voice of Wind
73
2 Cloth & Floor
1 Structure
3.2°
3.2°
Floor
Floor
Unite
Unite
Cloth
Cloth
Space
Space
3.300m 2.986m
0.575m ±0.000m
0.52m
The woodenThe floor is wooden floor is not in directnot contact in direct contact with the ground with the ground
0.52m
Shed Roof Shed Roof
Corresponding to the Corresponding to the floor belowfloor below
Form a semi-enclosed Form a semi-enclosed space line of sight space on the lineonofthe sight
3.080m 2.700m
0.455m -0.100m
-0.400m
74
Voice of Wind
75
1
Secondary Beam & Short Pillar
2
Secondary Beam & Long Pillar
250 360 600
1
600 600 360 230
2
380
900
900
900
900
900
900
900
900
900
380 mm
3 3
Cloth & Long Pillar
4
Secondary Beam & Floor
5
Foundation & Long Pillar
4
5
76
Voice of Wind
77
78
Voice of Wind
79
80
Voice of Wind
81
3D Wall Section N.T.S. Location Plan, N.T.S.
3D Wall Section N.T.S. Location Plan, N.T.S.
Bowler House Construction Analysis Building System Project Antigonish Harbour
Located on a hilltop, on an island in Antigonish Harbour, the Bowler House places the social living spaces on the second level and the bedrooms at grade. A double-height foyer connects the living area to the ground. Both the main house and the shed/guest house adopt this understated vernacular expression in order to create an image of outward modesty sought by the client.
Group Work Fall 2023 Architect: MacKay-Lyons Sweetapple Architects Limited Critic: Gregory Cuddihee
82
Bowler House Construction Analysis
83
Wall Section 3” = 1’-0” Location Plan, N.T.S. Steel truss
Aluminum flashing
Program
Blueskin waterproofing membrane at eave to gutter transition
Primary Structure - Steel
Integral gutter 20’-0” Window Sill
Termination board at eave
Secondary Structure - Wood
19’-6” Eave
Programs Programs CommonSpace Space Common BedRooms Rooms Bed Bathrooms Bathrooms Deck Deck
Circulation
Circulations Circulations Private Private Public Public
Floor Plates + Foundation
Steel gusset plate
Galvalume Roof
Steel column
Steel angle 17’-8” Finished Floor (Loft)
Steel alloy roof with standing seams to help with precipitation drainage
Blueskin waterproofing membrane applied over flashing and insulation Insect guard (cont.)
Aluminum flashing
16’-6” Window Head
Painted Steel
Steel is the primary structure of the house to allow for more open interior spaces
Double-glazing Aluminum window frame Caulking
11’-6” Window Sill
MDF trim, painted
Hemlock Cladding
Eastern Hemlock is native to Nova Scotia, and is durable in harsh weather
Exposed stud Tongue-in-groove wood finish
In-floor tubing Polished concrete topping slab 9’-6” Finished Floor Wood truss
Poured Concrete
Steel beam and blocking beyond Header Plywood 8’-0” Window Head
Concrete forms the foundation and floors of the building, with a polished finish for the floors
Gypsum board, painted
Plywood sheathing Plywood sheathing P2000 Insulation Vertical batten channel Vertical Hemlock cladding
Blueskin waterproofing membrane applied over flashing and insulation Gypsum board, painted MDF Baseboard w/ 1/2” reveal Insect Guard (cont.) Blocking
Sole plate
Aluminum flashing
0’-0” Finished Floor
Welded wire fabric, see Structural Drawings -0’-6” Finished Grade Anchor bolt Waterproofing membrane Gravel
Gravel 2” Rigid insulation Damp-proofing
Aluminum Windows
Aluminum window frames with double-pane glass designed for a rain-screen wall system
Concrete Foundation Wall
(2) #4 Bars, see Structural Drawings
Concrete Footing Landscape cloth 4” Drainage tile (3) #4 Bars, see Structural Drawings
84
Bowler House Construction Analysis
85
National Green Building Design Competition
Chinese Traditional Housing Renovation 3rd Prize
Bazhong, Sichuan, China
This project is aimed at the reconstruction of traditional Chinese dwellings with a history of hundreds of years. Using the green building technology to make buildings intelligent while protecting the history and culture of traditional buildings.
https://youtu.be/ZB4F70u13bs
Group Work Fall 2020 Critic: Chaoping Hou
86
National Green Building Design Competition
87
Ecotect Climate Analysis
Swell Analysis
Using the passive solar heating, application of solar thermal effect, natural ventilation, direct evaporative cooling.
Preavailing Winds Wind Frequency (Hrs) Location:Bazhong,CHN(31.5°106.3°) Date:1st January - 30th December Time:00:00 - 24:00 Weather Manager
NORTH
345?
3000.0
330+ 272 242 212 181 151 121 90
30?
300? 315?
45? 60?
300?
KWh/m?
Light Light Environment Environment Retrofit Retrofit Analysis Analysis
HRS
15?
285?
Before Before
After After
60 <30
75?
2500.0 2000.0
Preavailing Winds
1500.0 1000.0 500.0 0.0 KWh/m? Jan
Feb
Mar
Apr
May
Jun
Jul
Aug
Sep
Oct
Nov
Dec
EAST
WEST NORTH
345?
255? Wind Frequency (Hrs) Location:Bazhong,CHN(31.5°106.3°) Date:1st January - 30th December 240? 315? Time:00:00 - 24:00 Weather Manager
30?
300? 225?
3000.0
195?
75?
165?
SOUTH
1500.0
Optimum 1000.0 Orientation
345?
Location: Bazhong, CHN 500.0 Orientation based on average daily incidennt 315? radiation on a vertical surface. 0.0 Underheated Stress: Apr May Mar Jan 936.7 Feb 300? Overheated Stress:176.9 297.5? Compromise:207.5 Weather Tool 285?
N
KWh/m?
330?
15?
Psychromatric Chart
Best
30?
Worstt
45?
Jun
Jul
Aug
Sep
Oct
Nov
Dec
60?
75?
270?
90?
255?
105?
N 345? KWh/m? 240? 330? Location: Bazhong, CHN Orientation based on average daily incidennt 315? 225? radiation a verticalatsurface. Avg. DailyonRadiation 180.0° Compromise: Underheated Stress: 936.7 Entire Year: 0.56 kWh/m 300? 207.5? 210? Overheated Stress:176.9 Underheated: 0.83kWh/m 297.5? 195? 180? Compromise:207.5 Overheated: 0.24kWh/m Weather Tool 285?
15?
30?
120? Best Worstt
135? 45? 165?
150?
60? 75?
270?
90?
255?
105? 120?
240? 225? Compromise: 207.5? 210?
room / area
60 <30
room / area
105?
255?
AH
Location:Bazhong, CHN 240? Frequency:1 st January to 31st Decemenber Weekday Time: 00:00 - 24:00 Hrs 225? Weekend Times: 00:00 - 24:00 Hrs Barometric Pressure: 101.36 kPa Weather Tool
120?
30
135? 150?
210? 195?
SELECTED DESIGN TECHNIQUES: 1. passive solar heating 2. thermal mass effects 3.exposed mass + night-purge ventilation 4.natural ventilation 5.indirect evaporative cooling 6.direct evaporative cooling
25
165?
SOUTH
20
15
Psychromatric Chart
195?
180?
165?
20
25
30
35
40
45
room / area room / area
room room
room room
Lighting area
Lighting area
Lighting area
Lighting area
Meet the Meet the total requirements requirements number Meet the Meet the total number(%) number requirements requirements number number(%) number
can not meet the unfixed requirements can not meet the number unfixed requirements number
can not meet the fixed requirements can not meet the number fixed requirements number
Break the walls to form a semi-open public space. The functional spaces of the original building remain unchanged, Break the the walls to form a semi-open public functional spaces of the original building remain unchanged, Increasing size and form of windows, as space. well asThe the use of lighting tubes, have greatly improved the lighting effect of the building. Increasing the size and form of windows, as well as the use of lighting tubes, have greatly improved the lighting effect of the building.
Wind Wind Environment Environment Retrofit Retrofit Analysis Analysis Before Before
After After
20
15
5
10
can not meet the fixed requirements can not meet the number fixed requirements number
50
Annual Average Underheated Period Overheated Period 5
can not meet the unfixed requirements can not meet the number unfixed requirements number
2nd Floor Plan 2nd Floor Plan
25 15
10
DBT
Meet the Meet the requirements requirements Meet the Meet the number number(%) requirements requirements number number(%)
1st Floor Plan 1st Floor Plan
30 5
135? 150?
total number total number
2nd Floor Plan 2nd Floor Plan
AH 10
Location:Bazhong, CHN Frequency:1 st January to 31st Decemenber Weekday Time: 00:00 - 24:00 Hrs Annual Average Weekend Times: 00:00 - 24:00 Hrs Underheated Period101.36 kPa Barometric Pressure: Overheated Weather Tool Period DBT 5 10 SELECTED DESIGN TECHNIQUES: 1. passive solar heating 2. thermal mass effects 3.exposed mass + night-purge ventilation 4.natural ventilation 5.indirect evaporative cooling 6.direct evaporative cooling
1st Floor Plan 1st Floor Plan
EAST
WEST
2000.0
Avg. Daily Radiation at 180.0° Entire Year: 0.56 kWh/m Underheated: 0.83kWh/m Overheated: 0.24kWh/m
105? 330+ 272 242 212 45? 120? 181 151 121 60? 135? 90
150?
210?
285?
2500.0
Optimum Orientation
HRS
15?
300?
15
20
25
30
35
40
45
50
windward side of building leeward side of building Wind pressure pressure exterior window surface windward sideon of exterior building window surface Wind leeward side ofonbuilding Summer Wind pressure on exterior window surface Summer Wind pressure on exterior window surface Summer Summer project evaluation standars requirement project calculation results Is it up to standard project evaluation standars requirement project calculation results Is it up to standard ≥ 50% windows can be opened outside window The wind pressure difference If the wind pressure difference wind pressure difference ≥ 50% windows can be openedmeets the standard requirements outside window greater than 0.5Pa The wind pressure difference If the wind pressure difference on the surface get 2 points wind pressure difference
on the surface
greater than 0.5Pa get 2 points
NO NO
score score 0 0
meets the standard requirements
windward side of building Wind pressure windward sideon of exterior building window surface Summer Wind pressure on exterior window surface Summer
leeward side of building Wind pressure exterior window surface leeward side ofonbuilding Summer Wind pressure on exterior window surface Summer
project evaluation standars requirement project calculation results Is it up to standard project evaluation standars requirement project calculation results Is it up to standard ≥ 50% windows can be opened outside window The wind pressure difference If the wind pressure difference wind pressure difference ≥ 50% windows can be openedmeets the standard requirements outside window greater than 0.5Pa The wind pressure difference If the wind pressure difference on the surface get 2 points wind pressure difference
on the surface
greater than 0.5Pa get 2 points
YES YES
score score 2 2
meets the standard requirements
the transitional season and summer have been significantly improved after the renovation the transitional and through summerthe have been significantly improved Optimal summerseason ventilation renovation of the double roof after the renovation Optimal summer through the renovation of thethe double rooflayout, Rearrange the sizeventilation and arrangement of windows, adjust building Rearrange size and arrangement windows, adjust the building layout, ventilation of the building increase thethe ratio of wind speed to the of window area, and improve the original increase the ratio of wind speed to the window area, and improve the original ventilation of the building
改造后建筑声环境分析 改造后建筑声环境分析 室外声环境 室外声环境
88
National Green Building Design Competition
该改造将原有建筑闲置的空间 该改造将原有建筑闲置的空间 改造成了公共的开放性空间 改造成了公共的开放性空间 建筑的整个功能区块变成了 建筑的整个功能区块变成了 左边是公共性相对吵闹的空间 左边是公共性相对吵闹的空间 右边是私密性相对安静的空间 右边是私密性相对安静的空间 建筑中设有书房、卧室等
改造后建筑热环境分析 改造后建筑热环境分析
89
A new roof mezzanine is added to form a double-layer roof ventilation system solar collector
In summer, the gate is opened, the wind enters and takes away the heat In winter, the gate is opened The middle air layer acts as insulation
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90
National Green Building Design Competition
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91
Other Work
92
Commercial Street Design https://youtu.be/7I9ffnJr6lQ
Library Design
Urban Complex Design
Middle School Design https://youtu.be/nFQhysa9SpM
Other Work
93