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CONTENT
Parent-Child "Floating" Paradise Individual Project
Date: 01.2021 - 04.2021 Location: Changsha, Hunan Province, China
CHENGWEI WU
MUTI PORE Water City Individual Project
EDUCATION BACKGROUND
Master of Design Nanjing Forestry University (2021-Now) Bachelor of Fine Arts Nanjing Forestry University (2017-2021) Major: Environmental Design (Urban Landscape Track) Email: wuchengwei991118@163.com Phone: +86 18120191972
Date: 06.2021 - 12.2021 Location: Bay Head, Ningbo, China
Into the Life
SKILLS
Collaboration Project
Date: 03.2022 - 06.2022 Location: Kowloon City, Hong Kong, China Contribution: Concept 70%, Model 55%, Drawing 100%
From Bio-Response to Eco-Echo
Collaboration Project HONORS & AWARDS
Excellent Graduate and Graduation Design of Nanjing Forestry University Silver Award of the 6th "Jinpu Cup" International Urban Landscape Design Competition National Scholarship
Milan Design Week - Third Prize of Excellent Works Exhibition of Teachers and Students of Chinese University Design Discipline (Jiangsu Competition Area) Bronze Award of Jiangsu Interior Design and Furnishing Design Grand Prix Bronze Award of China International Space Design Competition (CBDA) Merit Student Pacemaker in Nanjing Forestry University
Jun.2021 Oct.2020 Oct.2020 Apr.2022
Jun.2022
Sep.2022 Oct.2022
Date: 07.2022 - 09.2022 Location: Haikou, Hainan Province, China Contribution: Concept 65%, Model 55%, Drawing 80%
Other Work
Painting, Model, Rhino, Published Papers, Photograph
01 Parent-Child "Floating" Paradise
Individual Project Date: 01.2021 - 04.2021 Location: Changsha, Hunan Province, China
With the surrounding logistics and economic development, the consumption level has reached a certain height, and the city center has gradually moved south with the construction of commercial complexes. Too rapid development, ignoring the needs of children. At the same time, the brand positioning is almost for adult consumption, and children's boredom and distress and other activities are not satisfied. The project has fully transformed the open space of the roof garden of the site, so that people can enjoy parent-child entertainment from different perspectives under the premise of ensuring safety.
Surrounding Environment
Xingsha · Cultural Park
Hunan Province
Changsha City
Changsha County
Bus Station Route
High Speed Railway Station Route
Xingsha District II
Legu Kindergarten
星沙汽车站
way
gsha Express
han Hangzhou C
Niujiaochong Intercha
nge
SITE
Wharf Route
Gaolin · Jin Sanhua Mansion
Airport Route
Economic Analysis Oak Valley Golf practice field
Changsha Ruibo Science Park
1700
2000
1300
1500
900
500
500
0/Million Yuhua District
Changsha County
Liuyang City
Furong District
Ningxiang City
Yuelu District
Top 5 GDP values of all districts and counties in Changsha.
100/亿元 2007
2009
2011
2013
2015
2017
GDP trend of Changsha County over the years
2019
Strategic Analysis
Rapid economic development Busy work
Hardware facilities are from the perspective of children to better increase parent-child interaction.
Set up a large number of open sites Stimulate community vitality
Opening of BRT in shopping malls.
phubber Weak community vitality
The shopping mall is located in the traffic artery Severe blockage.
The roof garden is equipped with an outdoor children's play area with special care.
Strategy
陶公庙
High shelves Limited range of vision for children.
Problem
Longhua Mountain
Current situation of Zhongmao City
Construction of New Area Community vitality is increasing Rapid economic development Land, sea and air construction. The construction of commercial space The city center moves southward. Preservation of ancient buildings around the site. The continuity of mountains and rivers.
2059 2019 1999
History Analysis
Site Plan
1m
5m 3m
Children's Activity Sand Zone of Action
Collecting and Distributing People Flow Express Lane Office Building Anti Corrosion characteristic seat Open Grassland
Municipal Roads
Surrounding Sites
Scene Reproduction
Yeah! I won again Ha ha ha!
Exercise will play play badminton with my baby~
The weather is good today, and the view is beautiful!
Kitten meow meow meow~
Wow! Baby, Mom will take you skating~
Brother! You come after me!
Profile Featured wooden seats
Pavilion
Outdoor prompt slogan
Parent waiting area
Water storage and drainage composite plate Moisturizing blanket Root resistant puncture layer Protective layer Waterproof layer concrete ceiling
Axonometric
Tree Array Square
Outdoor Furniture
Publicity column
Children's Activity Area
Parent Waiting Area
Qushui Liuqu Fast Track
Secondary Entrance
Express Lane
Landscape Seat
Main Entrance
Mapping&History Collage
N
02 Muti Pore Water City
Landscape
Individual Project Date: 05.2021 - 08.2021 Location: Bay Head, Ningbo, China Introduction: While developing its cities, China faces the daunting problem of having an ageing population. It is worth exploring in depth how a new town meets people's functional and emotional needs. Due to a lack of suitable land in the old city of Ningbo, the government has decided to build a new city at the bayhead of Jiangbei District, Ningbo. Their plan is to attract skilled workers and new migrants to move into this new city. In my project, l would like to display the characteristics of porosity, sharing, and uncertainty that define this pluralistic and more open new city in Ningbo.
Railway Highway Expressway Subway
Main Road Village Road River System Contour Line
Water Area Baiyun Park Yuehu Park Zhongshan Square
Yongfengku Site Park Jiangbei Park Yong River Park Cultural Park
Building Height
GIS Analysis
Design Concept
Contour Lines
River Network
Satellite Maps
Flow of 500
Topographic Maps
Flow of 1000
Sight Line Analysis
Catchment Analysis
Slope Analysis
Slope Catchment Weighted Analysis
Landscape Analysis
Summary of Landscape Analysis
Small Rendering of Functional Area
History Collage
Diagram Legend
Bay Head Ecological Area Lakeside Business Area Class 1 Residence Class 2 Residence Class 3 Residence Culture&Education Area Administrative Area
Site Plan
Bay Head Ecological Park
Lakeside Villa
Lakeside Commercial Area Agedness Flat
Chengwei Primary School Turen High School Cultural Centre
Administrative Building Tianlan Bay
Expert's Residential People's Hospital Office Building
Multimedia Centre Nursing Home
Waterfront Cultural Park Sports Park
Legend
Primary Road Network Secondary Road Network Sidewalk Main Node Secondary Node
16
32
64
128m
Partial Rendering
Aerial View
Model Photos
03 Into the Life
Collaboration Project Date: 03.2022 - 06.2022 Location: Kowloon City, Hong Kong, China Contribution: Concept 70%, Model 55%, Drawing 100%
Introduction: Through the literature review, we found that the common TOD mode mainly focuses on fast pedestrian traffic to improve the efficiency of office functions. Influenced by the slow TOD model proposed by western countries in recent years, it is planned to combine fast and slow TOD to create a living model that is efficient and has a quality of life, so that residents can enter their lives. In this project, it is decided to take a long TOD bus line on the north side as the main traffic channel, connecting the central commercial pedestrian street, vitality pedestrian road and waterfront vitality belt to form three horizontal axes. At the same time, the high connectivity channel between buildings enables residents to have closer contact with buildings, landscapes, green infrastructure, etc., so that residents can walk into life, enjoy life, and create a new TOD city with a greener and living atmosphere.
Site Analysis
Afforestation
Site Status Problem
High density residential environment. Country parks far away from the city.
People's awareness of nature protection.
Traffic
60% Country Park
Pedestrian system separated from vehicle system.
Public transportation is developed.
Life
Hong Kong residents' absolute compliance with traffic rules.
12 Air Crashes 270 people died Noise problem Inadequate transportation High risk
The plane roared past the center of the city.
Kai Tak Heart Disease
Development limit
High density residential environment
Narrow housing area
C130 crashed into the sea.
On the last day of Kai Tak's operation, amid cheers. Take the last plane.
The red checkerboa -rd of turning sign.
Interviews with People
The government attaches great importance to the flexibility and adjustability of Hong Kong's energy resources, and reserves 60% forest coverage in policy.
>35%
Power generation fuel combination
The carbon intensity in 2019 decreased by 35% compared with that in 2005.
High-priced public rental housing, high-density housing, insufficient urban greening and lack of public green space. Hong Kong's income level
<15m
2
Statistics of Per Capita Living Area of First-tier Cities in 2019.
Hong Kong's Blueprint for Climate Action 2050, published in HK, puts forward carbon reduction strategies, as well as new measures to adapt to climate change.
Over the years, the rent paid to landlords in Hong Kong has reached seven figures.
With limited economic ability, families often have various contradictions because of the narrow space. Resident Li Shifu
Tenant Mr. Wang
Na Lin became a resident KFC wanderer of 'KFC' because of her unstable income.
Public transportation is the main means of travel for residents, and there is a problem of congestion. TOD is a better choice. National highway Urban road Urban trunk road Highway Subway Cruise ship
Nature reserve Recreation area Waterfront Shopping area Architectural texture Green
Marine traffic Highway Trunk road Railway
>90%
Average daily public transport passengers in Hong Kong.
Xiao Xu, a Hong Kong In HK, taxis are much more expensive than those in the university student mainland, and trams are generally used.
Do you usually go out by bus?
Team member Xiao Wu
It has always been my wish to drive a taxi. Taxi driver Mr. Tu
Strategy
Small Green Space
Small Green Space
Public Building
Infrastructure Facilities
Sport Park
Residential Building
Transport Hub
TOD Bus Line
Waterfront
Residential Building
Residential Building
Residential Building
Transport Hub Future Development Land
Small Green Space
Residential Building
Fast and Slow TOD New Concept Derivat
Urban Vitality Zone Sport Park
Residential Building
Waterfront Vitality Zone
The plan is to build 3 TOD routes: bus TOD route, waterfront vitality belt route and commercial pedestrian street route (urban vitality belt). To solve the traffic problems in public cities to meet the needs of urban residents, build a bus route that runs through the site. To solve the problem of high-density housing, take the urban vitality belt as an example, and provide many residential houses, which are combined with commercial vitality. Finally, according to the waterfront characteristics of the site, the waterfront vitality zone will be built, greening will be improved, and the overall living standard will be improved.
Site Plan
Functional Division
Country park Active green space Residential area TOD business Sports area Medical land School land Unforeseen land Wetland
TOD Analysis
Guide streamline
TOD distribution area
Streamline Analysis
TOD hub Ⅰ
TOD hub Ⅲ
Future development zone
Cruise terminal
Country sports park
Ecological floating island TOD hub Ⅱ
Vitality sports park High-rise housing
Riverside commercial center Harbour Medical Center TOD hub Ⅳ
Riverside Park
Business-living building
N
TOD Building Type
TOD Housing Type
Tod Transport Hub
Vitality Trail of Administration Building
Waterfront Vitality Zone
TOD Station
04 From Biological Response to Ecological Echo
Collaboration Project Date: 07.2022 - 09.2022 Location: Haikou, Hainan Province, China Contribution: Concept 65%, Model 55%, Drawing 80%
Since the 20th century, in order to meet the needs of land use, human beings began to speed up the pace of reclaiming land from the sea, which caused great damage to the marine ecological environment during the construction period.Based on this background, the project team hopes to explore the possibility of solving the site problems from the perspective of coral in order to cope with the uncertain disaster events in the future. Taking coral's sensitivity to the environment as a breakthrough, it forms a biological indicator in the seawater monitoring system, and puts forward the core concept: "Preliminary ecological restoration in 2020-2030–2030– 2040 phased supervision system and responsive design–2040–industrial upgrading". Incorporate safety system analysis such as site vulnerability and possible natural disasters into the supervision system, continuously improve the city's spatial resilience, economic resilience, engineering resilience, management resilience and social resilience, and at the same time focus on improving the city's ability to resist natural disasters and various risks, and then repair the fragile ecosystem to build a resilient city and a new low-carbon industrial chain.
Artificial Island
Global Artificial Island Layout
Since the 20th century, to meet the needs of land use, mankind has begun to accelerate the pace of marine reclamation. Among them, the construction of artificial islands is the largest project. According to incomplete statistics, 273 artificial islands can be recorded in the world. The size of these islands varies from 0.07 hectares to 202,000 hectares, which caused great damage to the marine ecological environment during the construction.
Case Assessment of Ecological Hazards 394
2014
2016
8.88 2011 254.24
3500
2017
4000
15.73 2015
84.12
2020
4137
49.18 2004 3000
3.83 220
Construction Process
Ground Treatment
Artificial Cofferdam
Blowing bucket-Extrusion
Earth-Rock enclosure-Dredger excavation-Solid foundationEnclosure
10
782.4
2022
2010 2200
2014
Revetment Construction
Island area/ha Amount of sand and stone/10000 m3 Ecological hazard index Construction cycle
Excavate silt-Fill gravel-Put in torsion block
Island Filling
Sand transport-Dredging-Filling
History Analysis
BIODIVERSITY REDUCTION
CORAL BLEACHING
After the introduction of the new policy, the artificial island faced with many problems has entered people's vision again.
Environmental pollution and other problems have prevented the project from being approved by the government.
HNA transferred the South China Sea Pearl Island to Hainan Development Holding Real Estate Group.
The policy of completely stopping land reclamation must be abandoned.
The policy of stopping man-made island filling came.
COASTAL EROSION
Phase II was officially started in February 2014.
CURRENT SITUATION
Phase Ⅰ of the reclamation project was officially started.
Current direction changes
Ecological damage
Wave diagram of E direction
Wave diagram of W direction
Wave diagram of N direction
Poor water quality
Prediction chart of annual scouring and silting amount
Coastal erosion deposit
Map of monthly erosion and siltation Monthly scouring and silting diagram before artificial reclamation under after artificial reclamation under wind conditions wind conditions
Comparison chart of velocity before and after artificial reclamation at ebb tide
Comparison chart of velocity before and after artificial reclamation at high tide
Single industry type
Ecological sector is not linked
Strategy
Monitoring System A-level B-level Aiming at the problems of the island, this scheme puts forward a phase supervision system and a bio-responsive design and divides the site construction and development into 3 stages. An ecological assessment is conducted every two years. According to the evaluation results, it is divided into three grades: A. B and C, which respectively correspond to the three levels of excellent, good, and medium ecological conditions after each stage, and then corresponding construction measures are made according to different results.
C-level Ecological Restoration Ecological Industry Traditional Industry
Development Course of Design Here are 3 special cases out of 27 situations, that is, the three evaluations are excellent, good and fair each time. Take this as an example to show the differences of response measures in different situations.
Excellent-Excellent-Excellent: Increase traditional industries by 20% in the venue.
Good-Good-Good: Increase the ecological industry by 25% on the site.
Intermediate-IntermediateIntermediate: Increase the ecological restoration area and replanting amount.
Excellent-Excellent: 20% ecological industries and 20% traditional industries will be added to the site.
Good-Good: Increase the ecological industry by 20% on the site.
Intermediate-Intermediate: Increase the ecological restoration area and replanting amount.
Excellent: Develop 50% ecological industry on site.
Good: Develop 40% ecological industry on site.
Intermediate: Increase the ecological restoration area and replanting amount.
Initial Ecological Restoration
Initial Ecological Restoration
Initial Ecological Restoration
Ecological Restoration
Ecological Industry
Traditional Industry
Initial Ecological Restoration
Site Plan
Functional Division
Commercial and entertainment center Science and technology entertainment bay area Characteristic ecological homestay area Ecological priority experience area Ecological forest restoration area Cultural art exhibition area Transportation wharf area
Ecological Landscape Planning
Planning scope Main landscape axis Secondary landscape axis ecological construction Main landscape nodes Secondary landscape node
Green Corridor Along Wuyuan River
1 Dock 2 Homestay 3 International exchange center 4 Lighthouse 5 Monitoring device 6 Artificial island reef 7 Maritime museum 8 School 9 Medical facilities 10 Golf course 11 Mangrove park 12 Infrastructure 13 Scientific research institute 14 Farmland
Tonghua tree Lanshu Honghailan Bruguiera sexangula Sea paint Jiaoguomu Masaki Mulan Haisang Autumn eggplant Lin 1 Lin 2
Device Analysis
Single device contain solar panels. T h e s i g n a l d ete ct i o n pa r t identifies and classifies the external remote sensing data, converts the data into co m m a n d s a n d t ra n s m i ts them to the lifting mechanism. And the movable power storage part controls the position of the device, and the solar panel provides power for the device.
The remote sensing device body and the controller are used for identifying and classifying the received signals, converting the signals into action commands and transmitting them to the following components.
The signal intensity detector, located at the top of the device, is used to receive wireless signals sent by unmanned aerial vehicles or remote controllers.
Floating Plate
In the water quality sensing part, the ocean temperature, conductivity, current and other factors are measured through the suction pipe.
Solar Panel
Collecting Floating Plate Part Eyebolt
Self-lifting Mechanism for Remote Bounce.
Linear Floating Plate Part
Fastener Remote Sensor Conduction Spiral Pipe Connecting Screw Signal Identification Device
Dead Plate
Positioning Sheath Spring Spring Guide Rail
Shuiyuan Water Pipe
Ocean Element Sensor In the part of coral monitoring, the growth index of coral is measured by 3D scanning.
Plate Rotating Mechanism Slotting Body
A 3D scanner is placed in the ball at the end of the tentacles.
Slideway Thermal Camera Module
Lifting Gear Base
During eight years, ecological restoration in the region was the main focus, and breakwaters were built and mangroves, seagrasses and corals were planted. Connect the green corridor with the ecological chain of coral, seaweed, fish, birds and mangroves.
At the beginning of 2030, the project has entered the formal stage of ecosystem assessment and responsive design. In the best case, the island's breeding base and mangrove nursery park have been built and put into use.
This is the second stage of the responsive design project. In the best case, we have added a research and development center, an international exchange center and a series of basic supporting facilities.
This is the final stage of the project. In the case of the best ecological index, we have added a biomaterial supply base, a marine museum, coral tombs, characteristic local buildings, a cruise terminal, a seed museum and other tourist facilities and put them into use. At this point, the island has been built.
Environmental protection unit
Marine fishery administration department
Marine fishery administration department
Planning design institute
Marine management government unit
Forestry department
Marine regulatory agency
Construction unit
Environmental monitoring unit
Head of nursery base
Scientific research unit
Tourism management unit
Goals to be accomplished in 2030
Evaluation Level
Goals to be accomplished in 2032
Evaluation Level
Goals to be accomplished in 2034
Evaluation Level
Goals to be accomplished in 2036
>7(10)
>50%
A
>7(10)
>50%
100%
A
>7(10)
>50%
60%
A
>7(10)
≤ 120,000
>5(10)
>40%
B
>5(10)
>40%
75%
B
>5(10)
>40%
50%
B
>5(10)
≤ 100,000
<4(10)
>30%
C
<4(10)
>30%
50%
C
>4(10)
>30%
35%
C
>4(10)
≤ 80,000
A B C
Stable survival rate of mangrove&seagrass Survival rate of mangrove &seagrass replanting
Coral ecosystem index Multiply of birds and fish numbers Flow control people/day
$ 30% $ 25% $ 15%
Evaluation Level
$
Tourism economy
The environmental monitoring unit issued instructions. The intelligent supervision system will be launched soon!
The marine environment is rather bad, and there are many albino corals, so it is necessary to put in an intelligent supervision system for ecological restoration!
Protect marine ecological environment, starting from the individual!
sup This is in ch cearnvision sytselligent ma ine remotelytem, whien m scorrin g c vironme otnitor by ator ooral as annin rganis m~ dic-
Many kinds of fish, which are devices used to supervise marine ecology~
! the k at here , lofoul coralol ating n i l i Y auti t is f be t wha Bur? fo
This proceiss the docum oper s of cora entary Welcoation in pasl rescue t me to watch20 years. !
Wow! 20 years!
South China Sea ~
Finally began to pay attention to coral restoration!
05 Other Works 1. Painting
2. Model
Model of Shanhai Art Museum in Kunming
Thang-ga, Tibetan Traditional Painting
Sketch
3. Rhino
4. Published Papers
Vehicle Modeling
5. Photograph
BUILDINGS JCR2
City Life Silhouette CITESCORE
4.2 SCOPUS
IMPACT FACTOR
2.648
an Open Access Journal by MDPI
CERTIFICATE OF ACCEPTANCE Certificate of acceptance for the manuscript (buildings-1663389 buildings-1663389) titled:
Resilient City: Characterization, Challenges and Outlooks Authored by:
Chengwei WU; Jeremy CENCI; Wei WANG; Jiazhen ZHANG has been accepted in Buildings (ISSN 2075-5309) on 19 April 2022
Basel, April 2022
CITESCORE
3.8 SCOPUS an Open Access Journal by MDPI
CERTIFICATE OF ACCEPTANCE Certificate of acceptance for the manuscript (buildings-1804762 buildings-1804762) titled:
Street View Imagery (SVI) in the Built Environment: A Theoretical and Systematic Review Authored by:
Yongchang Li; Peng Li; Chengwei Wu; Jiazhen Zhang has been accepted in Buildings (ISSN 2075-5309) on 02 August 2022
Basel, August 2022
IMPACT FACTOR
3.324
Light and Shadow
Grand Rivers and Mountains