FRAGMENTATION AND INTEGRATION
Hong Kong logistics transportation and waste recycling system design
Site Location:HongKong,China
Individual work Autumn 2022
In recent years, the garbage problem in Hong Kong has seriously affected people's normal life, the environment of the city streets and the natural ecological environment of the coast. Hong Kong relies on overseas imports for more than 80% of its goods (food, daily necessities, etc.). Since the outbreak of COVID-19, crossborder logistics have been considerably hampered.
Under such circumstances, Hong Kong urgently needs a new transportation system for logistics and garbage collection.
Therefore, this project takes Kowloon Peninsula of Hong Kong as the site to design a twoway system of logistics transportation and garbage recycling and uses parametric design to simulate the optimal path of the passage. And in the core node position, the design of
Zero carbon waste disposal
Different from direct incineration, centralized waste treatment is adopted to reduce carbon emissions.
Logistics and transportation center
Located in the concentrated area of residents, it plays the function of goods distribution and waste recycling.
Reuse of waste
In large commercial areas, channels collect a large amount of garbage and waste for secondary treatment, and then quickly trans-
Hong Kong Logistics Transport and Refuse Collection System
Processing of recyclables
The recyclables collected from the surrounding channels are classified, processed and made into secondary products.
Coastal waste collection and disposal
By means of passageways, garbage collection along the coast is pooled into centralized disposal points where garbage is sorted. Different from incineration and landfill, the waste will be treated in a green way
FLOATING BUBBLES
The Maritime Olympic Stadium in the context of COVID-19
Location:Tokyo, Japan
Cooperative work: PengYao Tuhao Zhu Chengcheng Peng
Role in team: background research:80% conceptual design:70% technical drawing:80% Winter2022
Against the background of the epidemic, the spread rate of the epidemic is too fast and the infection is too strong, which has triggered our new thinking on the form of Tokyo Olympic stadium.
The venue will be located on the sea of Tokyo Bay to achieve the same effect as the stadium, while safely isolating the COVID-19 virus. We designed the spherical spectator compartment of floating bubbles. The tower of the main stadium is divided into several parts. The lowest floor is a circular public service area, which contains public activity Spaces such as catering and selling of Olympic peripheral commodities. The middle level of the tower is built with a network of rails and steel frames for transportation of FB, and the top level is designed with high-end hotel accommodation. The different required functions are concentrated in one tower.
NEW LIFE OF THE SIHEYUAN
Typology-based urban renewal design of the northern part of the Temple of Heaven
Location:Beijing City ,China
Individual work Spring 2021
As the most traditional residential form in Beijing, Siheyuan has experienced great ups and downs for hundreds of years.
The site is adjacent to the north side of the Temple of Heaven. Today, the Siheyuan is dilapidated and unrepaired, and most of the indigenous people have moved out. In the absence of management, a large number of man-made buildings have destroyed the spatial pattern and street environment of Siheyuan.Siheyuan has become endangered and has to be changed.
This project uses typology design techniques to select the components of Siheyuan, and reorganizes the architecture and space according to the different functions required by the design site, so as to revitalize the vitality of the site.
REFORM AND REBORN
MEMBRANE ADDITIVE EMERGENCY SHELL
Thought on post-earthquake reconstruction from 2008 wenchuan China to 2023 Turkey
Location:Shanghai City ,China workshop work Summer 2023
The use of first-line artificial intelligence and construction enterprises around Shanghai focuses on discussing how to gather global wisdom to participate in construction under digital technology, and the support of materials and construction techniques for buildings. At the same time, the design of membrane mold additive construction, node structure design, driving scheme design and so on are deeply studied. The shell structure was simulated with grasshopper. Problems were found in the process and the design was continuously optimized. The structural nodes required for the customized device were cut with templates. Build the model. Through the comprehensive understanding of the construction process of the membrane mold additive shell structure, the artificial intelligence platform is built to integrate the coordination of design and construction and
