PORTFOLIO
SELECTED WORKS 2019-2021
Application Number: 57602231
Name: HUANG Jiawei
E-mail: jeffrey9865@163.com
For the Application to MFA Creative Media City University of Hong Kong
{CONTENT}
MIRAGE 2050
Sky City in the Post-epidemic Era Based on Magnetic Field Algorithms
Earthquake shelter
A fast-deployable refuge device designed for the Iranian region
Market of Future
Future commercial complex generated based on wool algorithm
Other Works
Other works except architectural design during my undergraduate period
INDEPENDENT PROJECT Spring 2021 Shanghai, China
COOPERATIVE PROJECT Spring 2020 Tabriz, Iran
INDEPENDENT PROJECT
Fall 2020 Suizhou, China
INDEPENDENT PROJECT
2019 - 2021 Wuhan, China
Out of consideration for combine different subject areas, in my portfolio, I have explored separately: The combination of Chinese dougong structure and large-scale buildings in the future high-density population cities; The combination of variable mechanical structures and buildings in the city in the face of natural disasters; The physical experiments and the future bazaars in the old city are combinations of architectural design; The use of multimedia technology with numerous software to create digital animation.
DESIGN NOTE
This work is my exploration of the future architecture of cities in the post-epidemic era. In this age, the border of isolation constrains the order of the civilized world, and the issue of sustainable development determines the fate of the future city. This design is an urban scale with the purpose of "solving urban space constraints and enhancing disaster resilience". Sustainable green building research.
MIRAGE 2050
The Borderless City in Post-epidemic Era
CONCEPT: The urban fabric is combined with magnetic lines to form the framework of the future sky city.
ACADEMIC INDIVIDUAL
DURATION: 2021
LOCATION: Shanghai, China
With the rapid development of information networks, the global mobility of capital and labor has increased, and a large-scale urbanization movement is unfolding around the world. It is estimated that the global urbanization level will reach 70% in the next 40 years. At the same time, the current world population is 7.3 billion. It is estimated that by 2100, the world's total population will reach 11.2 billion , And most of the new population appears in cities.The tide of the times violently impacts, deconstructs and reshapes the life and work patterns of contemporary people, prompting me to break through the shackles of the past and reflect on the future direction and boundaries of skyscrapers.
EXPLOSION
THE FORM GENERATED
I believe that a single huge building with a strong "icon" is not the skyscraper needed in this era. We chose hundreds of thousands of square meters' scale as an aerial settlement composed of building clusters and open spaces.
BRIEF
Cities have brought tremendous progress to human society, but they have also caused serious environmental problems. Exploring the possible ways of living in high-density cities, and sustainable urban development is one of the most severe challenges facing human society in the 21st century.
STRATEGY
In this design, I tried to answer three questions: Firstly, what type of skyscraper space is needed in this era? Secondary, how to understand and establish the spatial organization relationship between the normalization of epidemic prevention and society's normal operation? Thirdly, how to introduce nature into buildings to improve the CBD's living environment?
MAGNETIC ALGORITHM
Site analysis is based on a magnetic field algorithm. The high CBD in the city was selected as the magnetic attraction point, and the shape of the magnetic induction line was calculated through algorithm and experiment, and we found that it wasconsistent with the urban texture. We form a triangle by connecting each magnetic force point in the city, and the place where the building lands corresponds to the place with weak magnetic field texture.
Transition in the face of the pandemic
Normal
Every two-story building space forms a unit, divided freely according to needs
THE TRANSFORMATION OF ORIENTAL ARCHITECTURAL STRUCTURE EXPRESSION
Fast isolation
After the outbreak of infectious diseases, the unit body's public space is quickly divided and separated
Dougong element extractionThe form of this design scheme is extracted from Chinese dougong, which has good decorative and regional characteristics, and the modular characteristics of dougong are also in line with the development trend of future architectural forms. After the combination of the units like dougong, the western arch structure system is formed at macro level, which reflects the integration of eastern and Western architectural cultures in the future.
Imbalance
Lack of green space in high-density cities
Harmony
The design introduced vertical green landscapes and erecting, penetrating, enclosing, and connecting them
MODULE STUDY
In this urban aerial settlement,every two-story building space forms a unit, the lower space is an open space, divided freely according to needs, and the upper space is a prefabricated standard unit box. After the outbreak of infectious diseases, the unit body's public space is quickly divided and separated, and the pluggable unit box adapts to the functional requirements under complex conditions.
Normal
The upper space is a prefabricated standard unit box
Plug
in
The pluggable unit box adapts to the functional requirements under complex conditions.
Liao Dynasty 1056 Ming dynasty 1420 Japan 1955 China 2010SKETCH
3D PRINTED MODEL
When doing this design, in order to explore the aesthetic feeling of high-density buildings in the future city, I built an electronic model based on the conceptual sketch after drawing it, and then made a 3D printed model to intuitively evaluate the aesthetic feeling of this design.
DESIGN NOTE
This project is the work of me and my team member when they participate in the 2020 Reborn competition (hosted byUnfusc (2020) on Uni.). At that time we discussed the issues of natural disasters. Complete this project with people from different countries. Finally, we won the award of the Top Shortlisted.
Earthquake shelter
Reborn - plan for survival
CONCEPT : A fast-deployable refuge device designed for the Iranian region
GROUP WORK: JIAWEI HUANG: idea (100%) model (60%) Drawing (50%) YU YAN TUTOR: Ran Peng
DURATION: 2020
LOCATION: Tabriz, Iran
For centuries, earthquakes have been an inevitable phenomenon that bring destruction and devastation all around the world. This is a worldwide issue and still many countries remain that are powerless in the face of these disasters Countries like Iran, Indonesia and Turkey which are some of the countries that are most prone to earthquakes but don't have the necessary infrastructure to minimize the damages.
Seismic analysis
The Tabas earthquake of 1978 The Tehran earthquake of 1981
16 September 1978 the Iranian town of Tabas is flattened by an earthquake measuring between 7.5 and 7.9 on the Richter scale, killing 25,000 people.
June 11, 1981: An earthquake measuring 6.8 on the Richter scale strikes 800 kilometers southeast of Tehran, killing at least 1,027 people.
An earthquake struck Gilan and Zanjan provinces in 1990
The quake was centered around the Caspian Sea, about 200 kilometers northwest of Tehran, and measured 7.7 to 7.3 on the Richter scale. It affected an area of 10,000 square kilometers, killing 50,000 people, injuring 200,000, shattering 100,000 homes and leaving 500,000 homeless.
An earthquake struck Horasan province in 1997
On 10 May 1997, a devastating earthquake with magnitude of 7.1 occurred in the GarnBirgande area of khorasan Province in northeastern Iran. The region was hit by two earthquakes in 1968 and 1979, which caused considerable damage and loss of life.
A major earthquake struck Kerman province in 2003
In 2003, an earthquake measuring 6.6 on the Richter scale hit the center of bam, an ancient city in southern Iran, killing 30,000 people, injuring 20,000 and leaving 60,000 homeless. The quake flattened 80 percent of Bam and destroyed its iconic medieval castle.
Siting analysis
This historical piece of land, located on the southern part of Tabriz. It used to be one of the most important and largest gardens in Tabriz. In recent years this land empty and without use. This space is one of many locations in Tabriz that could be used for pre-earthquake preparations and post-earthquake accommodation.
Local annoyance
Iran's region Infographic -Seismic Hotspots Seismic MapPre-disaster preparedness
2. Put the disaster prevention articles in a specific warehouse and be ready to respond at any time
3. Build a plane on the bottom of the sphere to balance and stabilize the disaster prevention house 6. ETFE material is used to improve its fire resistance and chemical resistance
5.Using remote sensing technology to estimate disaster prevention situation comprehensively
1. Build a sound disaster prevention system for the need of safe city construction 4. The structure adopts the form of double-layer film for thermal insulation 7. Install fresh air system in disaster prevention house to eliminate the harm of air pollution caused by debris
Preparation before launch
Drones are used to scan the area to get information about the situation before shelters are launched
Model test
We studied and made a telescopic mechanical structure to verify the feasibility of this scheme.
Section line of the ETFE film
It has the characteristics of mechanical expansion,the reduced diameter is only half of the size of the expansion,and the node can be matched with the surface to expand and contract together.
An anti-collision pad is arranged between the node and the surface film to ensure that it will not be damaged during placing.
Section in opened state section in contracted state Skeleton Membrane-skeleton bondingThe disaster relief process
Air drop launch process
The internal mechanical skeleton expands in the air under the pull of the parachute as it opens.
The function of the shelter
Built-in heat pump - fresh air all-in-one machine
Gas generator the bottom is equipped with a gas generator, which contains a sensor and pre-stored sodium azide. When the sensor is dropped or deployed artificially, it will trigger the sensor and release a large amount of nitrogen. the internal skeleton is uesd as a gas pipeline, making the inflatable skin instantly filled with gas.
In Iran, where the night is cold, the shelter is equipped with a Builtin heat pump - fresh air all-in-one machine, which can ensure the warmth of the interior.
Explosive view
Membrane supported by the skeleton,it adopts the membrane structure of ETFE (ethylenetetrafluoroethylene copolymer),which has the characteristics of fire prevention, high strength and heat preservation.
DESIGN NOTE
This project is my school homework during my undergraduate study. As the only student who used parametric design tools, I was highly praised by my teacher. In addition, this work participated in the 9th China University Digital Art Design Competition and finally won the national first prize (>1%).
MARKET OF FUTURE
Commercial complex design based on algorithm generation
CONCEPT: Combining the traditional Chinese commercial layout of lanes with the computer design method of wool algorithm to generate a new type of commercial complex.
ACADEMIC INDIVIDUAL DURATION: 2020 LOCATION: Suizhou, China
MAIN ENTRANCE
SITE
The old suizhou railway station moved east, and the city center moved with it. The vitality of the old town is declining, and local residents lack public Spaces and places to socialize, leading to a serious loss of young people.
OLD RAILWAY STATION
FORMER COMMERCIAL CENTER
Suizhou Wuyue Plaza is the most famous shopping mall in suizhou. However, due to its early construction time and lack of public activity space and green space, its traditional commercial space has been unable to meet the diversified life pursuit of local residents.
Design description (1):
·New market
This design introduces the old business model and smallscale public space into the new commercial complex, creating a familiar and friendly business atmosphere for people, and at the same time, it brings more possibilities for people to communicate, and can also stimulate business to the greatest extent. The vitality of the space revitalizes the entire neighborhood and stimulates the new vitality of the old city.
relocation of Suizhou Railway Station in 2009, the old station was gradually abandoned and Yingbin Avenue quickly lost its vitality. In 2020, the old railway station area of Suizhou City is planned as a new commercial center, and Yingbin Avenue is about to usher in the opportunity to rejuvenate.
Historical analysis
Suizhou started construction Construction of the street system begins Population starts to move The founding of New China Reform and Opening The rise of Internet commerce 1840s 1870s 1920s 1950s 1980s 2010s
Explore new business models 2020s
Primary market economy era Planned economy era Market economy era
Foreign trade economy Individual merchants Commercial complex Internet business
The development history of the business environment of Yingbin Avenue in Suizhou
Yingbin Avenue is located in the west of Suizhou city center. In 1958, with the construction of Suizhou Railway Station, it gradually grew and became one of the most important commercial streets in Suizhou. However, after the relocation of Suizhou Railway Station in 2009, the old station was gradually abandoned and Yingbin Avenue quickly lost its vitality. In 2020, the old railway station area of Suizhou City is planned as a new commercial center, and Yingbin Avenue is about to usher in the opportunity to rejuvenate.
Analysis of surrounding
Urban dynamic space
ANALYSIS OF COMMERCE MODE
The development of online commerce in the past decade is one of the main reasons for the decline in the vitality of traditional business districts such as Yingbin Road. Compared with traditional consumption patterns, online shopping provides people with more choices and lower prices.
In the urbanization process of Suizhou City, commercial and social spaces are usually loose. However, under the influence of the Internet, open urban public spaces and commercial places need to be combined into a coordinated complex building to con nect people's commercial and social needs in a more efficient way.
Analysis of function usage in different time periods
Design Description (II) :
· Wool-Thread Model
I through the computer running wool algorithm to comb these streamline integration, and make the total path and the shortest. This theory comes from a famous simulation of path optimization by architecture and structure guru Frei Otto. Through this method, I can get the best path of crowd flow, and cut the generated route into the functional block of the building, so as to get the architectural form and functional flow based on computer optimization.
Path Networks
The wool algorithm generates a random streamline path Detour (Wool-thread Model By Frei Otto)Wool-Thread Model
Provide the existing urban nodes Extracting paths from the historical texture Determine the volume relationship Form public vitality points
The preliminary conception of this scheme is carried out through the software simulation wool experiment, which makes the combination with architectural design feasible.
Interlacing with three dimensional wool threand algorithm Activity Pattern Of Urban Complex Program
To justify the upraised urban places, I researched the active degree of program in different time and the corresponding circular relations, then simplified these relations into points and lines.I developed the wool threads experiment into three-dimension with computational stimulation, and tried to spotimize the linear results of program research.
Program Volumes Simplified Into Points Active Connections From 6:00 a.m. To 10:00 a.m Active Connections From 10:00 a.m. To 14:00 a.m Active Connections From 14:00 a.m. To 18:00 a.m Active Connections From 18:00 a.m. To 22:00 a.m
Wool algorithm experiment
PLAN
Detail renderings
Human visual renderingsOTHER WORKS
——photography
Landscape photography
※During my undergraduate degree, I loved photography. I founded my own photography club in my sophomore year. I have gained more than 200 members so far. This page is part of my photography work in recent years.
Portrait photographyOTHER WORKS
Bridge design
This is the bridge design I did in my junior year under the guidance of my tutor, who was my tutor when I studied civil engineering. As the tulou architecture is facing decline, I hope to awaken local people's attention to protecting the tulou culture through this design. Therefore, I designed this bridge by combining the architectural elements of the tulou. With the help of the instructor, I designed the bridge and completed the structural analysis and sketched the construction process. This project was used to participate in the Bridge Design Competition of World University students, and I finally got good results in the competition.
*Tulou is a circular traditional building made of rammed earth in Fujian Province, China.
Top view of the model
View of the rendering
Finite element structure analysis
Construction procedure drawing
Maximum normal stress check
Step 1: Carry out the construction of the lead part of the bridge head.
Finite element model
The maximum base reaction force obtained under full load conditions is 832 KN
Step 2: Insert a trough-shaped steel cofferdam, support the cofferdam, pump water from the cofferdam, check the leakage of the cofferdam, stop the leakage in time, and clean the base.
Step 3:
1. Lay the crushed stone cushion, and then pave a layer of cement mortar after compaction for foundation masonry.
The maximum compressive stress value appears at the bridge pier, which is 1.2MPa<22.4MPa, which meets the requirements
Overall temperature rise and fall check
The deflection calculation
2. Set up the wooden formwork of the upper bridge of the foundation, pour the concrete, and maintain it until the concrete strength reaches 70% of the design strength, and remove the wooden formwork.
Step 4: Set up bowl buckle scaffolding and install arched wooden formwork.
When the overall temperature of the bridge is 15℃, the maximum stress of the bridge appears at the pier, and the maximum stress value is 3.1MPa<22.4MPa, which meets the requirements of the code.
The maximum vertical deflection under dead load occurs at the position of the flat bridge under the bridge span, which is in line with the expected situation, and the maximum deflection value is 3.6mm.
Step 5: Pour the arched part of the concrete, maintain it until the concrete strength reaches 70% of the design strength, and remove the wooden formwork.
When the overall temperature of the bridge is reduced by 11℃, the maximum stress of the bridge appears on the outside of the pier, and the maximum stress value is 2.1Mpa<22.4Mpa, which meets the requirements.
The absolute value of the difference between the deflection under no-load condition and full-load condition is 0.4mm<57mm (L/600, calculated span L=34m), which meets the requirements.
Step 6: Lay bridge deck paving, railings, corridors and other ancillary facilities.
Research on the urban cultural background, excavate the naming of subway stations, extract surrounding characteristic buildings, distinguish different subway lines with different colors, and abstractly design subway station seals.
Wuhan Metro Line 2
OTHER WORKS
——Wuhan Metro Seal Design
Extract elements of our university, design postcards and hats.
OTHER WORKS
——Culture-Based Creative Product Design
Wuhan Metro Line 4
Wuhan Metro Line 6
Stamp philately
The eye-catching logo of "Big Wuhan" is printed on the cover, and tourists can record their experiences and preserve their memories in the form of philatelic seals during the journey.
This is a set of cultural and creative product designs I made in my sophomore year to participate in innovation and entrepreneurship competitions. I collected paintings of school buildings (the student activity center is my watercolor painting), and designed pop-up postcards by extracting architectural elements. The final result is that the building of our school can be presented in a three-dimensional form after opening.
Design of intelligent epidemic prevention isolation house & area
This is the video part for participating in the 2021 "Mass Innovation Cup" Entrepreneurship and Innovation Competition. We designed a house that is convenient for transportation and can be quickly unfolded and folded. For quarantine during epidemics and temporary resettlement during natural disasters. In this design, I was responsible for the design and modeling of the isolation house, as well as making the final video. This work finally won the best potential award. Team leader: Liu Feiyang; Team members: Huang Jiawei, Zhang Wenhao, Yan Yu, Li Jun.
OTHER WORKS
——Animation Design
Design of "Liuzhou City" Research and Practice Base
This work was used by me to participate in the "National College Students 3D Digital Design Competition" in my junior year. As the team leader, I was responsible for arranging the division of labor among the three team members, as well as part of the architectural design, modeling and video rendering, and I edited the final work. This work won the first prize in central China. Team leader: Huang Jiawei; Team members: Liu Feiyang, Zhang Wenhao, Yan Yu, Li Jun.
https://youtu.be/Kio3STl_fDQ
Interior and exterior renovation design of School of Architecture, Wuhan Institute of Technology
This was a group assignment for interior design in my junior year. As the team leader, I was responsible for organizing the team members, designing and modeling the outdoor exhibition installation, indoor main hall, and finally rendering and making videos. We got the highest score in our major for this assignment. Team leader: Huang Jiawei; Team members: Zhang Wenhao, Yan Yu, Li Jun.
https://youtu.be/gvICxuttMs0
Upgrading and Reconstruction Plan of Gongjie Commercial and Tourism Area in Xuan'en County
This was a project I participated in my sophomore year, helping teachers make program videos. I was mainly responsible for modeling and video editing. Team leader: Huang Jiawei; Team members: Liu Feiyang, Li Jun.
https://youtu.be/krusmpK2_-c
https://youtu.be/ZSfaUzNhoaI