JUNDA XIANG
ARTCHITECTURE PORTFOLIO
Address: Room 425, Department A05 NO.15, Lianfa Street, Nangang District Harbin, P.R. China Post Code:150001 Email: xiangjunda@hotmail.com Tel: +86 18045010048
City in the Sea, designed in 2012, Junda Xiang
Architecture is construction, context and so much more: for those who chose to be architects, it is a culture, a commitment and a life long path to discovery. ---- Robert A.M. Stern
This portfolio contains the design work of Junda Xiang.
CONTENTS Residential and Commercial Complex Rain 路 Forest
Hop Cup 2013 International Student Competition Architectural Design
4
Snow Culture Exhibition Hall Based on Mechanics Principle
Open Research-oriented Architecture Design, 2013
16
City in the Sea Machine and Architecture
2012 UA International Concept Design Competition
24
Harbin Harbor Urban Design Village --- The Fifth Facade of City Curriculum Design, 2013
32
Dragon's Blood Trees on Socotra Island
National Geographic Magazine, June 2012
RESIDENTIAL AND COMMERCIAL COMPLEX
RAIN 路 FOREST
TYPE: ACADEMIC WORK/COMPETITION WORK/COLLABORATION WORK DATE: Aug.2013. LOCATION: Mogadishu, Somalia TUTOR: Bai Xiaopeng COLLABORATOR: Wan Shaoran, Ding Weishuang, Yang Yuyu CONTRIBUTION: DESIGN: 60% MODEL: 90% EXPRESSION: 50% ROLE: Team Leader
3
RESIDENTIAL AND COMMERCIAL COMPLEX
Water Crisis in Somalia
RAIN · FOREST
LOCATION: MOGADISHU, SOMALIA
FOREST, which is born for conserving water and capturing sunlight, provides our ancestors water, food and shelters. The space enclosed by the branches gave humans a sense of safety in the early age of the history. Undergoing the war,Somalia public water transmission facilities were paralysed. We hope to provide every resident a “TREE” to make their life better.
Network Water Transmission System
2011 East Africa drought
Pollution Source
Easily get polluted once it paralysed under the war environment.
Self-sufficient Water System
Every “TREE” is capable of absorbing rainfall, and stores them safely underground.
Rainfall
Water Resourece
Solar Energy
Electricity
Electricity Equipement Water Storage
Between July 2011 and mid-2012, a severe drought affected the entire East Africa region. Said to be "the worst in 60 years", the drought caused a severe food crisis across Somalia, Ethiopia and Kenya that threatened the livelihood of 9.5 million people. Crowded, unsanitary conditions together with severe malnutrition led to a large number of deaths. Apart from an unusually strong La Nina phenomenon, the lack of vegetation cover also contributes to this severe drought. The land of Somalia has no ability of water conservation. The rainfall evaporates immediately once it touches the hot dry land. This is the initial inspiration of our design. [1] Only 250km away from Somalia, there is an island called Socotra Island, where growing a special kind of tree, named Dragon's Blood Tree. The unique shape of the tree is generated through millions of years in order to adapt the hot, dry climate of this region. It stretches its crown to the most to receive more rainfall, and provide itself a large area of shade so that it can prevent water from evaporating.
Dragon's Blood Tree
We abstract this shape to design our sanctuaries that best adapted to the local climate. 1. 2011 East Africa drought, Wikipedia
4
Model
5
Market Development
There is little we can do when a serious drought attacked Somalia. But we hope that when rainfall really comes to this country, we can reserve it safely in the land for a long time.
Stall Distribution
3.700 m 1.800 m ±0.000 m
Stock Room
-2.300 m -3.500 m
Water Pipe
Bathing Pool
Initial Stage
Living Area Water Reserving Area Storage Area
Daily Situation 丨 Evenly Distributed
Section Scale 1:400
110 m
Developing Stage
Hot Weather 丨 Close to the Water
7.5 m
27
m
Stall
Mature Stage
Important Event 丨 Gather in groups
Residence
The architecture is just like a forest, starting from one TREE, expanding itself one by one. This process is not designed in advance. The figure and scale of the architecture are changed along with the change of surrounding environment with time elapsing.
Aerial View 6
Just like the uncertainty of the architecture, the distribution of stalls is not designed in advance either. In this “ FOREST”, everything shares freedom. So, architecture is just like a big stage, the figure of it is always changed along with the activities inside it.
Market
Bathing Pool
Plan Scale 1:1000 7
Market Perspective
Structure Model
Structure Model
Drawing by Junda Xiang
8
Structure Model 9
Residence Sreucture
Market Sreucture
Construction Aid
Model
Solar Panel
Storage Batteries
200mm Steel Pipe
Accessible Roof Stairs
Residence Plan
Side Window
Solar Panel Storage Batteries
HOPE Just like a tree blossoming into a forest, it takes time, but there is hope ahead of them.
Steel Purline Wall Material
200mm Steel Pipe
Steel Truss Type 1 Scale 1:250 Steel Staircase Steel Structure Skin Layer Thermal Insulating Layer Structural Layer Water Proof Layer
Type 2 Scale 1:250
Warehouse Entrance Market Floor Steel Beam Steel Structure Structural Layer Water Proof Layer
Reservoir Entrance Warehouse Entrance Warehouse Baffle Wall (left: reservoir 丨 right:warehouse)
Steel Pipe Base Underground Warehouse
Warehouse Floor
Steel Pipe Base Reservoir
Type 3 Scale 1:250
All parts of the residence are removable, using light steel structure as framework and light panel as surface materials. The "trunk" below the "Crown" transports water and solar power to the space below, supporting every single building, like a living organism, exists independently.
Like the residential part, the market uses the removable structure as well, in order to adapt to the constantly changing needs.
Large numbers of houses were destroyed every day, only efficient building assembly method like this can help providing enough safe houses for refugees.
There are a warehouse and reservoir below each “TREE”. Warehouse is used to store goods that are not easy to carry, and the reservoir will undertake the rainwater, supporting the public baths in the center.
Buildings are in very small sizes with compact internal space. In order to improve space efficiency, retaining only the most basic needs of living. Public space is transferred to the steps on the roof, being part of the city public space.
10
Because of the turbulence in Somalia, the construction industry cannot be developed. Removable characteristics of the building disassemble it into small light components, which can be produced by the donor countries and transported to Somalia by air for rapid assembly. This structure provides support from all over the world for the disaster areas in Somalia.
11
SNOW CULTRUE EXHIBITION HALL
BASED ON MECHANICS PRINCIPLE
TYPE: ACADEMIC WORK/COLLABORATION WORK
DATE: Feb.2013. LOCATION: Harbin, China TUTOR: Sun Cheng EMAIL: suncheng@hit.edu.cn COLLABORATOR: Zheng Huijin, Luo Zhaoji, Pan Shuo CONTRIBUTION: DESIGN: 30% MODEL: 50% RENDER: 20% STRUCTURAL ANALYSIS : 90%
Inside Gaudí’s hanging model for the Colònia Güell. Via.
SNOW CULTRUE EXHIBITION HALL BASED ON MECHANICS PRINCIPLE LOCATION: HARBIN, CHINA
Mechanical Steady-state System 1. These balls are distributed randomly in the beginning. Each of them is representing a column in the Exhibition Hall. Let us assume that every ball has got repulsion force towards others. Under the repulsion between them, they start to move away from each other. Finally, those friction forces between balls and the ground balance repulsion forces. All these balls stop motion in the end. When I change the initial location of even only one ball in the system, the final outcome would be totally different. But no matter how they stop their motion, the final location would be in a state that the distance between every two balls would not be too long or too short. Because they are in a system that ensures this homogeneity.
1
Concept
Model Simulation
What is different to Gaudi's work is that, we didn't reverse the model to get those arches with superior mechanical properties. Instead, we designed it with the principle of suspension bridge: the curvature of cable is determined by equilibrium condition.
14
3
2. The problem to Step 1 is that, all these results seemed to be similar, there is no way we can judge which one is better. So, in order to be more visual of the final shape, I relate the motion of those balls with the changing of an elastic surface, which could be considered as the roof of this Exhibition Hall.
As is shown in the previous page, this design is inspired by Antoni Gaudi's "hanging chain" model of Sagrada Familia church.
In Gaudi's time, what he can do is to photogragh his model and depict those curves with his hands. But now, with Mechanical Calculator, we can obtain the exact curved surface form under the equilibrum state.
2
This system provides me with a facility that I can generate large amount of relatively rational outcomes in a small amount of time, and then I can choose what I prefer most in these results.
1
2
3
3. After Step 2, I find that I can do more about this system actually. I add the column system into it to generate the whole roof-supporting system. Up to this step, I successfully transform the motion of several balls into the generation of a Well-behaved Structure System. By moving balls in the system, I can generate several structural system in a minute.
15
Structure Model
Structural Analysis Suspension Bridge
Dimension Transformation
9
Inspired by the structure of suspension bridge, I set 10 section planes in the directions which connect every two columns. In this way, I creat 10 "Suspension Bridge" stuctural systems in 10 directions.
Force Analysis
8
7
10
6 5
This system decomposes the complicated roof load into 2 Dimensional Structure problem. And the curvature of cable is precisely calculated by computer program through the mechanical equilibrium equation.
4
Section Structure 1
3
5 1
Plan Scale 1:2000
Force Analysis Scale 1:1000 2
6
9
3
7
10
4
8
16
2
17
F4 Temporary Exhibition Space F4 Exhibition Space
Elevation Scale 1:500
F3
15.000 m
Cafe F2
12.000 m
F3
Exhibition Space
8.000 m 4.000 m Âą0.000 m
Information F2
-3.500 m
Ice Slide Skating Rink
F1
Section Scale 1:500
Exhibition Space Lecture Hall 14.500 m
Main Entrance
Gift Shop Office
12.000 m 8.000 m
Secondary Entrance Collection Warehouse Office Equipment Room
Internal Structure
16.500 m
F1
4.000 m
B1
B1 Horizontal Flow Vertical Flow Staff Flow
Âą0.000 m -3.500 m
Warehouse
Structure System 18
Transport Analysis
The plan of every floor is developed around these 5 huge columns, leave an artrium in the centre of the building. This layout provide floor plates with the best mechanical stability, at the same time, provide vistitors with comfortable visual permeability. As this is an exhibition building, we hope that we could provide more feasibility. Under this principle, there are only 5 bracing structure in the building, left the internal space with large column free spaces, which could be applied to various functions. No wall in the building is load bearing wall, therefore, this is a building that can be apdated with the times.
Section Scale 1:500 19
Interior Perspective
Drawing by Junda Xiang
Natural Lighting Mechanism
Snow Culture Exhibition Hall in Summer This Exhibition Hall is not designed for a whole-year use. Actually, it is designed for tourists who come to Harbin in summer time and have no chance to view the amazing Ice Sculpture Park not far away from the site. So, it is essential to plan an Ice Sculpture Exhibition Section in this building. We decided to combine this Exhibition Section with the Structural System, making the spaces inside those huge columns a homothermal space for ice sculpture display, at the same time, creating a Natural Lighting System owing to the high reflection of snow and ice. This arrangement makes these ice sculptures visible from every floor, every corner of the building.
Section Model 20
21
Jellyfish in the Montery Bay
OpEdNews, 2009
CITY IN THE SEA
MACHINE AND ARCHITECTURE
TYPE: ACADEMIC WORK/COMPETITION WORK/SOLO WORK DATE: Aug.2012 TUTOR: Bu Chong EMAIL: wnsj@vip.sina.com
CITY IN THE SEA MACHINE AND ARCHITECTURE
Journey Back to the Ocean OCEAN, where all organisms came into being. 390 million years ago, the first Four-legged Vertebrate step on the ancient land. 390 million years later, facing the land shortage and energy crisis, human start to think about getting their way back to this BLUE LAND. And obviously, this return will not succeed without the help of MACHINE.
24
25
Drawing by Junda Xiang
2010
2005
2000
1995
1990
1985
1980
1975
1970
1965
1960
1955
1950
1945
1940
1935
1930
1925
1920
1915
1910
1905
1900
Machine and Architecture
Modular Approach Sectorization
Air Harbor
Public Space
Power System First Airplane, 1903 Wright brothers
Ford Model T, 1908
Vandal Diesel Ship, 1908
Mobility of Living, 1958
Capsule Tower, 1972
Henry Ford
Karl Hagelin and Johny Johnson
Yona Friedman
Kurokawa Kisyo
Chances in the Ocean MACHINE AGE There is an underlying relationship between the development of machine and architecture. After the appearance of plane, car and diesel ship, architecture starts to turn its eye to the design of machine. The reduction in cost (including money and time), aesthetics of machine, and most importantly, the design approach of it deeply changed the mind of architect. As the integration between machine and architecture seems more profound than ever in this era, there must be a time that whole architecture is assembled by machine components.
Modular design is an approach that subdivides a system into smaller parts, that can be independently created, to drive multiple functionalities. Nakagin Capsule Tower perfectly illustrates the implication of it. A house is a machine for living in, 1923
Walking City, 1964
Le Corbusier
Ron Herron
WHAT'S NEXT? MACHINE AGE!
Underwater City, 1964 Warren Chalk
26
Regretfully, because of the huge gravity exists, those modules in the tower never moved or replaced until the tower was dismantled.
Residence Residential Module
The flexibility or mobility of module can be achieved easily in the ocean because of the flotage of water, which can confront the huge gravity of each module. Every module is just like a little submarine.
27
Floating Main Body
Pre-warning tower
Residential Section Elevator Shaft
Air harbour Wind Power
Boat Pier
Residential Module Water Saving
Vessel Dock Airfield
Residential Module
Fixing Device Pipeline System Core
Power System Public Space
Base Anchor
Gravity Balancing System Adapting Ring
Archigram in the Future The development of machine is amazing after the Industrial Revolution. It is no exaggeration to say that this explosive growth of machine is redefining our life.
Living Space
Flexible Link Entrance Propeller System
28
Base Anchor
A Family of Three, 20?? A.D.
In 1960s, those works of Archigram first offered a seductive vision of a glamorous future machine age. Half century later, it seems that their vision could be realized in the foreseeable future. At that time, we have got a chance to step out of the land.
29
Wheat Field in Henan Province, China
3 DIMENSIONAL URBANISM IN HARBIN HARBOR
VILLAGE --- THE FIFTH FACADE OF CITY TYPE: ACADEMIC WORK/CURRICULUM WORK/SOLO WORK
DATE: Jul.2013. LOCATION: Harbin, China TUTOR: Xu Suning EMAIL: xsuning_hit@126.com
3 DIMENSIONAL URBANISM IN HARBIN HARBOR
Chronology of 3 Dimensional Urbanism
VILLAGE --- THE FIFTH FACADE OF CITY
1920
LOCATION: HARBIN, CHINA
Emergence
Metropolis, 1928 Henri Sauvage
1925
Site Plan Scale 1:15000
N
The site is located in Daowai District, Harbin, China. This is originally a prosperous inland port in the last century. But with the development of the highway system and the airline system, this port is declining.
1930
It's time for the government to think about how to rejuvenate this valuable land beside the great river --- Song Hua River.
1945
1935 1940
1950
HIGHLIGHT
China is a traditional agricultural country. The whole world saw the rapid urbanization of China in the past 30 years. But meanwhile, China's urban residents are now far from land.
The Death of Chinese New City
Ville Flottante, 1959 Paul Maymont “Ghost Town” in Erdos, China
1.Wide Road System
1955
Horizontal Layout, Motor Vehicle > Pedestrian
City in the Air, 1962 Arata Isozaki
1960 1965
3 Dimensional Integration
3.Lack of Commerce
1970 1975
2.Single Land Property Single Residential Zone, Lack of Supporting Property
GAP
Babelnoah, 1964 Paolo Soleri
Commerce Lag Behind Fast Expanding of City
4.Away from Working District Cause of low Population Density
1980 1985
Triton City, 1968 Paolo Soleri
1990
2000 2005 2010
Aerial View 32
RIVIVAL
1995
Commercial Space Vertical City
Magacity Pyramid, 1991 Shimizu
Vertical City, 2013 Junda Xiang
33
Two Dilemma of Harbin The separation between New Town and Old Town, City and Village, is a serious social problem in Harbin. Actually, This is a general urban issue in all Chinese fast-growing cities, but not as serious as Harbin. The huge city size and agricultural property of this city aggravates this dilemma.
Old Town Pattern
Structure of the Vertical City
Low Density Scale Comfortable Perfect Combination
New Town Pattern
Residential Space with Beautiful Scenery
But
High Density Scale Uncomfortable
Vertical Solution
Old Town
High Density Deweeling
Apart
New Town
Residential Skyscraper
Sky-Village Layer
City: Harbin
Two Dilemma First Layer of City
Scale Comfortable Commerce City Major Grain Producing Area
Apart
Village
Abundant Village Resources
Air - Farmland
But Lagest Provincial Capital
New Town in Harbin
Abundant City Resources
Second Layer of City
Farmland in Harbin
Old Town in Harbin Low - density Commercial Space
Connect
Connect Third Layer of City
34
Pedestrian Commercial Space with Shelter
35
Form Generation Plan Form
Plan ( 10m High Section ) Logic
Generation Process
3
1
2
1 Randomly distributed some points around the site.
3
2 The pedestrian system renewed by abandoned railway apply attractive forces on all the points .
6 7
6
4 5
In the parts close to the railway pedestrian system, the scale of the Voronoi diagram is relatively small. Accordingly, those buildings and streets in that part are also small in scale.
With the hope to create a region operated like a living creature, I find the form logic in a plant tissue slice. 2
3 All the points start to move under the attractive forces. ( Point matrix at time 1 second)
4 Point matrix at time 8 seconds.
5
4 2
2
This logic automatically achieve my initial pursue: to form scale-comfortable pedestrian commercial space around the railway pedestrian system.
6
1 4 2
1 Riverside Deck
5
2 Public Square 3 Underground Park Entrance 1
3
4 Bike Transfer Area 5 Botteomed Public Park 6 Railway Pedestrian System 7 Commercial Space
I don't want to constraint the site in a defined boundary. It should be a place interacting with surrounding environment. The Plan form I designed is like a living creature, like the membrane structure of an ameba, which exchanges material and energy constantly with the outer space.
36
1
In the past, people design a city in the vertical and horizontal way because of technical limitations. But the future city could share more freedom.
10m
5 Point matrix at time 16 seconds. (Final form)
6 All the points form a Voronoi diagram to be the basic structure of plan.
Scale 1:6000
N
37
Section Sketch
Air - Farmland
Harbin is located in China's northeast region, where snows nearly six months in a year. It is urgent to construct a comfortable pedestrian commercial space in winter. Moreover, citizens could enjoy cycling in winter without encountering snow.
Every year the government spent tremendous amounts of money on maintaining Public Greenlands. The existence of these Air-Farmlands perfectly solved this problem, together with the benefit of crops and our lost sentiment for village.
Verticlal Traffic + Pipeline Core
Air- Pavement
Commercial Building Respectively-designed by every Block
High-rise Housing
Air - Farmland Layer
Cycle Track
Connection Layer
Pedestrian Commercial Layer
Sidewalk
38
Drawing by Junda Xiang
Botttomed Public Park
39
3 Dimensional Urbanism --- Where City and Village Encounter
40
41
OTHER WORKS Cultural Complex Design
44
Hop Cup 2012 International Student Competition Architectural Design Honorable Mention Award
Twisted Wall
46
2012 HIT Twisted Wall Construction Competition_Honorable Award
Chess Club Design
47
2012 Architectural Workshop of the University of Sheffield
Urban Renewal Project
48
2012 Curriculum Design in NTUST, Taipei
Wind Parametric Study 2011 Parametric Design Workshop, TU Delft
Badminton Stadium Curriculum Design, 2012
Fine Arts Works
49
Watercolor Render, Pen-and-Ink Render, Graphic Composition
Photography Works Photo taken in Taiwan University, Junda Xiang, 2012
50
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Bridge: Change a Visual Angle
Cultural Complex Design
Solar Panel
Hop Cup 2012 International Student Competition Architectural Design Honorable Mention Award Location: Harbin Type : Collaboration Work Collaborator: Han Jiangyue Tutor : Chong Bu “Poetically Man Dwells...� Hegel promoted this vision in 1951. Actually, this is the lifestyle that Chinese people have lived for thousands of years. This design talks about traditional Chinese concept of the relationship between architecture and landscape. There is no clear boundary between these two, on the contrary, the two parts permeate into each other.
Electricity
Sunny Region for Outdoor Activity
Light Shadow Region for Chessing
We always feel uncomfortable to have so many buildings around us, because we have to look up to these giants. How about change a viewpoint towards buildings? Bridge is an important element of traditional Chinese landscape. The bridge in the air provides citizens of a special experience. When you walk among the crowns of these trees,you might feel like you are away from a city. The relationship between architecture and landscape in China is rich in meaning. The change of visual angle could endow architecture with landscape property. We want to create a more complicated relationship between landscape and architecture. Our design provides people a considerable wealth of possibilities about visual angles. While people wandering in it, they could feel architecture and landscape repeatedly transform into each other with the change of their viewing angle.
44
45
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Twisted Wall 2012 HIT Twisted Wall Construction Competition Honorable Award Type : Collaboration Work Collaborator: Chen Siyu, Wan Shaoran This competition requires that to twist a wall to the most without using any glue or joints.
Chess Club Design 2012 Architectural Workshop of the University of Sheffield Location: Harbin Type : Solo Work Tutor : David Britch This work talks about the relationship between architecture, history and landscape design.
46
47
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Urban Renewal Project 2012 Curriculum Design in NTUST, Taipei Type: Solo Work Tutor: Ch'en Yongfu In this project, I started to know the complexity and challenge of urban issues, especially in a country like China. Every building in the city is connected with each other, no matter when and how they are built.
Wind Parametric Study 2011 Parametric Design Workshop, TU Delft Type : Collaboration Work Collaborator : Xian Haohui, Bian Zhe, Qu Dagang
The subject of this workshop is to catch the shape of the wind field, and to transform them into architectural language. This is the first time I feel the natural world in a digital way.
Badminton Stadium Curriculum Design, 2012 Type : Collaboration Work Collaborator: Han Jiangyue The building is located beside a City Wetland Park. We lift the Badminton Stadium up to a height that the whole park could be viewed from inside the building. At the same time, provide a untroubled view for citizens from the main street.
48
Watercolor Render 2009 Curriculum Assignment
Pen-and-Ink Render 2010 Curriculum Assignment
Graphic Composition 2009 Curriculum Assignment
49
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Photography Work
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Photography Work
Time: 2012 Summer Location: Yangshuo, Guilin
Time: 2011 Summer Location: The Humble Administrator's Garden, Suzhou
Photography Work Time: 2012 Autumn Location: Baekdu Mountain, Jilin Province
Photography Work Time: 2012 Summer Location: Taitung County, Taiwan
50
51
OTHER WORKS
JUNDA XIANG
HARBIN INSTITUTE OF TECHNOLOGY
Photography Work Time: 2012 Autumn Location: Baekdu Mountain, Jilin Province
52
53
RESUME
JUNDA XIANG
Personal Information
HARBIN INSTITUTE OF TECHNOLOGY
Other Experience Exchange Student to National Taiwan University of Science and Technology Kijo Rokkaku Design Workshop Volunteer for the 9th International Symposium on Environment-Behavior Research Volunteer for the 2011 China UK Korea Conference on Architectural Design Education Delft University of Technology Parametric Design workshop
Name: Junda Xiang Gender: Male Citizen: China Address: Room 260, NO.66, Xidazhi Street, Harbin, China
2012.2 – 2012.7 2011.12 2011.12 2011. 9 2011.7
Cell Phone: +86-18045010048
Leadership
E-mail: xiangjunda@hotmail.com
Education 2009 - Prensent
Harbin Institute of Technology, Harbin, P.R. China Bachelor of Architecture, GPA: 3.44/4.0 RANK: 8/70 Expected Graduate Date: 2014.7
Track Team Leader of Department of Architecture Team Leader of National University Student Innovative Experiment Project Team Leader of National University Student Innovative Experiment Project Team Leader of Hop Cup 2012 International Student Competition Architectural Design
2011-2012 2010 2011 2012
Collegiate & Community Activities
Awards & Scholarships Honorable Mention Award, Hop Cup 2012 International Student Competition Architectural Design [published in <UED / Architecture Magazine>] 2012
2012
HIT School of Architecture Track Team (school representatives) as: team leader [Awards]: HIT Student Relay Race Competition, 3rd Place, 2011
2010 - Present
2012
HIT School of Architecture Men’ Volleyball Team (school representatives) [Awards]: HIT Student Volleyball Games Competition - Men’s group, 3rd Place, 2010 / 2012 HIT Student Volleyball Games Competition - Men’s group, The CHAMPIONSHIP, 2011
2010 - Present
Honorable Mention Award, HIT Twisty Wall Construction Competition [EXHIBITED in <HIT Twisty Wall Construction Competition Exhibition>] 2011.7 HIT, Harbin, China 2nd Prize, National University Student Innovative Experiment Project [EXHIBITED in <HIT Innovation Experiment Excellent Project Exhibition>] 2011.7 HIT, Harbin, China
2011
HIT School of Architecture Table Tennis Team (school representatives) as: one of the main players [Awards]: HIT Student Table Tennis Competition - Men's Doubles, 3rd Place, 2012
2012 - Present
1st Prize , National University Student Innovative Experiment Project, [EXHIBITED in <HIT Innovation Experiment Excellent Project Exhibition>] 2010.7 HIT, Harbin, China
2010
2010 - Present
1st Prize , People's Scholarship Feb. 2010 – Jul. 2010 2010 HIT, Harbin, China
2010
HIT School of Architecture Photography Club as: one of the main members [Awards]: HIT Student “ Autumn of Harbin” Photography Competition - 2nd Place, 2011
Computer Skills Professional Experience Intern Position: Space-Seed Design Studio, SHC Architects, Taipei, China Project: Northeast Fulong Visitor Center, New Taipei City, China Parts: Construction Documents Drawing Intern Position: 5+1 Werkhart International, Beijing, China Project: Hailar Museum of Natural History, Hulun Buir, China Parts: Elevation Design, Structure Design
2012.7 - 2012.8
2013.9 - 2013.11
3D Modeling 2D Graphics Rendering
SketchUp, Revit, Rhinoceros, Grasshopper, Kangoroo, Weavebird Adobe Creative Suite(PS / AI / ID), AutoCAD V-ray for Rhino / SketchUp, Neon for Rhino V5, Keyshot
Avocations Jog / Table Tennis / Volleyball / Photography
I dedicate this portfolio to my loving grandfather. A great "Rural Architect" who passed away one year ago. I miss him everyday.