GUANGYU WANG PORTFOLIO Selected Works 2013-2018
Preface What is architecture? Is it a machine that serves for specific functions? Is it something about our mind and spirit? Or is it a beautiful sculpture that attracts people? There are many questions, and so many answers. Our world is always about paradoxes, tradition vs. modern, play vs. work, luxury vs. ordinary, planned vs. impromptu, vertically vs. horizontality, and architecture is the most direct space for these contradictions. It is about balance, about nature.
CONTENTS
Selected Projects Value or Junk?
∞
Culture
From 0 to Infinity Infrastructure
In-Between Education
One home for all Superblock Residence
Intersection Transportation
Project i-Yard 2.0
Finished Project (Team Project)
Researches Cantilever Chair Generative Design
Redesign of Nakagin Capsule Tower Architectural Analysis
Waste Collection Circulation NYC Urban Analysis
Renovation of Lever House Revit Modeling
Other Works
GUANGYU WANG
e-mail | gw2371@columbia.edu tel | (+1)917-822-4941
Selected Works
Chapter I
Courtyard Culture Location: Beijing, China Instructor: Galia Solomonoff 'If space-junk is the human debris that litters the universe, junk-space is the residue humankind leaves on the planet. The built (more about that later) product of modernization is not modern architecture but Junkspace. Junkspace is what remains after modernization has run its course or, more precisely, what coagulates while modernization is in progress, its fallout...(Junkspace, Rem Koolhaas, 2001)'. Words by Rem Koolhaas are a critique of the homogenization space of contemporary cities. Today in Beijing, the inevitable development of residential and commercial complexes gradually encroaching on public space and turning them into the same 'Junkspaces.' Then comes the question: How do we save our city? How to eliminate the junk and bring something valuable for the city? For local residents? Therefore, the project focused on the life of local residents, the ancient style of Beijing. Hope this courtyard could bring respect and memories for our old time.
Noli Map
Heat Map
Housing Development
Function
Road Width
Walkability
Large Scaled City
Large Scaled Street
Commercial
Office
Infrastructure
Residential
Site Our site is located in the 'most developed' area is with 'the least' living quality. There being large scaled residential and commercial development everywhere which encroach the public spaces.
Also, most of the street is over 50 meters in width that makes the city quite unwalkable. We are losing a city for its people. Therefore, two keywords for our program came up- Public space and Walkable city.
A city with(out) memory Beijing, one of the most important cities in China as the political and economic center for hundreds of dynasties, the master plan, and the territory of Beijing has expanded more than 20 times. The growth of the population and the growth of urban functions bring value, opportunities, and a series of other benefits.
Zhuo Shire
Jin City Feudal city-state
Youzhou
Population over 130,000
Nanjing
Military center and business
Zhongdu Yanjing Occupied by a minority group in
Dadu
Occupied by a Capital of a minority united group in country for the first
Beiping
Beijing
Chiness overthrow the Mogols
Beiping
Urban D
Qing Ming
Yuan Beijing as we know it begun
Jin Liao
Neolithic villages are established in the area around
1045 BC
226 BC
Trading between Warring northen tribes States starts to take period place around the site of the Qin Shi uni-
fies China. First imperial dynasty. Great wall is
581
618
907 916
Becomes the southern capital of the new Khitan (Mongol) empire
1125 1153
1272
1215 1267
The urban area was extended toward the east, west and south, and was encircled by newly built city walls. The palace
Genhis Khan destroys the city
1368
Trade along the Sillk Road
Construction of the Great Capital using Confucian ideals. Imperial palace built in today’s Baihai Park
1403 1406 1421
Began to build moved to Forbiden City City center City is rebuilt around the new Imperial Palace and its basic layout is established
1564 1644 1694
1851 1860
Central part of the city has now formed. At the southern part of the axis, the Temple of Heaven and the Temple of Earth,
The Taiping Rebelion
Rusia, first european power stablished in Beijing
The boxer Rebellion
Old Summer Palace was burt down by invaders First Opium during second Opium War by War British and French. Resulted in the signing of a treaty permitting Western resident ambassadors to live in Beijing per-
1800 1813
However, we are also losing something at the same time. We have beautiful skyscrapers, attractive landmarks, and fancy commercial buildings but we can hardly find anything for Beijing itself, for the residents living there. Modernism has made Beijing a city losing its most crucial memory, tradition, and culture.
1900 1912 1919 1921 1937 1945
Nationalist movement
War of Resistance against
Republican revo- Founding of the Civil war lution. Last emCommunist Party peror Puyi was in Shanghai forced to abdicate the crown
1929
SOCIALISM
3000 BC
REPUBLICAN
Qin Western Zhou
IMPERIAL
Sui
REPUBLICAN
IMPERIAL
FEUDALISM
organized according to a hierarchical system, The Palace City, the Imperial City and the city of Dadu. A tripled
Tang
1949
1950 1952
Mao Zedong declares People’s Republic of
1953
1958
Outer city walls began to be dismantled gradual-
Policy of “transforming Beijing from a consumption city into a production city”
-2nd Master Pla scattered group of urban development -Began to build 1st Master Plan: the “Ten Major political functions Constructions” in the ancient city, -Policy of “trans new development forming Beijing centered around from a consump the old city tion city into a in dustrial city”
1
Beijing
Beijing Urban Development Under the Market
Development Under the Planned
1966
1959
1971
1972
1973 1976
- the shortage of housing: “dime”(low standard temporary housings were built
-800 new factories were built -One ring road after the other p- has been added n-
s-
REPUBLICAN
1960
President Nixon traveled to PRC to negotiate the Shanghai Communiqué, an important step Henry Kissinger traveled to Beijing toward improving twice to give own relations between people hope that the United States during Vietnam War and domestic 3rd Master Plan: divisions, their Moving indusgovernment had a tries to the urban vision of a peaceful fringe,
SOCIALISM
an: ps
Great Cultural Revolu-
1979
-Policy of “reform and opening-up” -The communist party says couples should have no more than one child
building a number of small cities and towns
1978
1983
1989
4th Master Plan: Beijing was defined as the “national political and cultural capital of China” -suburban development caused the massive demolition of the old quarters of the city
1988
After China's government began violently cracking down on protestors in Beijing's Tiananmen Square, Tank Man stood in front of a column of tanks
1992
5th Master Plan: Rebuilding Beijing as a “modern international city”, emphasizes the development of high-tech industries and promoted subur-
1995
2004
SOHO China, Chinese office developer was founded.
1999
6th Master Plan: proposed a “polycentric” structure for the city
2008
2015
-The Olympic Games -Old buildings torn down in many districts -new subway lines -new park, the Olympic Park, has been added to the system of green spaces -Regulations to improve air and water quality -the conservation of the historical heritage got political support - Bush dedicated Embassy of the US, Beijing
2008
2017
2018
One-child policy scrapped, allowing all couples to have two kids 7th Master Plan: -restructure the layout of the city into a central city area, a sub-center, two axes, and 10 suburban areas, -“Less is More”:reducing for development’, enlarging the environment -population declined
Beijing municipal government moved to subcenter in Tongzhou to accelerate the development in its nearby regions
2013
Economical growth, business, money
Construction: Urban layout, Buildings, Master
War, rebelion, revolution, destruction
Street and Public Space How to define public space? I turned into the old Beijing Area for an answer. I found that traditional public space does not have a clear definition. It could be the table on the side of a street, a balcony that provides a beautiful view or a courtyard with trees. It is about the nature of the city. The streets are the memories of the city, and now it will be bring back to the city,
The famous drawing Along the River during Qingming Festival shows us with an exceptional public space. The street itself became a perfect place for people during the festival. And it also made a balance between private and public spaces. The main street activates the city, activates the people.
Site Plan
Snack
Transportation
Aduitorium
Amphitheater
Gallery
Library
Traditonal Arts Studio Arts and
Souvenir shop
Crafts Shop Catering
Circulation
Time and Function What could happen in public spaces? It is the first question to be solved. I focused on the connection between time and activities. The extended-diagram of three sides of the site shows the relationship between space, time, and the flow of residents during the day. The combination of different scaled areas creates a multifunctional culture complex.
Urban and Street In ancient times, China’s cities and streets have always had a subtle relationship, and they complement each other to form part of urban life. We bring this street atmosphere into the building, creating a street atmosphere that connects different sizes of space. At the same time, the street itself exists as a social space.
5
2
4 1 2
1
3
Level 5 1- Auditorium ; 2 - Traditional Art Studios ; 3 - Storage ; 4 - Theater ; 5 - Offices
Level 6 1- Digital Library ; 2 - Main Auditorium
2
5
4
6 5 3
4
1 1
3
2
Level 3 1- Classroom ; 2 - Community Center ; 3 - Exhibition ; 4 - Gallery ; 5 - Restaurants
Level 4 1- Public Balcony ; 2 - Traditional Snacks ; 3 - Offices ; 4 - Art Gallery ; 5 - Exhibition Center ; 6 - Display Kiosk
7 8
6
6
7
5
5 4
1
8
2
1 2
4 3
3
Ground Level 1- Cafe bar ; 2 - Catering area ; 3 - Gift shops ; 4 - Restaurants ; 5 - Help Kiosk ; 6 - Gallery Lobby ; 7 - Retails ; 8 - Subway Entrance
Level 2 1- Arts and Crafts Shop ; 2 - Passages ;3 - Exhibition Center ; 4 - Art Gallery ; 5 - Retail ; 6 - Help Kiosk ; 7 - Catering ; 8 - Amphitheater
Stacking of different scaled units
Vertical Street as Major Circulation
Renovation of block typology
Minor Circulation
Renovation of Traditional Street Public Spaces in China has now become a word for developers and tourists. It only serves for economical benefits but not the residents living there. Therefore, what I aim to do is to renovate the public space in the way of the old typology - Street. By combining the street with traditional small scaled spaces, the building itself will become a walkable vertical street. It not only provide general functions such as catering and shopping. It is also a community center and a place for traditional arts and crafts. Aiming to find back the memories for Beijing. Open Public Spaces
Level 2 Floor Plan
Level 4 Floor Plan
Units of Different scales
S, M, L, XL, from tradition to modern
Section Perspective
Cultural Complex Architecture in modern China always has to face a series of paradoxes, tradition vs. current, old vs. new, public vs. private. What should be focused on is not to eliminate on the side but to make a balance when we are facing a choice. This proposal is a place for stability, for communication, for the public. Also, I hope it can also be a small step forward for the development of our neighborhood and our city.
Chapter II
From 0 to Infinity With Yining Lu
Infrastructure Location: Exposition Park, Los Angeles Instructor: Laurie Hawkinson, Alex Mann Waste has always been a severe problem for large cities, especially for towns like L.A. From the mayor office we got the information that because of the Olympics L.A. will welcome 40 million visitors a year. Forty million visitors will produce lots of trash. Therefore, they raised the aim of a sustainable 0 waste Olympic. Therefore, we are proposing to do something for the 0 waste Olympic, aiming to construct a system that can reuse, recycle, and compost over 90% percent of the waste generated by the Games. As a result, we can solve the landfill problem and save lands for the future of L.A.
∞
Waste Handling Problem California’s population continues to grow at accelerating rates each year. To sustain this increasing population, new forms of infrastructure must grow. Most of this new growth must go into existing urban areas: What are the unique opportunities for alternative waste management together with cultural production that could catalyze the site?
Waste has always been a severe problem for large cities, especially for towns like L.A. From the mayor office we got the information that because of the Olympics L.A will welcome 40 million visitors a year. Forty million visitors will produce lots of trash. Therefore, they raised the aim of a sustainable 0 waste Olympic.
14 years
0 Waste |
11 years
8
years
Volume of Puente Hills
-
Southeast Resource Recovery Facility -
Whittier Landfill
Calabasas Landfill
Scholl Canyon Landfill
0
Lopez Canyon Landfill
0
Puente Hills Material Recovery Facility
152m
Refernce: http://www.laalmanac.com/environment/ev04.php
36m 0 Waste |
Saved Amount of Trash
700 acres
7,600,000,000 Pounds
Refernce: http://www.laalmanac.com/environment/ev04.php
Solutions for Landfill In 1984 Olympic Game in L.A., 6.5 million pounds of garbage were produced during the 22 days Game. Moreover, it is expected that there will be more garbage generated in the year 2028. However, there is not enough space for landfills.
If we take the L.A. Memorial Coliseum, which will produce over 527 tons of trash every day as an example, we will save 200 tons of waste from landfill per day. Therefore, we can reduce 15,400 kg of methane from L.A. Memorial Coliseum every day.
0 Waste |
Context
0 Waste |
ion
sit
po
Ex
0 Waste |
Transport
rk Pa
Me
tro E
xp
Residence
Context
0 Waste |
ive
on
0 Waste |
Transport
tS
ine
Subway
Context
Un
Verm
oL
rsit
yo
fS
ou
the
rn
Ca
lifo
rnia
qu
are
Vermont Square
UCLA / Santa Monica 0 Waste |
Public Transport
College
Downtown
LA International Airport
10
I-1
Downtown
0 Waste |
Context
Highway
Ground Transportation
UCLA / Santa Monica 0 Waste |
Pivate Transport
Longbeach
Downtown
Historical Area
th
ou
cS
tori
His
al
ntr
Ce
Subway Entrances
Exposition Park
Longbeach
Site The Exposition Park neighborhood of Los Angeles is in the south region of Los Angeles, California. It is home to Exposition Park, which includes the Los Angeles Memorial Coliseum, Banc of California Stadium, Exposition Rose Garden and three museums: the California African American Museum, the California Science Center and the Natural History Museum of Los Angeles County. It is also home to a Science Center Academy.
We choose the Exposition Park as our site not only because it includes three stadiums for the 2028 LA Olympic Games, but also for the diversified urban environment which provides us with a suitable place for a multifunction 0 waste Olympic Park. We believed that this park could be an example to create a sustainable strategy for the future city.
0 Waste |
LA Waste Stream and Garbage Handling (2014)
4% Wood
3% Textiles
2% Glass
0 Waste |
Proposed LA Garbage Handling
2% Other
4% Wood
4% Metals
3% Textiles
2% Glass
2% Other
4% Metals 35% Organics
Incinerated
35% Organics
Landfilled
2%
14% Recycled 25.7%
15% Construction Debris
15% Construction Debris
Landfilled and Other* 52.6%
Remanufacturing
Recycled
14%
41%
Composted 8.9%
9% Plastic
Incinerated 12.8%
26% Paper
Refernce: RecyclingJobsinLA_Report2014
Composted
9% Plastic
35%
26% Paper
Refernce: Trash in America Moving from Destructive Consumption to a Zero-Waste System
New System for Waste We are proposing a new system that can realize the 0-waste plan, starting from the Olympic, which includes the waste produced by visitors and different amenities. We tried to use an environment-friendly and efficient method to collect trash, such as a pneumatic system. Also, then make use of the energy that emerged during the processing and recycling for different products from small scale like paper and bottles to XL programs like the public open spaces and infrastructures, which will finally benefit the local communities.
The new system aims to improve the current waste stream and garbage handling efficiency. Data from the LA recycling report shows that the most amount of waste is organics, paper, and plastics. The way of dealing with the trash, however, is mainly by landfill, only 25 percent of them are recycled. The main problem is the low efficiency of recycling. If we can increase the recycling rate, with recycled waste to 41% and make 35% of the trash can be composted and the others are remanufactured and landfilled, and finally only a few of the waste is incinerated.
0 Waste Olympic Park
Water and Trash Stations
Water Circulation
Xeriscape
Drop Irrigation
Sustainable System
Public Amenities
New urban strategies We focus not only on the LA Memorial Coliseum but also the Exposition Park where several venues are located in. We tried to start the research about the activities of people around Exposition Park. From google API data, we got the heat map of weekdays and weekends in exposition park and tried to figure out which area produces the most waste during the 15 hours from 6 am to 9 pm. Then we place our new water and trash stations depending on the amount of trash produced in this area. It is a public restroom combined with waste collection infrastructure.
Garbage is collected through the trash bin at the bottom of the facility, The water tanks will be deployed to the site based on the heat map, then we connected the new infrastructure to the existing venues and museums and set up a water circulation network. Finally, the wastewater collected from Olympic will be reused for Xeriscape and sites and facilities. There also is a drip irrigation system that is built above the current parking lots and green areas.
1
2
3
4
5
6
7
8
9
1 - Open Stand ; 2 - Public Sports Center ; 3 - Press and Media Office ; 4 - Tourist Center and Olympic Amenities ; 5 - Parking and Catering ; 6 - Ateletes' Center ; 7 - Xeriscape and Vertical Farm ; 8 - Waste Infrastructure ; 9 - Agricultural Education Center
Olympic Amenities
New Collection Infrastructure
Waste Collection
Water Circulation
0-Waste Olympic Park
From 0 waste to infinite products
Waste Collection Museum
Vertical Farm
Olympic Amenities
Catering
Drop Irrigation System
Water and Trash Stations
W
Water F
Water Tank
Fountain
Vertical Farm
Parking Lot
Trash Tube
Xeriscape
Drop Irrigation System
Water and Trash Stations
New Urban Typology Based on the framework of trash transit and water circulation network, we built permanent and temporary facilities such as the Olympic press center, the trash museum, public sports center, agricultural learning center and so on. We take waste from them and reuse the byproducts produced during the waste handling process which will meet with our aim of 0 waste. We can build a completed network for urban waste handling and reuse, which will finally reduce the carbon footprint and make more environmental-friendly urbanism for the city.
Playground
Bleacher
ers
Office
Market
Passage
Square
Chapter III
In-Between Education Location: East Village, Manhattan Instructor: Dan Wood These days, with smartphones, flexible work options, cloud storage, and our increasing mobility, it seems that work has invaded every aspect of our lives. What used to be considered the bedroom is now an office, what used to be a leisurely afternoon at a cafÊ is now a meeting, what used to be public space is now a convention center‌Far from liberation, however, this invasion increasingly looks like submission. Where are the areas for creativity? For dreaming? The concept is to explore methods of making space for play and education within a continuous circulation network. Different colors represent different spatial functions. Red demarcates classroom spaces, and orange represents the playground area; architecture is conceived throughout the entire building as "in-between" education and play. Classrooms are designed with a greater sense of regularity with traditional stairs and flat flooring while the playground areas include ramps and slopes to provide children with richer spatial experiences. We are going to reinvent the future!
Playground We are beginning with the research of how to organize a place for children. I tried to use different elements to create different spatial experiences. First is the curve which creates continuous space; the second one is the blocks; each block will have different functions.
The third one is like a piece of small scale furniture, which has a series of functions. Then I tried to combine the three different elements to create a continuous spatial experience for the playground and at the same time, creating a world for children to explore.
Vertical Playground And just when things are getting cozy and comfortably situated on the ground, we are going to take the playground into its urban future. We will start to think about play in the section – spaces can be connected with slides, zip lines, netting, climbing walls, auditoria, etc.
This vertical playground will form the basis for the final design problem, the creation of a preschool entirely based on notions and spaces for play. The emphasis will be on creating a new school typology based on play, but also on creating wholly unimagined new types of spatial and sectional experiences.
The north elevation of the vertical playground is designed to be the entrance for the playground. Also, it is the only side facing to the street. Therefore, I would like it to show as many possibilities as possible, climbing, jumping, sliding, running, all these activities created this vertical playground. It is a design for children.
The south side of the playground is designed to provide maximum sunshine for the interior spaces. With the limination of the surrounding buildings, the south elevation looks like a huge stair, with each floor above pushed back a little, it is easier for daylight coming through the entire playground.
1
4
2
5
Vertical Playground School The creation of a preschool entirely based on notions and spaces for play. The School integrates programmatic elements such as indoor classrooms, spaces for teachers and parents etc. The emphasis will be on creating a new school typology based on play, but also on creating entirely unimagined new types of spatial and sectional experiences. 3
Section Perspective
Ground Floor Plan
Floor Plans An in-between of play and education The Floor plan shows an in-between of play and education. The red areas are classrooms, auditorium while the yellow areas are the playgrounds for children. By using the ramps as the element, a lot of activities can be attached to the elements, and it brings different experiences in a continuous space at the same time. The school is more like a largescale toy for children.
Level 2 Floor Plan
Level 7 Floor Plan
Roof Top Floor Plan
Level 5 Floor Plan
Level 6 Floor Plan
Level 3 Floor Plan
Level 4 Floor Plan
Conceptual Section The concept section depicts a convergence of four different sections that illustrate the project from different directions. It explores methods of making space for play and education within a continuous circulation network. Different colors represent different spatial functions. Red demarcates classroom spaces and orange represents the playground area;
Architecture is conceived throughout the entire building as "inbetween" education and play. Classrooms are designed with a greater sense of regularity with traditional stairs and flat flooring while the playground areas include ramps and slopes to provide children with richer spatial experiences.
Chapter IV
One home for all Residential Location: Beijing, China Instructor: Haishan Xia Beijing, as the capital of China, has experienced large-scale population movements during the development of the past decade. The development of the city provides an unlimited number of opportunities, constantly attracting the influx of migrants. People come here and seek a place to live. So how do our cities cope with such population growth? How do we use to accept and integrate populations from all over the world? This project is based on the rapid development of real estate in China. I hope to meet the demands of different people for living space through a way of integration and coexistence. With the increasing complexity of social networks, homes are no longer confined to the most basic housing needs. It takes on the different functions of the community, from social space to day care, each of which is indispensable for modern life. This is a family for all.
2007
2009
2010
2011
2013
2015
Composite City & Diverse Population The project is located in the southwest corner of Beijing and surrounded by a complex urban environment. From 2007 to 2017, Beijing had come through a series of developments. And the site witnessed the different stages of residential changes in Beijing.
Till now there are still various residential buildings around the site including the old masonry buildings and the highrise residential buildings. All these make us introspect the future of residential buildings in big cities.
Family Network
Living Requirements
Small House
Courtyard
Dormitory
Apartment
Next Generation
Living Conditions The structure of our families has changed a lot in recent ten years, from young graduates to families with several generations together. The change from Si He Yuan to highrise apartment reflects the increasing demand for personalized living space.
It is also related to the adaptability and variability of different families. Therefore, I propose to create a neighborhood that each different families could find a sense of belonging. It is the next generation of the Chinese community and a home for all.
Tower
Entrance
Amenities
Apartments
Home
Site
Public Areas
Volume
View
Ventilation
Path
Gird
Landscape
Multifunctioned Neighborhood Corresponding to the public space functions needed by different living patterns, we combine libraries, communities, schools and other functions with residential buildings, and link them together to form a unified whole, which makes housing more comprehensive to meet different requirements.
Tower 3 Floor Plans
Level 4 Floor Plan
Level 7 Floor Plan
Level 3 Floor Plan
Level 6 Floor Plan
Level 2 Floor Plan
Level 5 Floor Plan
Level 1 Floor Plan
Public Spaces
Interactions
“C'est la vie� We hope that different patterns of living correspond to the growth of families, from relatively functional single single apartments to functional and specific apartments for the elderly, which correspond to different stages of growth.People of all ages have their own patterns of life in the community which will keep the community sustainable.
Chapter V
Intersection Public Transport Location: Beijing, China Instructor: Zhongzhong Zeng The project aims to creat a flexible space to meet the demand of the growing population. Under the conditions of the urban area in the last program, we found that the existing station is not able to cope with the rapid growth of population mobility in Shangdi area. Therefore, what we aim to do is to focus on the different speed of people in the station and provide them with the most suitable form of space. Through the survey we found that the functions of a railway station and time we spend on them are deeply connected, and this relationship could be directly translated into different form of space we need. This is about how architecture would be.
Site
Expansion of the region
2002
2005
2007
2011
2013
2016
Road network density & building density
2002
2007
2011
2013
Site Shangdi district is located to the northwest of Beijing. The whole area is divided into two parts by the north-south city highway and the railway. With the development of Internet Companies and the expansion of the "Zhongguancun" area (which is known as the high-tech industrial park of Beijing), more and more headquarters have moved into the western part of Shangdi district.
While the area was not prepared for those exotic elements of the city, In 2002, Shangdi district is mostly composed of farmland and idle land. In the next few years, with the construction of the Bejing-Tibet Expressway, the density of the road network in the area is much improved and at the same time.
In the business areas, buildings look huge, and each building will occupy a large piece of land as their courtyard. Therefore, what we aim to do is to provide public space for complex urban behavior to enhance communication between people and break the invisible segregation wall at the same time.
In the residential area existing a lot of temporary buildings and an old residential area which looks dilapidated but crowded and always meets the primary demand of people living nearby.
The structure of a railway station is always considered to be a large span structure which has always been a combination of a same structure. In this project, a single plane is used to be the prototype of the structure. By pulling up one or two corners of the plane, different types of spaces are created.
Then we mirrored the structure in different directions and combine them in pairs. In this way, we got 45 kinds of arched structure with different slope. Since the characteristic of each space structure is distinctive, we choose eight typical structure as the prototype structure of our railway station after referencing to their different attributes.
Time, as one of the characteristics of architecture, can be used to abstract the movement of people in space and the functions of it. While people move in the space with different requirements of function, time also moves with this kind of movement.
This movement can be compared to the movement of sand inside a hourglass, time goes with the running of sand. It is this feature that we used to shape the space with.
Prototype Structure Plan of Form the space Structure of space
Plan Section Plan of the Form space of space Movement
Skateboard
Section Section Function Plan of the space Movement
Skateboard
Composition Compositon(Structure) Function of the wholeCom arc
Function Section Movement
Shelter
Shelter
Shelter
Protection
Protection
Protection
Skateboard
Roof
Viewfinder
Viewfinder
Viewfinder
Place for rest
Place for rest
Place for rest
Dateing?
Catering & Shopping Privacy?
Catering & Shopping Privacy?
Office? Stairs
Space for movement
Space for movement
Office?
Entrance to the platform
Space for movement
Entrance to the platform
Lots of chairs
Lots of chairs
Lots of people?
Lots of people?
Lots of people?
The space is high in the middle
Flatten
The space is high in the middle Waiting room(VIP)
Big space
Public service
Train passes below...
Flatten
The space is high in the middle Waiting room(VIP)
Waiting room & Washroom
Er....toilet?
Train passes below...Waiting room & Washroom
Isolated tunnel
Isolated tunnel
Isolated tunnel
Staff only!!!
Staff only!!!
Staff only!!!
Advisory?
....or Room waiting for the train? for staff & Maintainence
Advisory?
....or waiting for the train? Room for staff & Maintainence
Corridor?
Corridor?
Corridor?
Connection between two parts?
Connection between two parts?
Connection between two parts?
Shelter or Canopy?
Inverted hills
The space is low in the
To the taxi
The spaceBalcony is lowforincoffee the
To the taxi
The space is low in the Balcony for coffee
middle but high on both
middle but high on both
middle but high on both
sides.
sides.
sides.
supporting structure
Waiting room(VIP
Public service
Er....toilet?
Train passes below...
....or waiting for the train?
Entrance to the platfor
Big space
Public service
Er....toilet?
Shelter or Canopy?
supporting structure
Inverted hills
Shelter or Canopy?
Waiting room & Washroo
Room for staff & Maintainenc
Balcony for coffe
supporting structure
Inverted hills Canopy for the platform
12
Stairs
Lots of chairs
Big space
To the taxi
Catering & Shoppin
Dateing?
Privacy?
Stairs
Advisory?
Roo
Dateing?
Office?
Flatten
Roof
Canopy for the platform
Canopy for the platform
chitecture
Architectural plan and traffic organization
Floor Plans
Catering
Babysitting
3F
Office
Waiting Room
Ticketing
2F Maintenance
Subway
1F
Bus
Taxi
Taxi Entrance&Exits
Department Arrival Staff
-1F
Bus Taxi & Private Cars
13
0m
10m 20m
50m
100m
Platform & Amenities
Waiting & Maintanence
Curve - one of the basic elements of the space - not only determines the form and boundaries of space but gives a variety of different attributes for the space. One important characteristic of curve is that it could show the trend of movement in a particular three-dimensional space and at the same time, provide a more intuitive sense for people in the space. Space is the carrier of movement and at the same time, it also contains all the characteristic of movement such as direction and speed.
Stairs & Elevators
Time, as one of the characteristics of architecture, can be used to abstract the movement of people in space and the functions of it. While people move in the space with different requirements of function, time also moves with this kind of movement. This movement can be compared to the movement of sand inside a hourglass, time goes with the running of sand. It is this feature that we used to shape the space with.
Flow over the city Transportation buildings always occupy an important part of the city. I use the station as a symbol of the new city, and as a platform to display the urban landscape while dissolving the huge volume. The transportation architecture is no longer in a single function but is integrated into the flow of the city.
Chapter VI
Project i-Yard 2.0 With Team BJTU Solar Decathlon 2018 (Participated in designing and Revit model building) Finished Project Sustainable Housing Location: Dezhou, China Instructor: Haishan Xia, Junjie Li, Aiming to design the new modular house for next generation, TEAM BJTU developed the next generation of module house products called i-Yard 2.0, the design takes “Industrialization, Individuation and Intelligence� as the core strategy to deal with the problems of urban pension in China.
Utilization of a House in Whole Life Cycle
‌ ‌ Sustainable Housing
Units of different scales
Concept of sustainable house In China, the quality of life has always been a popular issue among people. While the young tend to find job and live in the center of large cities, the aged or retired prefer a leisurely and quiet living environment. Therefore, our house focused on the suburban areas where provides the convenience of large cities and the comfortable environment at the same time.
Our aim is to provide a sustainable way of life that not only includes the whole life cycle of different generations of a family, but the environmentally friendly living environment at the same time. Beginning with the concept of traditional courtyard housing,We decided to use the modular way as the solution for a house for all and a house for the future.
Solar photovoltaic system on the roof of the building
Solar photovoltaic system
Main part of the architecture
Photothermal system Steel frame structure Deck and the courtyard around the house
Concrete base as technical network
Quick assembling thermal insulation wall
Ground Floor Functions
Circulation-house for the aged The open and reciprocal layout of our plan not only greatly reduces the shape factor of the house, but also improves the insulation performance of the house.
At the same time, it also forms three returning lines in the room, and gets the most care in the barrier-free use and the line of sight.
Second Floor Functions
N
Floor Plan
Section
East Elevation
Living Room
Furniture & Interior
A house for a family I - yard is not only a prefabricated modular residence, it also showed us a possible future for residential houses in China. By gathering a family together in this 'yard', this house promotes family feelings. And it forms a sustainable, humane care mode of living. It allows us to take a short break in a troubled society and learn to enjoy life with our family.
Researches
Chapter VII
Cantilever Chair (Team Project with Yifan Deng)
Generative Design Software: Rhino, Grasshopper, Karamba, Discovery Instructor: Danil Nagy The project aims to design a chair by creating a cantilever structure in such way that maximizes stiffness and stability while ensuring that no members exceed their structural capacity. Our workflow is firstly define the geometry shape of the cantilever chair. Then find nodes on the outer surface and populate inner line in the geometry to control the position of inner nodes. After that, we used different ways to define inner nodes, and merge the inner and outer points as one group. We set up a limination for the longest component and connected the nodes which finally became the structure of the chair.
1. Geometry boundary
4. Divide line to get inner nodes
7. Connection
2. Define outer nodes
3. Find inner line
5. Define inner nodes
6. Nodes of the structure
8. Design Space Models
9. Generating optimal results
Parameter study Our model includes three different parameters which are the number of inner points, the longest component, and the inner point distribution. The number of inner points has a linear relation with the displacement that showed up a great change on the performance of the structure.
Our first performance metric is the total weight of the structure because we believe that a chair should be at a moderate weight that is easier to move. Our second metric is the displacement of the structure since we are proposing that the structure should remain stable within the allowable range of displacement.
Low value
Low value
Low value
Number of Point
Longest Component
Point Distribution
High value
High value
High value
Calculation
Design Outputs
The models is calculates and optimized for 100 generations with 25 different designs in each. And we find that most of the design models concentrates on the weight range from 2.6 to 3.6 kilograms and the displacement from 15mm to 20mm. The optimal value often appears in several concentrated areas such as 15mm displacement, and the two objectives exhibit a linear inverse relationship.
Both of the objectives showed a better result with time and generation adding on. And both of the optimal value areas of them tend to be fixed. This is because the structure is becoming more and more stable. When the size of the components and the number of inner nodes present a convergence trend, the structure will inevitably converge to a limited number of form.
Chapter VIII
Renovation of Nakagin Capsule Tower &
Waste Collection Circulation NYC (Team Project with Yining Lu & Jie Hu)
Data based design Software: Rhino, Grasshopper, Ldaybug, DIVA, Human UI, Design Explorer, Instructor: Luc Wilson, Jason Danforth Data is the language of cities. This data is inherently spatial, and as designers and planners we are uniquely suited to leverage it for informed decision making, and the improvement of buildings, public spaces, and cities. These two projects use Grasshopper for Rhino with a range of plugins for architectural and urban design, as well as urban planning. Aiming to find a smater solution to our current problems.
Workflow
Parameter
Generate Model
Design Explorer
Analysis
Renovation of Nakagin Capsule Tower (Team Project with Jie Hu & Yining Lu)
Built in 1972, Nakagin Capsule Tower has long been popular among people. It provides us with a new possibility of future residence but is also questioned by the public. Nowadays, with the fast development of the city, the
Capsule tower is surrounded by a totally different environment with modern highrises. Therefore, our proposal is to improve the quality of the residence with the Design Explorer.
Design Explorer
Five different benchmarks
Comparison and Optimization
Highest Score
Highest Score of Privacy
Highest Score of View
Highest Score of Noise
Highest Score of Daylight
Highest Score of PU/PR
By increasing the distance between each floor, adjusting the number of units on each floor, rotating two towers separately and changing the position of two towers, we can get the scores of daylight, privacy, FOV(field of view), noise and Ratio of PU(Public Area)/ PR(Private Area).
At the same time we can provide the residents with a better view and sunshine duration. It enables us to find a balance among various outputs and better solutions to improve the living quality of Nakagin Capsule Tower with limited urban space.
Waste Collection in NYC
Proposed High Efficiency System
NYC 311 Data Collection
Waste Collection Circulation NYC (Team Project with Jie Hu & Yining Lu)
Is there any improvement we can do for the of current trash collection system in Manhattan? Based on the research of current trash collection system and policy in New York, we are proposing several new trash lines in Manhattan.
Negative influence on the surroundings and transportation time will be analyzed. We will try to figure out several trash lines that have minimum influence on the surroundings and best schedule for waste transition.
Chapter IV
Renovation of Lever House (Team Project with Yining Lu)
Revit Modeling & Environmental Analysis Software: Rhino, Grasshopper, Ldaybug, DIVA, Vray Instructor: Jared B. Friedman Lever House has been the landmark for an extended period. We are going to rethink and redesign the Lever House into its future. We propose to preserve the original structure system of Lever House and renovate the facade. The new facade not only benefits the people who work in the Lever house but also contribute to a more diversified urban landscape.
Design Iteration
Facade Test 1
Facade Test 2
Facade Final Design
Rendering
Generation
Not Just a facade The renovation not only changes the facade of Lever House but also leads to the expansion of the interior space. When we walk along Park Avenue, we have access to a more colorful and vivid facade. The new facade not only benefits the people who work in the Lever house but also contribute to a more diversified urban landscape. Daylight
View
Noise
Generation
Daylight & Distance
View & Scale
Noise & Depth
Interior & Contrast
Current Tower
Push Back
Axonmetric
Offset
Double Facade
South Elevation
Level 4 Plan
Level 13 Plan
Level 20 Plan
Section Perspective
Other Works
Academic Works and Installations
Participated Professional Projects and Exhibitions
Acknowledgement: I would like to express my deep gratitude to my parents, my instructors, my friends and all the people who have helped me, worked together with me and encouraged me during my school time.
GUANGYU WANG PORTFOLIO gw2371@columbia.edu 917-822-4941