Hack to the Future: The Resurrection of Industrial Voids by Ted Hogan

THE RESURRECTION OF INDUSTRIAL VOIDS

TED HOGAN WITH: KYLE BEINING KATE LINDGREN

TABLE OF CONTENTS

4-15

INTRODUCTION

16-29

SITE ANALYSIS

30-67

PRECEDENTS

68-85

PROGRAM & DESIGN STRATEGIES

86-90

WORKS CITED

INTRODUCTION

6-7

THESIS STATEMENT

8-9

INDUSTRIAL VOIDS

10-11

GROWTH OF CHICAGO

12-15

SITE

THESIS STATEMENT

ACKNOWLEDGEMENTS: I would like to take this time to acknowledge several individuals without whom this thesis may not have been possible: Harvey Z. Rabinowitz Robert Benson Matthew Jarosz & James Carlson (of Bucketworks Milwaukee)

THESIS STATEMENT: Develop a masterplan that will reconnect the torn urban fabric of Chicago due to industrial voids and within the masterplan develop a building that will focus on igniting The new Kinetic Program of a hackerspace within the masterplan that we have developed. While additionally integrating new industry, such as a Boeing Interior Prototype Center onto the site to create a partnership between the two that will benefit both.

INDUSTRIAL VOIDS Industrial History -Chicago Union Rail Yards Once the worlds largest rail hub

-US Steel was Chicago’s largest company employing 18,000

-Chicago was at one point one of the world’s largest shipping ports

Industry played a major role in the early development of many major U.S. cities. However, since the late 1970’s industry and manufacturing jobs have left major urban centers in search of cheaper land and labor. With the exit of industry large voids have been created in the urban fabric. These voids are particularly visible in population density maps. They tend to remain unused land due to their large scale and due to their industrial past which has left many of them as brownfields with contaminated soils. Similarly, the voids are evidence of massive economic voids and major disconnects between neighborhoods in the city. The goal of this project is to focus on reweaving an industrial void in downtown Chicago, back into the existing fabric. This will be achieved through a master plan that addresses and connects with the surrounding neighborhoods and the Chicago River while simultaneously introducing new economies and programs into the site.

Industrial Voids of Chicago

Industrial Voids of Philadelphia

Industrial Voids of New York

Industrial Voids of Milwaukee

These diagrams show the voids left by industry in four major U.S. cities that were historically developed around industry. These voids have caused the decentralization of cities, and in addition to separating the neighborhoods of these cities they often prevent the inhabitants of the cities from being able to access the major rivers and lakes which they were built around. The mending of theses voids will play a major role in the rehabilitation of urban centers.

Chicago industrial voids overlaid with 1914 industrial map

THE GROWTH OF CHICAGO 1837 Incorporated as a City 1848 Illinois & Michigan Canal Completed 1855 Street Level Change 1871 The Great Fire 1892 First Elevated Rapid Transit Line 1893 World’s Columbian Exposition 1900 Flow of Chicago River Reversed 1909 Chicago Plan Published 1928 Straightening of the Chicago River 1943 Chicago’s First Subway Opened

During its first century as a city, Chicago grew at a rate that ranked among the fastest growing in the world. Within the span of forty years, the city’s population grew from slightly under 30,000 to over 1 million by 1890. By the close of the 19th century, Chicago was the fifth largest city in the world, and the largest of the cities that did not exist at the beginning of the century. Within fifty years of the Great Chicago Fire of 1871, the population had tripled to over 3 million. As of the 2000 United States Census, there were 2,896,016 people, 1,061,928 households, and 632,909 families residing within Chicago. More than half the population of the state of Illinois lives in the Chicago metropolitan area. The population density of the city itself was 12,750.3 people per square mile, making it one of the nation’s most densely populated cities. There were 1,152,868 housing units at an average density of 5,075.8 per square mile. Of the 1,061,928 households, 28.9% have children under the age of 18 living with them, 35.1% were married couples living together, 18.9% had a female householder with no husband present, and 40.4% were non-families. The median income for a household in the city was $38,625, and the median income for a family was $46,748.

History of Chicago growth

The Chicago River has under gone many drastic changes in its lifetime, including reversing the river’s flow and introducing several new channels to handle growing pollution issues with Lake Michigan. However, it was during the 1920’s and 1930’s, that the last major changes to the Chicago River were made. The City of Chicago began to discuss the possibility of straightening the South Branch of the river in the early 1920’s, and the project was finally begun in 1928. The straightening of the South Branch was done mainly for purposes of transportation, but it had the side effect of making Chicago a more beautiful place. This 1921 map clearly shows the eastward bend in the Chicago River south of the Loop. The bend cuts off several north-south streets and creates irregularly shaped pieces of real estate in the city’s general grid pattern. The proposed channel that would straighten the river is marked with dotted lines.

Map and image of the Chicago river before straightening

Site Location: Chicago, Illinois Boundaries: North: W Roosevelt Rd East: S Clark St

The project site is located in the south western plot of land located at the corner of Roosevelt Rd. and State St. It is bordered to the north by the Roosevelt collection, to the east by Dearborn Park, to the south by China Town, and the west by the Chicago river. Going past the immediate borders, Greater Chicago Area

South: W 18th St West: Chicago River Area: 800 ft width x 3340 ft length (2,672,000 Sq ft)

Downtown Chicago

Grant Park is four blocks east of the site, and the Loop is located eight blocks north of the site. The figure ground shows that the buildings of the surrounding area have a rich variety of sizes. Building footprints range from small homes to Project Site

large residential complexes and some industrial buildings can be found across the river. This indicates the site need not be restricted to a single predetermined building size, but can rather develop building sizes based on individual programmatic needs.

The site is currently zoned for “Planned development” and surrounded by a variety of differing neighborhoods, making it ideal for urban ecotone development purposes. The surrounding area is composed of a patch working of mostly “Downtown mixed”, “Downtown Service”, while more “Planned development”. The other “Planned Figure Ground

development” sites are represented predominantly by the Roosevelt Collection to the north and Dearborn Park to the east. To the south, the site’s historical use for industry and manufacturing can still be seen in its neighbors.

Zoning Map

Commercial Planned Manufacturing Downtown Residential Planned Development Downtown Mixxed Downtown Service Parks & Open Space

SITE ANALYSIS

18-19

POPULATION &AGE

20-21

SCHOOLS & UNIVERSITIES

22-25

TRANSPORTATION

26-27

WALKABILITY

28-29

PHYTOREMEDIATION

POPULATION & AGE Population History 1840: 4,470 1850: 29,963 1860: 112,172 1870: 298,977 1880: 503,185 1890: 1,099,850 1900: 1,698,575 1910: 2,185,283 1920: 2,701,705 1930: 3,376,438 1940: 3.396,808 1950: 3,620,962 1960: 3,550,404 1970: 3,366,957 1980: 3,005,072 1990: 2,783,911 2000: 2,893,666

The population of Chicago (2,896,016 in 2000 as seen in the maps, and 2,695,598 in 2010) is not evenly dispersed through out the city’s 77 community areas. The map to the right show’s the population totals distributed across the city. The industrial voids effects on the city should be seen as opportunities to create new high density neighborhoods in areas of low density surrounded by otherwise high density areas.

Population Density Map

The neighborhoods highest in population tend to be the area’s that are farther from the Loop. As the neighborhoods get closer to the Loop the population begins to dip down. However, at the Loop itself the population begins to return to higher levels. This is primarily because of the amenities and connectivity offered within the loop. The project site is located in the South Loop neighborhood, the population level is in the range of 1,251-2,500, while the population of the neighborhood just to the right of our site is between 5,001-10,000. This shows that a population and desire to live in the area does exist, but that the site is drastically underdeveloped. Not only is there enough of a surrounding

Population Totals (Based on 2000 Census Tracts) 0 - 1,250 1,251 - 2,500 2,501 - 5,000 5,001 - 10,000 10,001 +

population to support a development of the site, but the population is high enough to support a large high density development on the site. In order to maintain the high density of the siteâ&#x20AC;&#x2122;s plan, a large range of age groups will be needed to occupy the site. Below are maps displaying population dispersal throughout the

Ages 0-19 years

city based on age groups: 0 to 19 years old, 20 to 64 years old, and 65 years old and above. The site has a relatively low population of 0 to 19 years old (451- 900), an average population for 20 to 64 year old (1,5013,000), and a population of 65 year old and above that higher than average (601-1,200). This shows that the current demographics of

Ages 20-64 years

the site lean towards older occupants that tend to have no children living with them. In order to foster a richer variety of age ranges on the site, the plan will have to provide amenities for younger age groups as well.

Ages 65 + years

SCHOOLS & UNIVERSITIES Campus in or near the Loop: Columbia College: 11,922 Students DePaul University: 25,066 Students Roosevelt University: 7,306 Students School of the Art Institute of Chicago: 3,246 Students University of Illinois at Chicago: 28,091 Students

Satellite Campus in or near the Loop: Loyola University: 16,040 Students Northwestern University: 19,184 Students University of Chicago: 15,438 Students

The following maps show the locations of the Elementary schools & Universities in relation to the site. Both will play major roles in the attraction of residents to the project. The elementary schools represent one of the most highly desired amenities for families with young children, and the universities represent a large student population which the project can seek to draw residents from.

The Universities with their campus located in or near the loop provides the development with the opportunity to attract residents from a total student population of 75,631 college students. Additionally, the satellite campuses and other younger demographics such as the creative class can be tapped into for prospective clients.

The map to the right shows the schools surrounding the site. There are four elementary schools within 10 minutes of the site. Of those four schools, two are private schools and a third is a Charter school. The schools meet the need of the currently low population of 0 to 19 year old in the area, however the scope of the development would drastically increase the population of 0 to 19 year old in the site and warrant additional elementary school facilities. The site is located in prime location for easy access to the four main universities in the loop (Columbia, Roosevelt, De Paul, and School of the Art Institute of Chicago) and also the University of Illinois at Chicago. Additionally, just north of the Loop Northwestern, University of Chicago, and Loyola all have satellite campusâ&#x20AC;&#x2122;.

Primary Education Map

Northwestern University Columbia College Chicago Roosevelt University De Paul University University of Illinois at Chicago Loyola University School of the Art Institute of Chicago University of Chicago

University Map

TRANSPORTATION CTA Facts : -Began April 25, 1859 with horse car service

All Stops

Miles Traveled Per Day 323,322

-2nd largest transit system in the US -1.64 million riders daily (roughly 1/2 of the population) -517 million riders annually -Serves 3.8 million people

Subway 11.4 Miles

-Transit lines include: -Bus -Above ground rail -Underground rail -Regional rail -Water Taxi

Bus

1,959 Miles

Water Taxi 5.7 Miles

The El

35.8 Miles

Regional Train Serves 40 Suburbs

Transit stops in relationship to our site

WALKABILITY - “Urban Residents were three times more likely to be physically active in high-greenery neighborhoods.” - Highly connective zones result in people who are 3-4 times more likely to walk or use public transit. - Neighborhoods with high levels of convenience (shops, park, beach, or bike path) within walking distance show a 70% increase in walking. - “People in high walkable neighborhoods achieve 50% more moderateintensity physical activity than those in low walkable neighborhoods.”

An urban area’s successfulness can be defined by its accessibility to public amenities such as parks, plazas, and transit, as well as its accessibility to programs such as; retail, commercial, and entertainment. While this master plan will include all of these necessities with in it, it’s still important to analyze the accessibility of the site to the rest of Chicago.

relationship to the project site in red. The orange highlights the area that can be reached by a combination of ten minute walking circles and public transit. This analysis demonstrates the centrality of the site within the city and the potential it has to become a successful neighborhood in Chicago.

The following set of diagrams show the walkability of Chicago in

5 min.

10 min.

15 min.

20 min.

60 min.

PHYTOREMEDIATION Extracted Elements: Aluminium (Al) Arsenic (As) Caesium (Cs) Cadmium (Cd) Chromium (Cr) Cobalt (Co) Copper (Cu) Lead (Pb) Manganese (Mn) Nickel (Ni) Plutonium (Pu) Strontium (Sr) Uranium (U) Zinc (Zn)

Phyto Volatilization:

Phyto Degradation:

Phyto Stabilization:

Phyto Extraction:

Some plants take up volatile contaminants and release them into the atmosphere through transpiration. The contaminant is transformed or degraded within the plant to create a less toxic substance before and then released into the air.

Plants take up and break down contaminants through the release of enzymes and metabolic process such as photosynthetic oxidation/ reduction. In this process organic pollutants are degraded and incorporated into the plant or broken down in the soil.

Plants take up contaminants, mostly metals metalloids and radionucields, with their roots and accumulate them in large quantities within their stems and leaves. These Plants have to be harvested and disposed as special waste.

Some plants can sequester or immobilize contaminants by absorbing them into their roots and releasing a chemical that converts the contaminant to a less toxic state. The mechanism limits the migration of contaminants through water erosion, leaching, wind, and soil dispersion.

Phytoremediation Diagram

The Projectâ&#x20AC;&#x2122;s site being previously industrial and rail yards will require site remediation before development can be started. The remediation that will be used is phytoremediation. Phytoremediation is a natural and environmentally friendly soil remediation process. The process involves the strategic planting of very specific plants known

as hyper-accumulators, which are plants that remove heavy metals and other contaminants from the soil in their natural growth cycle. This process is extremely cost effective and safe, making it ideal for post-industrial sites. The process will be integrated into the projectâ&#x20AC;&#x2122;s multiple year build out plan, and much of the vegetation will be retained and incorporated

into the final designs on the site. The diagram above gives a detailed account of the phytoremediation process, and the plants to the right are a catalogue of hyper-accumulators that will be used on the site. Included are the contaminants which they remove from the site, and whether they are native to the area (Beige) or not native to the area (Green).

Sunflower

Indian Mustard

Alpine Pennycress

(Helianthus annuus)

(Bassica Juncea)

(Thlaspi caerulescens)

Not native

Pb, Ur, Sr, Cs, Cr, Cd, Cu, Mn, Ni, Zn

Pb, Zn, Ni, Cu, Cr, Cd, Ur

Zn, Cd, Co, Cu, Ni, Pb, Cr

Bent Grass

Red Maple

Common Thrift

(Agrostis castellana)

(Acer rubrum)

(Armeria maritima)

Not native

Native

As, Pb, Zn, Mn, Al

Pu, Cs, Sr

Smooth hydrangea

American Sweet Gum

(Hydrangea arborescens)

(Liquidambar styraciflua)

(Liriodendron tulipifera)

Not native

Native

Pu, Sr, Cs

Panicle hydrangea

White Oak

Tulip tree

Golden Baby Goldenrod

(Hydrangea paniculata)

(Quercus alba)

(Helianthus annuus)

Native

Oakleaf hydrangea

Swamp white oak

Rough-stemmed goldenrod

(Hydrangea quercifolia)

(Quercus bicolor)

(Helianthus annuus)

Native

PRECEDENTS

PLANNING 32-35 36-37 38-41 42-45 46-49 50-51

SKIEN BRYGGE MARIBOR-POBREŽJE COMPLEX SHAN-SHUI MASTERPLAN LINKED HYBRID CARLSBERG CAMPUS BATTERY PARK CITY

BUILDING 52-55 56-57 58-59 60-61 62-63 64-65 66-67

VIA VERDE BANGKOK RISING ATLANTIC YARDS 8 HOUSE COOPER UNION 1 HAWORTH CENTER VILHELMSRO PRIMARY SCHOOL

SKIEN BRYGGE Architect: A-lab & SEA Location: Skien, Norway Area: 10 acres Year: 2008 Project type: Urban Development Competition

“We believe successful urban Planning takes as a starting point the social interaction between people.” ~ A-lab & SEA

Skien Brygge takes maximum advantage of the surrounding context of the city it is located in. Focusing on creating a dense program, a “public space network”, and blue recreation spaces along the river’s edge. The area of the project is about one-sixth the size of the site in Chicago. Skien Brygge’s plan utilizes a grid system that is derived from

the cityâ&#x20AC;&#x2122;s grid system. However, the grid is deformed in such a way that the grid responds to both the context of the surrounding city and to the specific issues of the site and design. The resultant is a plan that weaves seamlessly into the city, while still achieving the design goals of the architects. The project covers such a large scope that it requires a several year build out plan. The build out plan is broken down into four main stages: 1. Develop the most significant buildings and spaces. 2. Develop streets closest to the existing urban fabric. 3. Develop next street back and integrate Public transportation. 4. Develop the water front properties. This system ensures that all the programs and buildings that are most important to the development exist from the first inhabitation. It then slowly weaves itself into the existing fabric of the city, including establishing access to the site with public transportation. Finally, it ensures that the properties that border the water will have the highest value when it comes time for them to be fully developed. Skien Brygge, like the Chicago site is located along the edge of a river. The architects take full advantage of this opportunity by establishing not only green public spaces, but also integrating a complex network of recreational blue spaces. The river front in

this project is not just an after thought of a simple path along side the river, but instead it offers a rich and dynamic series of changing experiences. The six blue spaces shown below depict different uses for the river front, each of which attracts a unique variety of users to the site and an overall larger number of users than a single uniform design would achieve. This makes the river not just a destination for the inhabitants of the site, but also a destination for all of the city.

MARIBOR-POBREŽJE COMPLEX Architect: Ecosistema Urbano (Belinda Tato) Location: Pobrežje Maribor, Slovenia Year: 2008 Project type: Landfill Reuse Masterplan

“We propose a soft urbanism, able to blend landscape design, housing and facilities with open air public green areas” ~ Ecosistema Urbano

The Maribor-PobreĹžje complex, is a proposal to create a new usable space on top of an existing landfill in Slovenia. What makes the project unique, is that it is designed with time as a factor. It is meant only to temporary project, while the land fill decomposes and the land is remediated. The project consists of a series of elevated green spaces that adhere to a circular grid pattern. Included in the design is a series of public and event spaces which the buildings surround in a ring shaped pattern. The design is flexible so that buildings and programs can constantly be changing to reflect the peopleâ&#x20AC;&#x2122;s needs. Despite the project being designed as a temporary installation, the buildings are still capable of being converted to permanent structures and expand the master plan, should they prove to be popular enough.

Housing & Public Program

Upper Pedestrian Pathway

Infrastructure nodes

Energy Network

Lower Pedestrian Pathway

Car Parking

Water Treatment Cycle

Vegetation

Shan-Shui Masterplan Architect: Steven Holl Architects Location: Hangzhou, China Area: 19.3 Acres Year: 2011 Project type: International Tourism Complex

The Shan-Shui master plan is a project set to redevelop the postindustrial site of oxygen and boiler plants in the Hangzhou region of China. The project focuses on the two main natural contexts bordering the site, the water to the west and the land the east. The result is two separate zones within

the plan, one water and one earth. In the center of the plan the two zones meet in two vertical elements which act as an urban ecotone. The design of the water zone incorporates the water canals established by the site’s industrial past, which are expanded into a major design aspect. The water is used to remediate the industrial contaminants of the soil and the other canals, similar to the natural remediation processes that occur in wetlands, while the canals also act to provide a geothermal heat source for the site. At the northern end of the site six “lantern” towers stand. The towers act as physical icons, and literal beacons, for the site as they release the energy gathered throughout the day at night as light. The towers themselves are mixed program, and the smaller surrounding industrial buildings will be hollowed out and used as artistic and cultural display spaces. The main focus of the earth zone in the plan is a large “3d park” which is made of a faceted landscape form that has punctures to allow light into the spaces below. Shan Shui site is about a third of the size of the Chicago site and explores new ways in which the surrounding water of a site can be used. The design of the water in this plan goes beyond simple recreation purposes but also includes sustain ability and transportation through out the site. Additionally, the tower in the center of the site gives a precedent for the use of an urban ecotone to unify two distinct zones in a master plan. 39

Linked Hybrid Architect: Steven Holl Location: Beijing, China Area: 2.4 Million Sq Ft Year: 2010 Project Type: Mixed use

“Steven Holl’s Linked Hybrid in Beijing provides a vision of mixed-use development that engages the city around it and operates sustainably” Clifford A. Pearson

Linked Hybrid is a 2.4 million square foot mixed use development that consist of eight apartment towers that rang from 14 to 21 stories. These towers of linked on the ground floor by outdoor passage ways and above by one to two story sky bridges. These sky bridges serve more than just a as a means of circulation but also as a means of program. Within the bridges there are spaces for art galleries, shops, cafes, a fitness club, and a pool. The bridges give the development an unique theme that will bring people to the development. The other factor that makes this development intriguing is the variety of uses that are within the highly residential site. There is a, kindergarten, preschool, cinema, hotel, spa, and large green spaces. This mix of uses helps make the site highly transient and adaptable for many different lifestyles.

The final concept of this development is stainability. There is a 655 well geothermal system on site that provides most of the heating and cooling needs of the site. There are multiple green roofs on the site. The development also employes a gray water recycling system to irrigate plating areas. The central reflecting ponds double as storm water retaining areas that reduce runoff into the city sewer system. Another less apparent sustainable aspect of the development is that it maintains a high density while maintaining large amounts of open valuable open space for the city.

CARLSBURG CAMPUS Open International Ideas Competition Architect: Bjarke Ingles Group Location: Vesterbro, Copenhagen Area: 33 hectare Year: June 2008 Project Type: Mixed Use

Carlsberg is an area straddling the border of Valby and Vesterbro districts in central Copenhagen, Denmark. It covers an area of 33 hectares and is the former industrial site of the Carlsberg Breweries. This large area is dominated by numerous historic and restored 19th and early 20th century buildings, as well as two historic gardens. After the decision was made to close the brewery, plans were launched to redevelop the area into a new district. 1. Involvement: â&#x20AC;&#x153;There is no better expert on city life than the people who live in it.â&#x20AC;? BIG was able to clearly articulate one of the major ways to not only create a lively neighborhood, but an environment that is tailored to the people who live and work in it.

4. 0-energy city: BIG used many techniques, such as geothermal, solar panels and good site and building design to create a sustainable community for Carlsberg.

the top of the community center to meet the heights of the adjoining neighborhoods. This method created a focal point for the plan while not disrupting the flow of the existing environment.

Building Height: When designing the overall plan for the Carlsberg Campus, BIG saw it as a new hub for the area and accordingly wanted a strong center of tall buildings. However, in order to relate to context, they sloped the building heights downward and outward from The heights accommodate the existing heights of Carlsberg and its surroundings

2. Urban Curation: Rather than making a very specific master plan, BIG proposed a plan that created flexible community guidelines which relied on exterior influence and vibrancy to fill in the gaps. This approach created a unique set of built conditions, while still retaining a common thread through out the community 3. Local Puzzle: A firm stance was taken on the idea that the resultant proposal would have to take into account that many different influences are inherent in the site. This philosophy allowed for the creation of more flexible site guidelines and site layout, then the static city blocks found in most urban developments. 47

Connections...The Warped Chessboard:

Preservation of historical landscapes and buildings of value and potential.

Defining a new compact urban grid.

Letting the new program clash with the old.

Although using the standard method of building preservation and site gridding, when creating their plan, BIGâ&#x20AC;&#x2122;s final master plan for the community of Carlsberg took a unique final form because of their spin on traditional space planning. The firmâ&#x20AC;&#x2122;s first move was to preserve specific buildings on the site, regardless of their size and location. Next they filled in the resulting space with a warped block pattern that was based on the interaction of the historical buildings and surrounding grid lines. This warped chessboard provided the basic framework for the future planning of the Carlsberg Campus. The black squares on the board represent the buildings, whereas the white squares represent public recreational areas and open space. In this way they created a gradual blurring of built space and open space into the green spaces of the area. The vision assures that when Carlsberg is completed, there will be an equal number of black and white squares. This plan also created much more irregular and diverse pathways through the site, which is in contrast to the traditional rigid city, while still maintaining a sense of order. Clear Zones:

Defining an urban canvas of outdoor spaces on the new Carlsberg Campus

As equally important as the preservation of historical structures or the implementation of a grid, was the decision of where green or open spaces would occur. First, these clear spaces were proportioned to support a variety of activities for different user groups who exhibit many different needs. The sizable parcels of

open spaces leave room for activities ranging from sports, to playgrounds, parks, gardens and a wide variety of other uses. They were also used to clearly define zones and accentuate the preserved structures.

Work..Live..Play: BIG proposed a framework for the Carlsberg Campus that allowed for a large array of different people, activities, target groups, daily rhythms and social groups. To accomplish this, the plan was further divided into six neighborhoods defined by two arterials running through the district. Grande Avenue Gallery Walk The Power Center The Scholarship District The Village Playground Academy Grounds

BATTERY PARK CITY 5 Districts: -Gateway Plaza -Rector Place Residential Neighborhood -Battery Place Residential Neighborhood -World Financial Center -North Residential Neighborhood: Stuyvesant High School

Battery Park City began as a vision of what cities could be in the future. The original master plan, developed in the 1960’s was a modular assembly of futuristic designs that incorporated pedestrian traffic with park-like spaces on one level and transportation uses on another subterranean level. There were many different plans for Battery Park City proposed between 1962 and 1975. However, they all had three goals in common: 1. To expand the area of lower Manhattan 2. To get people living downtown again 3. To provide lower Manhattan with a few more trees and some open space.

office space located opposite the World Trade Center; •30% open space: includes public parks, plazas, and esplanade; •19% streets and avenues. The Master Plan extends the street grid of Lower Manhattan into Battery Park City, dividing the site into development parcels, thus connecting a new part of the city with the old. Individual parcels are leased to private developers who build on them in accordance with Design Guidelines created especially for Battery Park City. These guidelines prevent a “super block” appearance and provide for a variety of building types and designs common to older neighborhoods in New York City.

In 1979, after several schemes were submitted and rejected, a plan was finally adopted. Streets and sidewalks were returned to grade level and made an extension of Manhattan’s grid. This yielded conventional development blocks, which, in turn, yielded conventional building forms. Each block could be parceled out to different developers at different times, according to market demand. The commercial center was moved from the southern end of the site up to the middle, tying it to the World Trade Center. The plan is more a framework for development than it is a fixed design. The 1979 Master Plan allocated the land as follows: •42% residential up to 14,000 housing units; •9% commercial: six million square feet of

VIA VERDE Architect Grimshaw Architects Location Bronx, New York Area 288,000 Sq Ft Year 2011 Project Type Mixed use

The Via Verde project, meaning “The Green Way,” is an affordable housing project conceived by the partnership PRDG (developers Phipps House and Jonathan Rose Companies, and architects Dattner Architects and Grimshaw Architects) that came together as a result of a design competition sponsored by a group called New Housing New York. Via Verde was the winning proposal for the for the competition because of its innovative ideas on affordable housing and living a healthy and sustainable lifestyle. Via Verde consists of three housing types that ascend in a L-shape from low to high in the following order: -Townhouses -Duplexes -Apartments These differing unit types are linked by roof terraces that can be ascended from the outside from the ground up. The roof terraces become gardens, green roofs, and gathering spaces for the residence. Social and multicultural living is one of Via Verde’s main concepts which is achieved by the afore mentioned roof terraces and mixed housing types that range from affordable to market rate housing. This idea helped PRDG to win the competition. The another concept that makes the project great is its idea on stainability. Via Verde incorporates elements like green roofs, cross ventilation, storm water management, energy efficient mechanical systems, energy star appliances, bike parking,

and sustainable building materials. These help reduce its carbon footprint. The project was also built on a blighted industrial brownfield which fills the urban void and helps unify the neighborhood. The the final concept and most unique 54

concept of Via Verde is its idea of living a healthy lifestyle. The program includes urban gardens to grown fruits and vegetables, an organic food Co-op to buy and sell the fruits and vegetables, a health clinic, and the site was designed to promotes walking to increase

the amount of exercise the residence get. These concepts are great starting points to developing a new neighborhood in an already developed city. Which should influence the cities and neighborhoods tomorrow.

BANGKOK RISING Architect OMA Location Bangkok, Thailand Area 1.5 Million Sq Ft Year 2011 Project Type Mixed use

“...An architecture that encloses and protects its inhabitants while revealing the inner life of their city.” -OMA

Bangkok Rising by OMA is a 77 story glass tower that is located in Bangkok, Thailand. The building is comprised of glass boxes that are pushed and pulled out of the facade to create outdoor balconies and gathering spaces. The juxtapositions of the boxes also gives the skyscraper a distinct pixilated look which makes it unique in comparison to a traditional skyscraper. This mixed use tower in made up of high-end retail, a hotel, bar and restaurant, public plazas, and 200 homes. Bangkok Rising will be the tallest building in Bangkok and will become an icon for the city.

B2 AT ATLANTIC YARDS Architect SHoP Architects Location Brooklyn, New York Area 22 acres Year 2012 Project Type Mixed use

The final articulation of the volumes... Present a variety of colors, materials and fabrication techniques, creating an assortment of patterns and textures on Brooklynâ&#x20AC;&#x2122;s skyline. - Irina Vinnitskaya

B2 is the first of three residential projects in the Atlantic Yards development. B2 will be directly related to the Barclays Center which will be the new basket ball arena for the New Jersey Nets. The form of B2 was based on design guidelines established by the Empire State Development Corporation. The facade is a series of setbacks which are distinguished by different materials, colors, and massing. The buildings massing are directly related to the function of each part of the building.

8 HOUSE Architect: BIG Location: Copenhagen, Denmark Area: 215, 300 Sq Ft Year: 2010 Project type: Mixed Use Housing development

...The 8 House stacks all ingredients of a neighborhood into horizontal layers of typologies...Creating a threedimensional urban neighborhood where suburban life merges with the energy of a city, where business and housing coexist. - Kelly Minner

The 8 house by big is a mixed use large scale urban development project in Copenhagen, Denmark. The project contains 476 residences, offices and commercial spaces. The primary driving force of the design is the unusual arrangement of usual program types. Layers of program are established and their dimensions and arrangements are based on their programmatic needs. The overall building form is then further derived from the application of addition programmatic needs, such as sun angles, green space access, sight lines and views, and programmatic connectivity. The result is a figure 8 shaped building with two main courtyards and a green roof that follows an exterior circulation path intertwined through out the entire project.

41 COOPER SQUARE Architect: Thom Mayne Morphosis Location: New York City, New York Area: 175, 000 Sq Ft Year: 2010 Project type: Arts & Sciences University

The Cooper Union, aspires to manifest the character, culture and vibrancy of both the 150 year-old institution and of the city in which it was founded. -Nico Saieh

41 Cooper Square by Thom Mayne/ Morphosis is an addition to the existing Cooper Union. The building was designed to emphasize the Universityâ&#x20AC;&#x2122;s own spirit. The interior of the project has a central grand staircase which rises four stories before morphing into a double height student lounge. The design of which was meant to evoke a discussion between the three different majors that occupy the building. The exterior is an undulating and perforated stainless steel screen placed in front of a glass box. The effect achieved by the double layer facade not only creates an architectural icon from a distance, but also allows for visual access into the building from a closer distance which echoes the schoolâ&#x20AC;&#x2122;s notion of creating an educational environment that is open to people of all backgrounds.

ONE HAWORTH CENTER Architect: Perkins + Will Location: Holland, Michigan Area: 300,000 Sq ft Project Year: 2006 Project Type: Corporate Office

“The fully renovated environment will function as a living laboratory of innovative organic workspace solutions.” - Haworth

One Haworth Center was a renovation project of the existing headquarters for Haworth, Inc. in Holland, Michigan. It was a two-phase project, that was completed in 2008 and received a LEED Gold certification. Each level of One Haworth Center features different organic workspace configurations and products designed to fit the work styles of the employees. A much larger emphasis was placed on collaborative design in the new renovation than the previous headquarters. This was accomplished through a proportion of 60% individual work spaces and 40% group areas and conference rooms. Another design point was the thin floor plates and large glazing areas. Nearly all employees have access to daylight and views, which research has shown has positive effects on performance and mood. In addition, engaged employees tend to be more productive and miss fewer work days. Finally, One Haworth Center features a 45,000 square foot green roof system that utilizes pre-vegetated, recycled interlocking plastic trays. That way, roof maintenance is easily performed by removing trays where necessary. The green roof also utilizes vegetation such drought-tolerant sedum and includes 5,000 sq. ft. of reflective white pavers that reduces air conditioning and heating costs and rainwater run-off. This higher frequency of green roofs in new buildings, is a direct response to not only greater environmental responsibility, but fiscal returns and visual gratification in dense urban areas.

VILHELMSRO PRIMARY SCHOOL Architect: BIG Location: Asminderoed, Denmark Area: 75,347 Sq ft Project Year: 2010 Project type: Elementary School

“..Taking the undulating hillside of the site as a point of departure, the design features a series of bands which pleat and crisscross to merge with the surrounding topography.” - BIG

Vilhelmsro Primary School is an academic facility in Asminderoed, Denmark that focuses their curriculum on nature and sustain ability. Because of both their educational focus and the relationship the school wanted with their environment, BIG took the undulating hillside of the site as a point of departure, and created a design which features a series of bands which pleat and crisscross to merge with the surrounding topography. This oscillating and ribbon like roof line is experienced in both the interior and exterior spaces. Outdoor green terraces and courtyard spaces were also placed in between buildings to create access paths and exterior interaction zones. Although most of the spaces are one story, the alternating peaks and ceiling heights allow natural daylight to stream into every class room, along with promoting ventilation. Crossventilation is also encouraged through operable windows and overlapping openings. As for the massive use of green roofs, the sod makeup facilitates passive energy measures such as mitigating heat island effect, acting as thermal mass and evaporative cooling qualities. Rain water runoff is reduced, collected and stored for non-potable usage.

PROGRAM

70-73

MASTER PLAN STRATEGIES

74-75

STREET SECTIONS

76-77

POCKET PARKS

78-79

SITE PLAN & HEIGHT FIELD

80-81

ARTIST HOUSING

82-83

CONCERT VENUE

84-85

CIVIC CENTER

SITE STRATEGIES: EXQUISITE CORPSE Location: Chicago, Illinois Boundaries: North: W Roosevelt Rd East: S Clark St South: W 18th St West: Chicago River Area: 800 ft width x 3340 ft length (2,672,000 Sq ft)

Industrial voids not only separate neighborhoods, but due to their large sizes they can often be a barrier between two or more neighborhoods that are completely different from a typology standpoint. In order to address this issue the masterplan will utilize the surrealist parlor game, The Exquisite Corpse as a design organizer and driver. The Exquisite corpse is a parlor game in which a piece of paper if folded a number of times and each participant draws a different part of the body (head, torso, legs, etc.). After the head is drawn the paper is folded and the next participant draws the next part only seeing the moments where their two drawings will connect. The results form a distinct yet integrated design. The goal of applying this to the masterplan is the same. By viewing the site’s surrounding neighborhoods as already existing “head” and “legs” the industrial void is able to fill in its own distinct “torso” as long as it makes legitimate connections back to the surrounding neighborhoods.

Industrial Voids

CONNECTION

INDUSTRIAL VOID

CONNECTION

Exquisite corpse

Exquisite corpse Site Condition

DESIGN DEVELOPMENT:

The following set of diagrams represent the master planning strategies for the project site. These strategies look to re-link with and engage the surrounding context while establishing kinetic nodes throughout the site. They also look to improve upon the temporal quality of the programs and the amount of green space within the vicinity of the site.

EXISTING CONDITION

BUILD OVER WEST SIDE TRAIN YARD

LOOK FOR CONNECTIONS

EXTEND STREETS

ESTABLISH GRID SYSTEM

FINAL STREET CONDITION 73

KINETIC NODES OF THE CITY

KINETIC NODES: In addition to the physical connections made by extending streets and grid systems the masterplan seeks to make connections to the surrounding context through means of program and activity. In looking at the city as a whole we began to mark out Kinetic Nodes. These nodes represent areas of high pedestrian traffic, iconic buildings, and iconic programs. The site is located in the center of a large collection of these nodes. To the north of the site is the Loop, to the east is the museum campus and lakeshore park system, to the south is Chinatown, and to the west is UICâ&#x20AC;&#x2122;s campus. Kinetic nodes are the most successful when they are connected with other kinetic nodes. This gives our masterplan not only the chance to be surrounded by amazing amenities but also to bridge those amenities together and strengthen them at the same time. On the site itself three clusters of nodes have been strategically placed along Roosevelt Rd. (to compliment its existing kinetic activity), Maxwell St., (to restore its historic activity), and 16th St. (to establish a new kinetic street). By spacing these through out the masterplan, a circulation between them can be formed.

PROPOSED KINETIC NODES FOR THE SITE

POCKET PARKS Effects of Pocket Parks and Open Green Space: - Reduces public safety crimes - Less stress and more exercise - Promote community involvement

Essential Elements: - Small Size: 1-3 lots - Local Community: for use and upkeep - Uses/Functions: small events, rest, breaks, and play - Elements: designed gathering places, natural elements

Patterns and Design: 4 Block User Group

Frequency

Microclimates

User Needs

Few minipark users with walk more than four blocks, and most will come from a one to two block radius. Thus, the design of a pocket park should attempt to serve the needs of the immediately local community.

Ideally, there will be one small park sited within every city block in order to meet the range of user groups needs without causing conflict between groups.

Pocket parks should be appropriately sited and arranged so as to respond to the local microclimate, thereby encouraging use.

The parks should accommodate as many different users as possible, according to neighborhood needs. However, they should not pack to many uses into the small space, as to cause conflict.

Location Parks should be sited in areas of heavy pedestrian traffic so they are convenient to get to and pass through. They should also be visible from the street.

Number of acres below city standard in 2010 Less than 15 acres 15 to 40 acres More than 40 acres Open-space surplus

GREENSPACE DEVELOPMENT: To maximize the access to and usage of the river the masterplan will reflect the existing Chicago Lakeshore Park system and establish the new Chicago Rivershore Park system. The system would span the entire length of the site on both sides of the river and connect previously separated greenspaces along the river. In order to ensure that the public would have access to the green space the masterplan has integrated several pedestrian pathways through out the site. The pathways cut through the existing block pattern and create a vegetated wooden pathway that offers a unique and car-free pathway for users to reach the river and entire site by. These pedestrian pathways also begin to cut through a selection of the siteâ&#x20AC;&#x2122;s courtyard buildings creating new opportunities for pocket parks to form as individual parks that are linked together. This provides users with a choice and variety of the type of park they would like to use.

EXISTING SITE AND LAKESHORE PARK SYSTEM

PROPOSED RIVERSHORE PARK SYSTEM

PEDESTRIAN PATHWAYS

POCKET PARKS FORMED

SITE SECTION: The site section exemplifies the differing approaches on each side. The western side has been built over the existing commuter train yard and will meet the rivers edge at a height of 32 ft. above the river. To allow for this height difference a railroad and industrial museum will be placed along the rivers edge, allowing users to view the river while looking at its industrial history. While the eastern side of the river compliments through contrast by meeting the river in at a natural water edge.

SITE SECTION

SECTION OF WESTERN SITE 81

DEVELOPMENT

MASTER-PLAN

SITE RENDERING

DEVELOPMENT GROUND FLOOR PLANS

WHO IS A HACKER? Most people tend to believe hackers to be an antisocial sub-culture that is intent on preying on unknowing computer users. In fact in 2007 SearchSecurity.com defined a hacker as: “A malicious computer programmer that reverse engineers computer systems to cause damage or steal information” However this is incorrect. This definition describes only a small percentage of hackers, specifically ‘Black Hat Hackers’.

The term hacker originated in the MIT model railroad train club where the members would take apart the trains and reassemble them so that they would run faster than they normally world. The word later went on to mean any meaningful, efficient, or humours

change made to a pre-existing system that stayed true to the systems purpose. In fact anyone who has put together Ikea furniture in a way that was different than the instructions suggest is a hacker.

HACKERS ARE DEDICATED INDIVIDUALS WHO BELIEVE IN SHARING, INNOVATION, AND WORLD IMPROVEMENT.

STEREOTYPICAL “HACKER”

HACKERS AS INNOVATORS: With the influx of technology in the average person’s day to day life not only has it become a necessity of our society but it has created a new hacker sub-culture complete with its own celebrities and innovators. These innovators include: Steve Jobs, the mastermind of Apple Mark Zuckerberg, the creator of Facebook

STEVE JOBS

MORGAN WEBB

MARK ZUCKERBERG

MOOT (CHRISTOPHER POOLE)

Morgan Webb, G4 Technology T.V. Personality Moot (Christopher Poole), creator of 4chan and Time magazine’s “Most Influential Person of 2008” These innovators are not just creating new technologies and social media, but also having a major impact on society. In fact Moot not only won Time’s award, but his following from 4chan influenced the vote so much that they actually used the first letters of the top 21 candidates names to spell out “Marble cake also the game”, which are two pop culture internet memes that started on his website.

FROM GARAGE TO GOOGLEPLEX: Because of the relatively new arrival of the hacker culture and the technologies that allow them there was a long standing issue of a lack of environment in which they could thrive. Despite being an emerging field of business the hacker culture rejected the tradition office building dynamic, this in combination with high start up costs resulted in many hackers starting out in their garages. In fact Bill Gates once said:

“[THE COMPETITION I FEAR THE MOST IS] SOMEONE IN A GARAGE WHO IS DEVISING SOMETHING COMPLETELY NEW.” This statement ended up being entirely too true, when just a few short years later Larry Page and Sergey Brin in their garage. Today Google is located in the Googleplex, a revolutionary work environment that stresses employee comfort and individualization. The result of this is not only a highly successful company with highly sought after jobs. Through the unique design of the Googleplex has managed to stimulate and harness many hackers. 86

LARRY PAGE AND SERGEY BRIN

GOOGLEPLEX

WHAT IS A HACKERSPACE? List of Notable hackerspaces: C-base (1995) Berlin, Germany

"TO ME, THE TERM DENOTES A PHYSICAL LOCATION WITH TOOLS AND DIVERSE EXPERTS WHO CAN HELP COLLABORATE ON PROJECTS IN A WIDE RANGE OF SCALES, BUT IT CONNOTES A PHILOSOPHY OF DOING THINGS WITH NO PARTICULAR PREFERENCE TO EMPIRICAL OR THEORETICAL METHODS"

~ MITCH ALTMAN

Bucketworks (2002) Milwaukee, WI Noisebridge (2007) San Francisco, CA NYC Resistor (2008) New York, NY London Hackspace (2009) London, U.K. Pumping Station: One (2009) Chicago, IL Tokyo Hackerspace (2009) Tokyo, Japan

A hackerspace is essentially a larger communal garage for hackers and hobbyists to work in independently or collaboratively. Inside of a hackerspace one can find machine shops, woodshops, metal shops, community labs, studio spaces, workshops, and recreational spaces for users to work, collaborate, and socialize in any number of different environments. The main focus of the space is to bring individuals together to socialize in a physical environment. This is achieved by most spaces by establishing a non-exclusion policy in regards to itâ&#x20AC;&#x2122;s members. In some cases the space will not even charge membership fees and is complete free and open to anyone at any time, though this is not usually the case. The programming the spaces are living and changing thing, as they are subject to change with each new

user/project. Commonly users will share their knowledge by offering to teach workshops in specialized skills, often open to the public to entice new members. In addition to a more traditional classroom model, many allow for members to physically alter the existing space in anyway so long as the change can be undone easily if deemed unnecessary. Bucketworks in Milwaukee, WI, has established a rule that any change at all can be made

without permission so long as it can be undone within 8 hours. They have found that this results in a Wikipedia-like community editing of the space, with only the community approved changes being kept and the other changes being changed back. The most important feature of a hackerspace is not the building but the community and users. The members of the space are what make them unique,

they are the life blood of the change and innovation that happens within. There are many different types of users, however three types of users seem to be consistent to almost all spaces: 1. Recently retired individuals with large amounts of tools, knowledge, and new found free time. 2. Recent college graduates who have lost their access to their access to school networks and resources. 3. High-school students whoâ&#x20AC;&#x2122;s schools no longer offer any industrial classes and are unsure of what they would like to do in the future.

PUMPING STATION: ONE

With these and other users new networks of information sharing, skill sharing, tool sharing, resource sharing, and all other forms of sharing are created. In addition to internal sharing, spaces can also join in groups such as the Space Federation, which is a collective of hackerspaces that work together and share resources. Architecturally, the hackerspace is the bottle in which you capture lightning in. It includes fabrication spaces, gathering spaces, classrooms, and space for the hackers to create their own spaces. Flexibility, infrastructure, and users are key to the success of a hackerspace.

PUMPING STATION: ONE

HACKERSPACES, A GROWING FIELD: Hackerspaces are a relatively new architectural typology that is growing at an impressive rate. The origins of the hacker space lies with The Chaos Computer Club(CCC) in Berlin, Germany. The club originated in Hamberg Germany but moved to Berlin in the 90’s reinventing itself into the first modern hackerspace in 1998 when it moved into an old carpenter’s warehouse. Hackerspaces remained relatively few and far between until the 2000’s when CCC specifically targeted American hackers as a means of spreading the word about the spaces. At their annual hacker convention, Chaos Communications Congress, the existing Hackerspaces showed the American attendees what they had created and soon the number of hackerspaces around the world would explode. Currently (2012) Hackerspaces.org lists 1106 spaces registered on their site around the world, with many not registered, and even more attempting to start up soon.

HACKERSPACES AROUND THE WORLD

HACKERSPACES AROUND THE U.S.

HACKERSPACES NEAREST TO SITE: Pumping Station: One 8 miles North west 100 Members

Workshop 88

26 miles West (Glen Ellyn, IL) 20 Members 91

ARCHITECTURAL CHALLENGES Qualities of a Hackerspace (As defined by Jarkko Moilanen):

HACKERSPACE GOLDEN RULE:

â&#x20AC;&#x153;BE EXCELLENT TO EACH OTHER!â&#x20AC;?

1. Owned and Run by it's [sic] members in a spirit of equality. 2. Is a nonprofit organization, and open to the outside world on a (semi)regular basis. 3. Shares tools, equipment and ideas without discrimination. 4. A strong emphasis on technology and invention. 5. Has shared space (or is working on a space) as a center of the community. 6. A strong spirit of invention and science based on trial, error, and freely sharing information

Design Goals: 1. Create a network of Programs. 2. Incubate innovation. 3. Allow for flexibility. 4. Promote the evolution of the space 5. Create moments of cross over between programs. 6. Maximize fabrication and creation capabilities. 7. Allow members to make the space their own.

HACKERS, A BREED OF THEIR OWN:

HYPOTHETICAL USERS:

INNOVATION CULTIVATION

The generation of new ideas follows the same rules of genetics: The strongest offspring comes from the most genetically diverse parents. This means that the strongest and most successful innovations come from innovators with different backgrounds. With this in mind Boeing has be paired up with the hackerspace to create a mutually beneficial relationship. Currently Boeing is in a situation in which all ideas formed come sharing information with other aerospace companies such as Comac and Airbus. This results in the same companies with the same backgrounds and the same type of employees with the same type of backgrounds all trying to come up with ideas that are different from one another. This results in a very slow type of innovation due to an “Inbreeding of Information”.

By pairing a Boeing interior prototype fabrication center with the hackerspace not only will Boeing receive access to the hackerspace’s network of information, maximizing their ability to create “Outbred General Information”, but the hackerspace would also receive access to the fabrication equipment that Boeing uses, which they could normally not afford.

101

DESIGN CONCEPT: The concept of the building as a whole is to create a more static courtyard building massing that surrounds a more kinetic thinkspace on the interior creating a geode like building. The designs of the static and kinetic begin to take on roles of action and reaction respectively. The building’s massing is a more “real” and traditional building and holds more static programs, its form is derived

STATIC PROGRAM 102

from optimizing views, natural lighting, and circulation. Alternatively, the think space’s form and program is flexible and changing to meet the needs of the hackers. The overall design evolved from a reaction to the surrounding massing, connecting to and breaking out through the façade to create moments in which the two connect and outside users can view into the architectural geode inside.

KINETIC PROGRAM

STATIC & KINETIC PROGRAM 103

BUILDING PROGRAM: (STATIC PROGRAM)

Building Form: The main building massing was based on the traditional courtyard building, with the courtyard shape deforming to maximize views, natural lighting, and air circulation.

Hackerspace:

104

Class Room: (3x) 730 Sq Ft Gathering Space 1: 1500 Sq Ft Gathering Space 2: 2300 Sq Ft Rentable Offices: (8 x) 130 Sq Ft Conference Room: 500 Sq Ft

Computer lab: 820 Sq Ft Supply Shop: 5160 Sq Ft Wood Shop: 2230 Sq Ft Metal Shop: 2230 Sq Ft Storage: 2650 Sq Ft Server Room: 700 Sq Ft Kitchen: 400 Sq Ft

Offices:

Retail:

Boeing Fabrication Lab: 9850 Sq Ft Boeing Lobby: 850 Sq Ft Boeing Offices: (7 x) 130 Sq Ft Boeing Conference Rooms: (4 x) 415 Sq Ft Boeing Storage: 3200 Sq Ft Boeing Studios: (2 x) 3100 Sq Ft Office Spaces: (9 x) 2100 Sq Ft

Hacker Retail: 2815 Sq Ft CafĂŠ: 5220 Sq Ft Fitness Center: 6300 Sq Ft Bar: 4000 Sq Ft

Residential:

Programmatic Relations

Studio Apt: (57 x) 540 Sq Ft 2 Bdrm Apt: (53 x) 1080 Sq Ft 3 Bdrm Apt: (34 x) 1350 Sq Ft

105

THINKSPACE EVOLUTION: (KINETIC PROGRAM)

106

Response to Building Massing

Unfold

Add Media Mesh

Connect to Massing

Open Ground Circulation

107

THINKSPACE FLOOR SYSTEM:

Open Floor Plan

Angled Wall 108

Short Wall

Long Wall

Faceted Wall

Semi-Perminant Wall 109

FACADE DESIGN

111

112

113

114

115

EXTERIOR VIEW

117

BREAKOUT SPACE VIEW

119

FLOOR PLANS

DEVELOPMENT GROUND FLOOR PLANS

Supply shop

Metals Shop

Woods Shop

Hacker Storage

Boeing Storage

Server Room

Boeing Fabrication

Cafe

GROUND FLOOR

Hacker Store

121

Class Apartment Lobby

Bar

Comp lab

Gather Space

Class Class Boeing Studio

Boeing Studio

Fitness Center

1222

FIRST FLOOR

Apartment Lobby

Office Bar

Rentable Offices Office

Office

SECOND FLOOR

Office

123

1244

THIRD FLOOR

FOURTH FLOOR

125

1266

FIFTH FLOOR

SIXTH FLOOR

127

1288

SEVENTH FLOOR

EIGHTH FLOOR

129

HACKER SPACE VIEW

131

MEZZANINE VIEW

133

BOEING OFFICES VIEW

135

FABRICATION SPACE VIEW

137

THINK SPACE EXTERIOR VIEW

139

THINK SPACE INTERIOR VIEW

141

BAR VIEW

143

BUILDING SECTION PERSPECTIVE

145

SECTIONAL PROGRAM RELATIONS

147

THINK SPACE USES

MEDITATE

READ QUIETLY 149

BUILD 150

SWEET FORT

USE IT AS A CRANE 151

GIVE A PRESENTATION 152

CREATE A “WRITE SPACE” 153

CREATE A “RAGE CAGE” 154

WORK ON A SECRET PROJECT 155

MAKE A GREEN SCREEN 156

USE IT AS A CLIMBING WALL 157

...AND MOST IMPORTANTLY, SHARE YOU SKILLZ! 158

“EVENTS DON’T SIMPLY HAPPEN IN THE SPACE. THE SPACE ITSELF IS THE EVENT.” ~MARK WIGLEY

159

WORKS CITED

"5osA: Holcim Awards Europa 2008." 5osA: Web. 20 Dec. 2011. Http://5osa.tistory.com/entry/Holcim-Awards-Europa-2008. "8 House / BIG | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily.com/83307/8-housebig/. "Atlantic Yards: B2 Bklyn / SHoP Architects | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily.com/187144/atlantic-yards-b2-bklyn-shop-architects/. Back to the Future Part II. Dir. Robert Zemeckis. Prod. Steven Spielberg. Perf. Michael J. Fox. Universal, 1989. Transcript BIG. “CARL | Carlsberg Campus.” CARL | Carlsberg Campus. BIG | Bjarke Ingels Group. Web. 22 Dec. 2011. Http://www.big.dk/projects/carl/. BIG. “VIL | Vilhelmsro Primary School.” BIG | Bjarke Ingels Group. Web. 22 Dec. 2011. Http://www.big.dk/projects/vil/. Bill & Ted’s Excellent Adventure. Dir. Stephen Herek. Perf. Keanu Reeves and Alex Winter. Orion Pictures, 1989. Transcript. Blake, Alison. “Pocket Parks.” Urban Parks. Web. Http://depts.washington.edu/open2100/pdf/2_OpenSpaceTypes/Open_Space_Types/pocket_ parks.pdf. Burke, Anthony, and Therese Tierney. Network Practices: New Strategies in Architecture and Design. New York: Princeton Architectural, 2007. Print. Carlson, James. “Interview with James Carlson of Bucketworks.” Personal interview. 14 Feb. 2012. Carlson, James. “TEDxMadtown - James Carlson-Bucketworks.” TedxTalks. TedxTalks, 27 Apr. 2011. Web. 10 Feb. 2012. <http://tedxtalks.ted.com/video/TEDxMadtown-James-Carlson-Bucke>. "Census Maps." City of Chicago. 2010. Web. 20 Dec. 2011. Http://www.cityofchicago.org. Chicago Historical Society. “Implementation Map (Chicago River Straightening).” Encyclopedia of Chicago. Web. 22 Dec. 2011. Http://encyclopedia.chicagohistory.org/pages/300119.html. Chicago Public Library. “Chicago Timeline - Chicago Public Library.” Home - Chicago Public Library. Web. 22 Dec. 2011. Http://www.chipublib. org/cplbooksmovies/cplarchive/timeline/index.php. Chicago Transit Authority | CTA Buses & Trains | Web. 20 Dec. 2011. Http://www.transitchicago.com/.

161

"City of Chicago :: Zoning Ordinance Administration." City of Chicago. 2010. Web. 20 Dec. 2011. Http://www.cityofchicago.org/city/en/depts/dcd/ provdrs/admin.html. Columbia College Chicago : Home. Web. 20 Dec. 2011. Http://www.colum.edu/. "The Cooper Union for the Advancement of Science and Art / Morphosis Architects | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily.com/40471/the-cooper-union-for-the-advancement-of-science-and-art-morphosis-architects/. Cozen, Michael P. “Railroads and Chicago’s Loop, circa 1930.” Encyclopedia of Chicago. Newberry Library. Web. 22 Dec. 2011. Http://encyclopedia.chicagohistory.org/pages/1775.html. Cuomo, Andrew. “Community.” Battery Park City Authority. Governor State of New York. Web. 22 Dec. 2011. Http://www.batteryparkcity.org/page/ page6.html. DePaul University. 2011. Web. 20 Dec. 2011. Http://www.depaul.edu/Pages/default.aspx. Dictionary.com | Find the Meanings and Definitions of Words at Dictionary.com. Web. 20 Dec. 2011. Http://dictionary.reference.com/. Doorley, Scott, and Scott Witthoft. Make Space: How to Set the Stage for Creative Collaboration. Hoboken, NJ: John Wiley & Sons, 2012. Print. Durkin Keating, Ann. “Metropolitan Growth.” Encyclopedia of Chicago. Chicago Historical Society. Web. 22 Dec. 2011. Http://encyclopedia.chicagohistory.org/pages/821.html. Farr, Douglas. Sustainable Urbanism: Urban Design with Nature. Hoboken, NJ: Wiley, 2008. Print. Fischer, Eric. "Race and Ethnicity (2000) - a Set on Flickr." Welcome to Flickr - Photo Sharing. 12 Sept. 2010. Web. 20 Dec. 2011. Http://www. flickr.com/photos/walkingsf/sets/72157624812674967/. Gobster, Paul, and Lynne Westphal. People and the River. 1996. Google Maps. Web. 20 Dec. 2011. Http://maps.google.com. Groves, Kursty, Will Knight, and Edward Denison. I Wish I Worked There!: A Look inside the Most Creative Spaces in Business. Hoboken, NJ: Wiley, 2010. Print. Home : Northwestern University. Web. 20 Dec. 2011. Http://www.northwestern.edu/. 162

“Jonathan_Rose_Companies_Cutting_Edge_Projects_New_Housing_New_York_Via_Verde.ppt .” Ipedinc. N.p., n.d. Web. 10 Apr. 2010. Http:// www.ipedinc.net/powerpoints/Jonathan_Rose_Companies_Cutting_Edge_Projects_New_Housing_New_York_Via_Verde.ppt jonathan rose via verde.. Hill, Libby. The Chicago River: A Natural and Unnatural History. 2000. "Linked Hybrid / Steven Holl Architects | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily. com/34302/linked-hybrid-steven-holl-architects/. Loyola University Chicago. Web. 20 Dec. 2011. Http://www.luc.edu/. "Mapnificent Chicago - Dynamic Public Transport Travel Time Maps for Chicago." Mapnificent - Dynamic Public Transport Travel Time Maps. Web. 20 Dec. 2011. Http://www.mapnificent.net/Chicago/. Mayer, Richard M., and Harold C. Wade. Chicago: Growth of a Metropolis. 1969. McCutcheon, Steve C., and Jerald L. Schnoor. Phytoremediation: Transformation and Control of Contaminants. Hoboken, NJ: Wiley-Interscience, 2003. Print. Nilon, Charles. “Chicago River.” Encyclopedia of Chicago. Chicago Historical Society, 2005. Web. 22 Dec. 2011. Http://encyclopedia.chicagohistory.org/pages/263.html. Paycga, Dominic A., and Ellen Skerrett. Chicago, City of Neighborhoods: Histories and Tours. 1986. Perkins + WIll. “One Haworth Center.” Perkins+Will | Ideas + Buildings That Honor the Broader Goals of Society. Web. 22 Dec. 2011. Http:// www.perkinswill.com/work/one-haworth-center.html. Pettis, Bre. “Hackerspaces | Flux | Hackerspaces â The Beginning (the Book).” Hackerspaces. N.p., 31 Aug. 2011. Web. 28 July 2012. <http:// blog.hackerspaces.org/2011/08/31/hackerspaces-the-beginning-the-book/> PPS. “Parks « Project for Public Spaces - Placemaking for Communities.” Project for Public Spaces - Placemaking for Communities. Web. 22 Dec. 2011. Http://www.pps.org/parks/. Pettis, Bre. “Hackerspaces | Flux | Hackerspaces â The Beginning (the Book).” Hackerspaces. N.p., 31 Aug. 2011. Web. 28 July 2012. <http://blog.hackerspaces.org/2011/08/31/hackerspaces-the-beginning-the-book/> Roosevelt University. 2011. Web. 20 Dec. 2011. Http://www.roosevelt.edu/. SAIC - School of the Art Institute of Chicago. 2011. Web. 20 Dec. 2011. Http://www.saic.edu/. 163

"Shan-Shui Master Plan / Steven Holl Architects | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www. archdaily.com/100495/shan-shui-master-plan-steven-holl-architects/. Schlesinger, Joseph, Md Monirul Islam, and Kelly MacNeill. Founding a Hackerspace: An Interactive Qualifying Project Report. Http://www.wpi.edu, n.d. Web. 10 Feb. 2012. "Skien Brygge / A-lab and SEA | ArchDaily." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily. com/94375/skien-brygg-a-lab-and-sea/. "Skyscrapers | ArchDaily - Part 8." ArchDaily | Broadcasting Architecture Worldwide. Web. 20 Dec. 2011. Http://www.archdaily.com/category/skyscrapers/page/8/. Solzman, David M. The Chicago River: An Illustrated History and Guide to the River and Its Waterways. 1998. Solzman, David M. “Using the Chicago River.” Encyclopedia of Chicago. Chicago Historical Society. Web. 22 Dec. 2011. Http://encyclopedia. chicagohistory.org/pages/300014.html. Tsai, Jay, Erik Facteau, and Lisa Brunie. "A Field Guide to Phytoremediation." Youarethecity. 2010. Web. 20 Dec. 2011. Http://www.youarethecity. com/. University of Illinois at Chicago - UIC. 2011. Web. 20 Dec. 2011. Http://www.uic.edu/uic/.

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