The Green Artery: Climate Changed Through Landscape Infrastructure David Rabkin
Acknowledgments A list of poeple without which this thesis could not have happened.
Antonio Furgiuele, Jen Lee, Curtis Perrin, J.P. Allen, Margarita Iglesia, Manuel Delgado The entire Wentworth Architecture Department. Galina Dobrikovs, Igor Rabkin, Michelle Rabkin, Oleg Dobrikovs, Angie Dobrikovs, Anna Ravin, Joey Ravin, Lusya Umansky, Grisha Umansky, Dina Rabkin, Aron Rabkin, Inna Rabkin, Michael Rabkin, Danny Rabkin, Jess Rabkin, Meredith Price, Owen Maden, Casey Clement, Jordan Stickles, Steve DeFuria, Kaleigh Stirrat, Abigail Ahern, Ally Rugg, Mike Carey, Rachel Hanson, Shervin Radfar, Nina Babbitt, Brandon McCarthy, Curtis Dragon, Yuliya Smilyanski, Gleb Smilyanski, Jessica Lucas, Vera Guttenberger, Mitch Lombardo, Brian Roberts, Nebile Gorenoglu, Paula Plukfangpanya, Leo Coelo, Irem Gurel, Raneen Alaani, Siena Flynn, Emma Nicholls, Chris Mok, Sam Riback, Devlin Kenny, Bruce Wood, Jer Jurma, Rick Rawlins
All my friends, family, and mentors, Thank you
Key Words Common words used throughout my thesis.
Adaptive Reuse: The reuse of existing structures and other built forms to preserve history as well as embodied energy. The purpose of renovation is for a new use. Infrastructure: A system or network put in place to facilitate the operation or operations of a society or organization. Transportation: The movement of people goods or systems through a network. Urban Sprawl: The growth of neighborhoods or suburbs outside of urban centers made possible by a raise in car ownership and the establishment of the American highway network. Network: An interconnected system used for the dissemination of goods and people. Multimodal System: A network comprised of more than one mode of dissemination or transportation. Multinodal System: A network comprised of more than one point of interconnection not tied to specific combinations of modal connection. Node: A point or area of connection on a network. Landscape Urbanism: The use of landscape design as a form of urban planning to organize networks of transportation as well as a dissemination of systems for a thriving urban area.
Landscape Infrastructure: The use of landscape design as a form of infrastructure that accomplishes key operations in an urban center. Urban Ecology: The ecological zone created by urban areas provide limited direct sunlight as well as an abundance of toxins and pollutants making urban ecologies different than those surrounding it. Heat Island Effect: The direct increase in temperature around urban zones as a result of materials, use of fossil fuels, and a high demand for transportation. Air Pollution: The expulsion of carbon dioxide as well as other chemicals into the air from the processing of fossil fuels and use of energy. Toxicity: The amount of pollutants in an area.
Table of Contents CHAPTER 01. Introduction 13
Thesis Statment 14 Abstract 16 Argument 18
CHAPTER 02. Literature Review 23 CHAPTER 03. Design As Research 37
Fall Semester 38 Fall Semester Design Tests 42 Precedents 60 Spring Semester 66 Site Overview 70 Catalogue 80 Pittsburgh Design Tests 84 Network Growth (Toxicity Reduction) 94
CHAPTER 04. Outcome 105
Site Analysis 106 Network Implementation 126 Network Growth 134 The Market 144 The Lawn 150 The Lung 156
CHAPTER 05. Critical Reflection 163
Bibliography 166
01. Introduction Thesis Statment In the last century the American highway network has been the most transformative infrastructure to the American landscape. With this infrastructure came widespread disease, segregation, and other destructive forces. Right now, we are uniquely equipped to reimagine this infrastructure as one that takes on an entirely new host of issues for the next century.
01.
Thesis Statment
In the last century the highway network has been
the most transformative infrastructure to the American landscape. With its life changing effects also came widespread disease, segregation, pollution, and other destructive forces. In the 21st century we are now uniquely equipped to remedy past issues as well as address current climactic, atmospheric, and social issues by designing landscape infrastructure that removes toxins and desegregates these spaces.
14
Introduction
Fig 1.
Thesis Analytique Poster
15
01.
Abstract The American Highway Network spans over
culation on the highway system came severe conges-
47,000 miles through the country and connects the
tion especially around urban zones. This congestion
population in ways never imagined before. Since its
meant an increase in carbon expulsion from the high
conception it has drastically reshaped the American
density of vehicles. With the development of the high-
landscape and with it the way Americans live. The re-
way infrastructure came begative effects to the env-
sult of this network has been a catalyst to many issues
iornment, a rise in pollution, and direct adverse effects
such as segregation of existing communities, a steady
to residences. Asthma rates as well as lung disease
increase in pollution, and an increase in heat island ef-
rose in these communities and continues to be a prob-
fect around urban zones. With heavy demand for cir-
lem today. The increase in paving used for highway
16
Introduction
drastically increases the temperature in these areas
adversities. By implementing a piece of landscape
completely altering microclimates and adding to heat
infrastructure that reduces traffic and takes over this
island effect. Which increases cooling demand for
network vegetation and public gathering spaces can
people who live In these areas. Typically, the popula-
begin to eliminate toxins from these environments
tion effected by these issues are segregated from the
and decrease temperature while adding ideal public
larger urban fabric making it difficult to circulate and
gathering spaces and giving segregated communi-
reach necessary areas. These neighborhoods usual-
ties much needed programs and connection.
ly have a population of people with lower income and are unable to afford to live under these tremendous
Fig 2.
Thesis Analytique Poster 17
01.
Argument
The American Highway Network connects ev-
As car ownership began to skyrocket in the 20th
ery point of the country. Since its conception it has
century, there was major congestion on the highways
drastically reshaped the American landscape and
as well as in urban centers. In response to the increase
with it the way Americans live. The result of this
in demand for drivable roads, the highways began to
network was urban sprawl.
grow as city planners added more lanes of travel. This
Urban sprawl was the growth of suburbs outside
tactic would relieve the congestion for some time but
urban centers where families began to settle. As rich
eventually these lanes would then fill up again. This
families with cars began to migrate into suburbs the
would happen because when people notice the de-
urban centers were left to the lower class who then
crease in traffic more people then begin to use these
had to deal with the influx of major roads cutting
roads. As a result, highways become just as congested
through, over, or under their neighborhoods.
but urban centers become twice as congested due to
their inability to grow like the highways do.
Where the highways sliced through communities
there was clear segregation and neglect as the toxic
fumes from the cars and the heat from the pavement
American landscape in lieu of concrete which dec-
created a negative and undesirable environment. On the
imated important ecologies in the path of the high-
flip side however, in the suburbs, highways were located
way. Instead of being something that contributes to
out of sight and ear shot from the upper-class homes.
its surroundings positively the network altered these
zones in negative ways.
Highways were arteries on which people lived as
All these new roads meant the destruction of the
they commuted to work, went to grocery stores, strip
malls, schools, and back home again. As urban cen-
well as its high capacity for heat storage, means that it
ters became less desirable more people sprawled
absorbs solar heat energy all day and then expels that
further and further. Car ownership began to climb
heat energy over time during the day and night. This is
and with it so did the amount of toxins in the air and
a trend that already occurs in urban centers however
the amount of concrete on the ground.
this phenomenon also happens on highways and other
18
Pavement, due to its dark color and low albedo as
Introduction
major roads making highways and urban centers ma-
which in turn traps heat energy within the atmosphere
jor hot spots. These areas are also major hotspots for
as well. Areas of congestion in urban centers contrib-
asthma, as well as major lung and respiratory disease.
ute drastically to the amount of carbon expelled into
While highways act as major circulatory arter-
the atmosphere as well as the heat absorbed by so-
ies for many users, those who have the misfortune
lar radiation. Due to these relationships as well as the
of living near them experience a different type of ar-
already unmanageable number of cars that are grid-
tery. For them this network acts as an artery for tox-
locked in urban centers, urban planners are beginning
ins which pollute their surroundings at alarming rates.
to act around the world.
This trend is even more worrisome as the rates of car-
bon expulsion go up in areas of congestion making
eas in urban centers and instead other alternatives for
traffic hotspots the warmest as well as the most toxic
transportation are being explored. Multimodal sys-
areas on this network. These zones have been linked
tems of public transportation in European cities give
to major health problems for local residence as well as
the public multiple options of circulation that are much
spots of ecological decimation.
more efficient, sustainable, and cost effective than
Over the last century these cancerous arteries
privately operated vehicles. These systems coupled
have decimated ecologies, segregated communi-
with todays technology allow the public multiple op-
ties, and been catalysts for widespread illness in and
tions in real time to get around. In conjunction the law
around urban centers. This infrastructure has benefit-
of congestion is being invoked by urban planners.
ed few while putting many at disadvantages. Current-
ly we find ourselves in a unique point in human history
gestion of circulation planners must remove lanes of
where widespread change is necessary for the con-
travel. A reduction of travel lanes means that in the
tinuation of how Americans live their lives.
short-term traffic will increase but quickly humans will
Climate change is finally becoming an issue that
adapt and find other routes and modes of transporta-
people are acting against. Global warming has been
tion. These alternatives must be equally efficient so
linked to the amount of carbon in our atmosphere
that both car ownership and carbon emissions will de-
Cars are being restricted from entering certain ar-
The law of congestion states that to reduce con-
19
01.
crease in the long term.
If American cities were to adopt this model, there
would be hundreds of thousands of miles of highway that would be closed and unused. Rather than leaving this space unused this infrastructure can adapt as well to become a catalyst for change. By adapting this existing infrastructure into one that relates to its surroundings and actively cleans, connects, and cools them; The Green Artery will be celebrated for its ability to be a useful and effective piece of infrastructure that can take on an entirely new host of issues for the next century.
20
Introduction
Fig 3.
Thesis Analytique Poster
21
02. Literature Review Overview A review of important liturature relevant to the topic I wish to explore for my thesis. Each source brings with it a unique insight into my thesis topic and provides a new lense from which I have approached much of my design thinking and my overall conceptual idea.
02.
Boston’s Big Dig explained by James A.
marketed to the American people with the
Aloisi Jr. is a $16 billion project that the city
promise of freedom, adventure, autonomy and
underwent to remove the elevated highway
connection. And through the early to mid-1900’s
known as the Central Artery or Rt 93, as it
car ownership in America skyrocketed despite
sliced through downtown Boston.1 50 years
little to no actual technological improvement.
after its conception it was decided that the
Central Artery was a failure and that some-
was a demand for a large expanding network
thing must be done to run transportation more
of roads and thus the American Highway Act
efficiently through the city while also reclaim-
went underway. With specific criteria for de-
ing a major part of Boston’s downtown area.
sign guidelines this network spanned for close
to 50,000 miles and connect basically all of
The redesign of the area was an effort of
As a result of increase ownership there
reimagining urban renewal of something that
mainland America. However, there were many
would bring substance to the residence rather
problems with this network. With no foresight
than the central arteries idea of urban renewal
into its demand in the future as well as a lack
which injected people into the city without at-
of understanding and resulting disaster when
tention to the urban context or neighborhoods
highways crossed the urban environment this
at risk. Thus, began the construction of the
network began to undergo a period of constant
parkway over the new highway which had
adaptation to try and mitigate the amount of
planned to be something that had civic pur-
traffic that resulted in this lack of foresight.3
pose and reconnected once severely divided
and undesirable parts of the city.2
ways were not meant to run through urban
environments rather they would stay on the
According to Samuel Schwartz cars were
1 Aloisi, James. The Big Dig. Beverly Massachusetts: Commonwealth Editions, 2004. 2 Aloisi, James. The Big Dig. Beverly Massachusetts: Commonwealth Editions, 2004.
24
According to Andres Duany, originally high-
3 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015.
Literature Review
outside allowing for cars to exit into cities and
fabric. All manner of car accidents began to be-
towns.4 But Samuel Schwartz says that Amer-
come a major problem in America and account-
icans quickly reversed this idea and brought
ed for many deaths in the country at the time.
these major throughways into the hearts of
urban environments usually cutting them in half
of Americans, car friendly streets were pro-
and almost always devastating lower income
posed, and pedestrians were exiled to the
areas. The reason was of course to bring mon-
sidewalks. This was a result of a need for traf-
ey into these cities. He goes on to explain that
fic regulations. Where representatives from
toll roads allowed cities to profit off the public
the car industry, and those who profit from it,
network of highway infrastructure and with the
the railway industries, and a voice for pedes-
higher density of traffic came a higher demand
trians all drafted The Model Municipal Traffic
for parking gas and mechanics stimulating the
Ordinance of 1927 which set the automobile
economy but at what cost to the urban environ-
friendly streets into stone.6
ment and the people who inhabit it.5
highway network urban sprawl began to happen
There was a point in time, according to
And so, Schwartz says to save the lives
Duany says with the automobile and the
Schwartz when it was decided who would own
in America. Urban sprawl is an unnatural way
the roads. The battle for the right of way was
for communities to grow, it is unlike an urban
kicked off after Daniel Burnham’s plan for Chi-
environment that grows and responds to human
cago proposed “roads for automobility”. It was
need rather it revolves around the idea of being
beginning to be understood by the people in the
able to drive everywhere.7 Normally settle-
early 1920’s that not all modes of transportation
ments grow organically with mixed use buildings
could coexist in the same space in the urban
overlapping program and pedestrian traffic, but
4 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010. 5 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015.
6 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015. 7 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010.
25
02.
this is not the case with urban sprawl. Neigh-
every day. This is how we get rush hour traf-
borhoods sprout up anywhere a road is near,
fic. These housing subdivisions or nodes are
and people must commute for goods services
all connected to major roads as well as having
and any other need. Duany explains that it is the
their own smaller more elaborate and confus-
idea of being able to live a life free of the hustle
ing roadway that turns back on themselves in
bustle and noise of an urban environment and
an effort to allow for more residences where
take advantage of consumerism to allow people
each one is as dull as its neighbors. Shopping
to rely on cars. But this system is unsustainable
centers solve the problem that mixed commer-
and “self-destructive” according to Duany. It
cial buildings would solve allowing for grocery
results in traffic, wasted space, and dull urban
stores malls and shops to be all accessible by
environments. Sprawl relies on five components
road with large parking lots. These centers
“housing subdivision, shopping centers, office
take up a lot of space that would otherwise
parks, civic institutions, and roadways” says
be used much more efficiently and are usually
Duany. All these components are separated
placed in spaces that could supply goods for a
as it is illegal for mixed use buildings in urban
variety of sprawled communities giving purpose
sprawl neighborhoods.8
to the large parking areas. Office parks also
take the same principle and put areas of work
According to Duany, this network of road-
ways must be specific to the area to take
along a road also with large parking lots. These
everyone where they need to go. Which usually
spaces are on the clock spaces where people
leads to an abundance of traffic usually at the
work a regular day and then all simultaneously
same time meaning people are in their cars
go home on these roads, causing congestion
for longer periods of time at the same times
and a less than desirable commute back to the
8 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010.
26
Literature Review
housing subdivisions. Civic institutions such
routs are found and used by a percentage of
as town halls and recreation centers are usu-
the people using prior routes. Or in the case of
ally centralized in these areas however a need
some places people simply turn to alternative
for vehicular accessibility means that they are
modes of transportation provided they are in an
again surrounded by public roads and parking
area that has access to one.
lots that can sustain heavy use and traffic.9
dria is a good way of understanding the differ-
Duany goes on to say that the roadway is
Duany compares Virginia beach to Alexan-
what connects all these parts because peo-
ence of how a city grows naturally instead of
ple in these areas don’t commute or travel on
one that grows based on highways.11 Alexandria
foot they need to use a car to get everywhere
was built like other pedestrian cities with the
it’s a necessity and so the urban environment
ideas of a center where civic commercial mixed
reflects that and roadways and parking are a
use and residential program all lived harmoni-
staple of these areas and are prioritized. This
ously by sprawling upwards rather than horizon-
is to the extent that the answer to such high
tally. The idea of accessibility and a 5-minute
vehicular density and traffic is adding more
walk meant that everything was always near
lanes of travel. This model however does not
and people could get to what they needed in
work.10 This method results in induced traf-
an easy and timely manner. This was of course
fic which means that there will always be the
helped by a understandable street network
same amount of density its just the difference
that had pedestrian paths as well as vehicular
between 4 lanes or 26 lanes of traffic. This
streets. Duany says many of these streets were
method does work in reverse, when lanes are
narrow and responded to the scale of a hu-
taken away then there is less density. Alternate
man rather than a vehicle making it much more
9 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010. 10 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010.
11 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010.
27
02.
intimate and inviting rather than the openness
cars they need to be able to manage their time
and lack of soul one find on a major vehicular
efficiently and effectively every day.14
road.12 All these aspects of an urban environ-
ment allowed it to grow and evolve in a way that
because it gives them a sense of autonomy. It
thought about connection to other urban envi-
allows people to have the freedom to reroute
ronments making it a node on a larger network.
themselves if need be whereas there is not
much flexibility in public transportation and
Schwartz says that urban environments that
He goes on to say that people use cars
grow naturally should have multimodal trans-
one can not simply reroute a subway or bus
portation. Meaning that there are alternatives
on a whim. However public transportation
to cars as well as buses trains and muscle
gives people a sense of community and be-
powered modes of transportation.13 The infra-
longing as well as the opportunity to be more
structure of these environments must be able
connected on their phones and start work as
to support each mode as it is unrealistic to rely
soon as they leave their homes rather than
on one. For these modes to be reliable however
once they arrive at the office.
they must be able to give information to people
in real time. In the age of technology real time
and it also allows people to efficiently use public
information is a way of everyday life. Schwartz
transportation. Apps can give people real time
says that accessibility is now not just some-
updates on what modes of public transportation
thing to be considered in the built environment
to take how long each option would take and will
but the virtual environment as well. Schwartz
give them second by second updates on their
explains that for people to seriously consider
own location and direction to where they need
public transportation as an alternative to using
to go. This is all made possible by the technol-
12 Duany, Andres, Elizabeth Plater-Zyberk, and Jeff Speck. Suburban Nation: the Rise of Sprawl and the Decline of the American Dream. New York: North Point Press, 2010. 13 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015.
14 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015
28
The information age allows people to do this
Literature Review
ogy and information age that we find ourselves
new technologies, and it is meant to inform our
in. technology has also gotten us to a point
design so that it can be the most efficient.17
where we can effectively and efficiently solve
problems of connection by mapping solutions to
structure report card shows that American
real problems in real time scenarios and over-
infrastructure is failing. It is over engineered
laying each outcome on top of one another to
and is “improved” by implementing old and
see what the best possible solutions and out-
proven to be unsuccessful, methods to make
comes would be. System mapping is the new
the infrastructure more efficient such as add-
city planning and it is a great way of responding
ing more lanes and more traffic lights.18 These
to an urban environment as an organism rather
problems need creative solutions on making
than a machine according to Michael Batty.15
systems dependable and reliable at the most
important times so that it can be built in an
But we can take this idea of a machine
According to Schwartz, the yearly infra-
as being something that yields a dependably
efficient way that doesn’t force congestion.
predictable outcome and use it to solve prob-
Schwartz says that creative solutions for sys-
lems of connecting systems in a city. The
tems have been implemented in the past for
way of doing this according to Batty, is by
electrical systems and re-routing electricity at
finding variables and contributing factors to a
peak hours. If people are already collecting
problem and to define for yourself the hierar-
real time data about congestion on highway,
chy of these .16
why can’t it be used to inform decision making
on improving this infrastructure and allowing it
Then comparisons must be drawn of the
solutions to these factors. Design and layout
to respond to real time factors making it both
of systems is a conversation between these
flexible and efficient.19
15 Batty, Michael. The New Science of Cities. Cambridge, Massacchusetts: MIT Press, 2017. 16 Batty, Michael. The New Science of Cities. Cambridge, Massacchusetts: MIT Press, 2017.
17 Batty, Michael. The New Science of Cities. Cambridge, Massacchusetts: MIT Press, 2017. 18 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015 19 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015
29
02.
In the modern age of technology millennials
of commuting. Schwartz points out that some
are turning away from car ownership. Schwartz
places like Zurich have limited parking and
argues that not all but many use alternative
installed sensors to understand how congested
forms of transportation, much more so than
cities are and with this information they mitigate
their parents due to the real time information
the number of vehicles that enter the city until
millennials can access and confidently rely on
the congestion subsides.22 This is a solution for
when mapping their commutes.20 It is unreason-
limiting congestion, but it pushes it somewhere
able to imagine that cars will be obsolete any
else until the point that people explore other
time soon however the current trends suggest
options. These other multimodal transportation
that ownership is declining. Schwartz says that
options need to be something desirable and a
even if 10% of millennials don’t use cars daily
real option for the whole population it serves
that means 8 million Americans are not buying
to be efficient and run the way we want it to.
and replacing cars every year which is a major
Schwartz says that Salt Lake City for instance
hit for these industries.21 Even now 1/10 Amer-
has a multimodal transit system that was devel-
ican homes are carless and that is a result of
oped for the Olympics. It runs on a grid and is
many factors including access to reliable in-
efficient with real time updates making it a real
formation, and public transportation as well as
solution for all people in the area that means
the affordability of these things as opposed to
people who need it and people who do not.23
cars. Another factor to consider is the effect
that the fear of rush hour and traffic have on
American highways into one that can be effi-
people today. As a result of this fear people
cient, flexible, and accessible means to reimag-
turn to different more flexible and efficient ways
ine how it is used and give it a new purpose.
20 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015 21 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015
22 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015 23 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015
30
Adapting the existing infrastructure of
Literature Review
Schwartz says that these ideas reduced traffic
where people are entering urban environments
and by taking away lanes of traffic people will
and then give them more options that will bring
begin to reroute themselves or turn to new
them to where they need to go. Ridesharing
solutions of transportation that are more reli-
apps are already a part of that, and soon au-
able and efficient than cars.24 By giving people
tonomous vehicles will be as well.25
the tools of real time information through tech-
nology they will be knowledgeable of efficient
urbanism as a building block for urbanism.26
public transportation options meaning more
Landscape Urbanism is a response to Urban-
people will use them and they will be funded
ism and a counter argument to New Urbanism.
better because they are reflections of the peo-
Where new urbanism aims to regain a nostalgic
ple who use them. Giving urban environments
form of transportation and an urban environ-
as well as sprawled suburbs multimodal trans-
ment that is premodern and could not sustain
portation options that are easily understand-
modern demands of travel and circulation.
able and efficient through modern technology.
an urban environment giving equal hierarchical
Lanes of streets can begin to be prioritized
Charles Waldheim describes landscape
Rather, landscape urbanism aims to design
for these options. These modes of transporta-
importance of buildings to landscape. Urbanism
tion will need be organized much like systems
without landscape is only half an urban environ-
to intersect at the most effective points to give
ment. So began the raise of constructed land-
users the most options of rerouting themselves
scape as a building block of an urban environ-
as well as adjusting their own commute. Hav-
ment with the purpose of not only enriching the
ing multiple nodes of intersection at strategic
urban fabric but also to service a greater part
points will allow designers to effectively place
of the environment and respond to an adapting
24 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015
25 Schwartz, Samuel I., and William Rosen. Street Smart: the Rise of Cities and the Fall of Cars. New York: PublicAffairs, 2015 26 Waldheim, Charles. The Landscape Urbanism Reader. New York: Princeton, 2006.
31
02.
culture and infrastructure. While landscape ur-
unnecessary and even devastating to the cities
banism has its place on a city grid it is important
themselves and the people living there. Di-
to understand how it responds to infrastructure.
viding areas and people harshly without a real
Specifically, highway and road structures, which
means of reconciliation.28
seem to completely disassociate with their en-
vironment and cut through urban environments
draws some examples of methods of mitigat-
in senseless ways. This leads to a separation
ing these disconnections have been used in
between different areas regions and cultures
places like Boston’s Emerald Necklace where
which sometimes can be devastating when re-
transportation was understood as a necessity
sources and necessities are cut off without any
so a parkway was constructed around it which
way of bridging the gap.27
was programmed for community use with
garden space, walkable trails, differentiation
James Corner, in Waldheim’s book, The
Jacqueline Tatom, in Waldheim’s book,
Landscape Urbanism Reader, recalls that Kahn
of densities of greenery and wildlife as well as
descried major roads and freeways as wa-
monuments, places for pause and reflection
terways that frame and serve a specific area.
as well as recreational sites for sports. All
There of offshoots from the main system that
the while creating connections between once
branch inward to service the center of cities
divided neighborhoods and giving them a
and thus need depositories for vehicles to
common space of use and belonging through
accumulate such as parking lots and garages.
connecting paths offshoots and depositories.
While these structures might be necessary
More than just a community zone that enrich-
for the purposes of ringing people into cities
es the urban environment, this parkway also
from suburbs and beyond, these systems are
acts as a resiliency buffer which mitigates
27 Waldheim, Charles. The Landscape Urbanism Reader. New York: Princeton, 2006.
28 Corner, James. Terra Fluxus, The Landscape Urbanism Reader. New York: Princeton, 2006.
32
Literature Review
flooding from the Charles through multiple lay-
sive design-less highway network that criss-
ers of greenspace, the muddy river, and to-
crosses America and provides a solution where
pography. Its purpose is not singular but one
in it divides communities in urban environments.
that gives back on multiple levels.29
It takes keys from examples of highways that
do respond to their environments and bend and
Tatom draws another example of New
York’s Henry Hudson Parkway which is a sec-
flow to better fit the environment rather than
ondary layer between the river lining manhat-
bulldoze their way through. Landscape urban-
tans edge and the city. Once an rea strictly
ism aims to show that all spaces are valuable
for automobile use, this parkway invites the
and not just squares and centers but parts of
public to also experience the waters edge
infrastructure and cities that are not so glamor-
with multiple connections over and under the
ous such as tunnels bridges underpasses and
freeway that bring people directly to the water
overpasses and tries to work out a solution for
as well as through a series of parks and park-
all these typologies of infrastructure.32
ways where a community can be built around a
common space of gardens fields recreational
Adaptive Reuse Extending the Lives of Build-
facilities and views of the water.30
ings, adaptive Reuse has been a concept in
practice for a long time as an option when
Elizabeth Mossop explains in Waldheim’s
According to Liliane Wong in her book,
book that all urban spaces are valuable espe-
resources are low. Adaptive reuse was coined
cially ones that are standardized, such as high-
however in the 1970’s and refers to the adapta-
ways and roads, and importance does not only
tion of an existing structure or a found artifact
lay in parks and squares.31 Landscape urbanism
for a new use. Within recent history adaptive
shines a light on the shapeless and unrespon-
reuse has become an option for combating cli-
29 Tatom, Jacqueline. Landscape of Infrastructure, The Landscape Urbanism Reader. New York: Princeton, 2006. 30 Tatom, Jacqueline. Landscape of Infrastructure, The Landscape Urbanism Reader. New York: Princeton, 2006. 31 Mossop, Elizabeth. Landscape of Infrastructure, The Landscape Urbanism Reader. New York: Princeton, 2006.
32 Mossop, Elizabeth. Landscape of Infrastructure, The Landscape Urbanism Reader. New York: Princeton, 2006.
33
02.
mate change. Rather than tearing down a structure and completely rebuilding a new structure in its place, simply adapting a structure to a new use saves on labor cost and uses less greenhouse gases. It is important to distinguish a dialogue between the found structure and its new purpose. By establishing a dialogue that relates to the new use and existing structure one can begin to program parts of the new structure in creative and useful ways. What is the case if we begin to extend the idea of a found artifact from an unused or underused building to an unused or underused road or freeway?
With the findings of the Forth National Cli-
mate Assessment the reduction of greenhouse gas emissions there is a chance that in the near future freeways will become less useful for the modern form of transportation. How would this sprawling network of roads be reimagined as a new and useful network?33
33 Wong, Liliane. Adaptive Reuse : Extending the Lives of Buildings. Basel/Berlin/Boston: Walter de Gruyter GmbH, 2016. Accessed November 18, 2019. ProQuest Ebook Central.
34
Literature Review
35
03. Design as Research Overview A process in my thesis in which I approach problem solving though itterative design. By distilling issues into one main idea I was able to tackle problems one at a time and iterate upon ideas as I went.
03.
Climate change is an impending threat on life
ized a 6-lane highway by the average size of a free-
as we know it. Outdated infrastructure and our ur-
way running through an urban center. By defining
ban planning have doomed major cities around the
each lane as a 12’ increment with a median and an
world. Highways act as toxic arteries that decimate
edge condition defined by where it is in the datum
the air quality within major cities while also contrib-
of an urban setting, I was able to catalogue each
uting to the heat island effect. while this infrastruc-
change in section which was consistent with a
ture is wide ranging and massive it fails as a net-
change in elevation through an urban environment.
work of efficient transportation while also failing to
positively impact the areas with which it connects.
underpass, and a central artery. The overpass I’ve
This thesis will reimagine and adapt the American
drawn as a ridging form where there are more than
highway network as a network of infrastructure
two levels of circulation. One defined by the infra-
that runs efficiently and positively aids cities at risk
structure of the highway and another that runs un-
from the climate crisis. By using theories of land-
derneath either parallel or perpendicular to the in-
scape urbanism and systems planning the exist-
frastructure. This version is one meant to connect
ing infrastructure will be adapted into a network
areas with minimal displacement of the ground
of parkways and civic spaces which will become a
level which allows for people to circulate freely
new type of urbanism that aids environments and
around this infrastructure. The problem however is
communities.
that usually there is very minimal though allocated
Catalogue:
To define this sprawling network into compre-
hensible increments I have created a catalogue of conditions of this highway network. It is predominantly a network that is sectionally unchanged by its surroundings. To illustrate that I have standard-
38
These three categories are an overpass, an
to the underside of this version and the spaces that are defined between the ground and the infrastructure are commonly uninviting and unprogrammed. As a result, this version still becomes one that divides the ground level despite touching the ground plane in a minimal way. The positive aspects of this version are that it is easy to make usually for a pub-
Design as Research
lic network. There is ample opportunity to allow for
as well as requirements for light and air flow with-
sunlight to enter even enclosed spaces of this net-
in this network. There would need to be a way to
work. Systems can run efficiently through this net-
funnel air and sunlight to these areas before it can
work layering them on the same plane and direc-
begin to be programed for a public network. There
tion that is used for transportation. The structural
is however ample room and programmatic space
quality of this version of the network is one with a
for a system of transportation as well as systems
high capacity for load baring. This allows for differ-
to run parallel on this network which can become
ent forms of landscaping and built forms to be pos-
a data collection center for the rest of the network.
sible with some adaptation. This version is ideal for
Spaces that do not need qualities of a human oc-
landscape, housing, and all types of built forms and
cupied space ca begin to be placed on this version
can be useable as a public network.
of the network for larger swaths so that the places
Underpasses I’ve defined as a network that
where it is most possible for human interaction can
tunnels through an urban environment. These tun-
be prioritized and the rest can be used for systems
nels allow for almost any kind of program to happen
and data collection/dissemination.
above. The capacity of the program above relies
on the secondary structure to span or tie into the
have defined as highways that divide urban envi-
structure of the network underneath. Meaning that
ronments on the ground plane but are not decked
there is usually a physical connection between the
over. These versions of the network require se-
network underneath and above that culminates in
lective bridging to happen across the network for
a form of organization that mitigates between the
secondary forms of transportation to happen. In
network of highways and the network of streets.
this case the artery fluctuates between the ground
Although there are many options of programming
plane and depressed into the ground. The only op-
above the tunnel program within these tunnels are
tion is to span with smaller networks of transporta-
tougher to work out. There is a question of how far
tion. This system is the clearest and most apparent
spanning a public network could be underground
of a division within an urban center. With the ability
Arteries are versions of the network, which I
39
03.
to deck over and provide any kind of program it is
runs somewhat perpendicular to this system as a
easy to imagine this version both above and be-
depressed artery and tunnel. These networks de-
low as a public network that can be open or closed
fine key areas of the city and where they intersect
above and can adapt to any condition necessary.
is a mess of ramps tunnels arteries and streets that
Network
As an overall network, highways cut through
and connect to every part of the American mainland. Within an urban center they form boundaries and divisions between different areas. With projects such as the big dig, these boundaries are demolished, and a new network takes its place in the public realm. Where there was once a large overpass that cut through most of downtown Boston now there is a network of parkways that tie back
form a large node. Because this network runs so centrally through Boston it can be adapted into a network that has a public and civic purpose where there can be landscaped zones as well as housing and other built forms depending on the contextual relationship of each site. Rather than thinking about this network of one that ignores its surroundings and is sectionally void of difference it can become something responsive to a human scale and urban conditions.
into the emerald necklace, Boston’s landscape
Nodes
urbanism project that is a string of parkways that
wrap around the city that form a public network of
structural congestion. Junction points of systems
landscaping. The network of highways in Boston
colliding which look like a mess of overpasses,
relate to the three versions I have defined as an
underpasses and everything in between with slim
overpass, underpass, and an artery. While the big
ramps connecting each road and system so that
dig had removed much of the overpass condition
a user can connect to and from any road to their
there are still many examples of that relationship
desired path. Where these nodes happen in these
happening near north and south station where RT
networks also tend to draw the most amount of hu-
93 enters the urban center. Whereas the mass pike
man congestion as well with traffic build ups hap-
40
The nodes I have explored are areas of infra-
Design as Research
pening in these areas specifically and then reverberating back throughout the network. In design of public transportation nodes there are usually ideas of systems relating to each other and running in the most efficient way possible where systems can be overlapped and run parallel adjacent and perpendicular to each other to give users a variety of options of multimodal and multi-nodal transportation. These transportation hubs usually are contained in smaller footprints than those of a highway junction because the vehicles of transportation or not the ones that are turning and constraining themselves in a dramatic way rather it is the people that circulate though the hub to get to their desired path and rout. Highway junctions are built so that vehicles can turn and make drastic changes in route meaning they need much more lateral space to do so. If these junctions were reimagined to fit a model closer to one of a public transportation hub it could be contained in a smaller area and could grow vertically rather than horizontally. Defining a new type of urban space.
41
03.
Fig 4.
42
Network Organization on Overpass
Design as Research
Fig 5.
Network Organization on Overpass
43
03.
Fig 6.
44
Network Organization on Overpass
Design as Research
Fig 7.
Network Organization on Overpass
45
03.
Fig 8.
46
Network Organization on Overpass
Design as Research
Fig 9.
Network Organization Under Overpass
47
03.
Fig 10.
48
Network Organization Tunnel
Design as Research
Fig 11.
Network Organization Tunnel
49
03.
Fig 12.
50
Network Organization Depressed Highway
Design as Research
Fig 13.
Network Organization Circulation
51
03.
Fig 14.
52
Network Organization on Overpass
Design as Research
Fig 15.
Network Organization on Overpass
53
03.
Fig 16.
54
Transportation Organization
Design as Research
Fig 17.
Design Test, North Station, Boston
55
03.
Fig 18.
56
Design Test, Newbury Street, Boston
Design as Research
Fig 19.
Design Test, Storrow Drive, Boston
57
03.
Fig 20.
58
Boston Highway Network
Design as Research
59
03.
The Highline Date: May 2003 Location: New York, NY Author: Diller Scofidio + Renfro Criteria: Unused train tracks that run through manhattan on a raised platform adapted to a raised pedestrian walkway/greenway by keeping existing infurstructure and allowing for accessibility and addition of gathering spaces.
Fig 21.
60
New York Highline Interaction with Building
Design as Research
Fig 22.
New York Highline Ecology and Community Space
61
03.
Chicago River Walk Date: 2016 Location: Chicago, IL Author: Sasaki Criteria: Project done in phases. Elevation change to waters edge. pedestrian walkways bridges and gathering spaces. layering of programatic zones. explore accessibility. exploration of major roads past waters edge.
Fig 23.
62
Chicago Riverwalk Interaction with Waterway
Design as Research
Fig 24.
Chicago Riiverwalk Program atic Elements
63
03.
Parc de la Villette Date: 1982 Location: Paris, France Author: OMA Criteria: The program for this project was broken down and reaplied in five seperate methods through which a park was generated by having strips of program, a point grid of facilities, a “round forest�, circulation, and large superimpositions of programatic elements.
Fig 25.
64
Parc de la Villette Program Implementation
Design as Research
Fig 26.
Parc de la Villete River Condition
65
03.
The first semester I was focusing on answer
ect is to design a network that can be applied to the
the question of what was possible by generalizing a
entire highway system. I looked at a large variety of
few conditions in a written catalogue describing an
different American cities differing in size, scale, and
overpass, depressed highway, and a tunnel. While I
demographic. many of these cities did have many
had not chosen a site, yet I had tested design ideas
overlapping conditions which was encouraging. I
through sketches either site-less or inspired by
eventually chose the city of Pittsburgh Pennsylva-
conditions found in Boston. By the end of the first
nia as my site. this city with its clear edge defined
semester I was able to come to the understanding
by the river as well as the highways was a good site
that for this system to e the most effective it needs to
to apply my network for connection. the pollution
predominantly be a form of landscape infrastructure
of high congestion points was also a good place to
that is able to graft onto an existing structure and
implement an infrastructure which reduces Heat
gradually remove lanes of traffic in an effort to re-
Island effect as well as reduces toxicity all the while
duce speed and use of the existing highway. These
being areas of connection. This city was also an
ideas were tied heavily to the Law of Congestion
ideal site because of the recent RFP issued by the
which claims that by reducing lanes of travel traffic is
city which illustartes a want to reimagine the exist-
also reduced as people turn to other modes of trans-
ing transportation plan in lue of one that reduces
portation and new routes. this means that my net-
the amount of privetly opperated vehicles within
work while displacing people must also be a catalyst
the downtown area.
for a new system of transportation. Mapping Site
Going into this semester my first goal was to use
studied Pittsburgh, the existing networks and sys-
my now complete catalogue to narrow down a site
tems in place, the existing demographic and the di-
that embodies the most problematic conditions as
vision between neighborhoods, and the overall tox-
well as the most repeatable as the goal of this proj-
icity in the area. This toxicity was mostly brought
66
The following weeks up to the midterm I deeply
Design as Research
on by the congestion on the highway network and
for forests and other areas being more open are bet-
its pollution of environments such as the river. In
ter for community zones. The idea being that this in-
the industrial park however, US Steel is the pre-
frastructure directly relates to the surrounding site
dominant polluter closely followed by the overlap-
unlike the existing infrastructure.
ping highway through this site. After a deep analysis of Pittsburgh, I was able to narrow down three
Design
specific nodes which would act as major hubs on
this network on which I would directly design this
network. The application of the system on an over-
landscape infrastructure.
pass raised the datum of this network eight feet
Once the sites were chosen a method of appli-
above the existing highway. this eight-foot removal
cation and implementation was necessary to under-
allows for enough space for large tree’s roots to be
stand each site as a node in a greater plan. I sepa-
well established as well as for the dissemination of
rated these elements by program/goal, systems,
systems such as water and energy circulation. the
and circulation. the program was separated by ar-
vegetation planted at each site directly coincides
eas that directly and efficiently reduce the amount
with the goal or node of each site. in carbon forests
of toxins in an area (blue), and areas which directly
trees are planted that can remove the most amount
provide usable program for nearby communities
of carbon and cast the most amount of shade (typ-
(yellow). The growth of this network on the exist-
ically oak and maple trees). whereas in community
ing highway is directly impacted by the speed and
zones and food forests, vegetation is typically fruit
distance necessary to remove a lane of traffic. as
and vegetables that can be grown in a community
a result, the system is comprised of diagonals that
garden and sold at public markets. On a depressed
remove people from an acre of linear area allocat-
highway this area can be paved over in order to re-
ed for the new network. these diagonals provide a
move the edge created by this infrastructure and
seamless overlap between opposing programmatic
encourage movement over the highway by decking
zones in which some areas being denser are better
over the entire system. This network takes advan-
At the midterm I began the actual design of this
67
03.
tage of existing conditions. under an overpass in the industrial site an area can be allocated for vertical parking to condense the amount of parking in this area and use it for something else. The abundance of soil in the residential edge site allows for a comprehensive irrigation system to be implemented for a large public garden featuring fruit trees, vegetable gardens, and flower gardens. The riverside side uses the reduction of the depressed highway to encourage connection and use of the river for circulation as well as a recreational zone under a thriving market space. The new network is able to fix the issues of the existing system as well as combat current issues of climate change while creating a usable piece of infrastructure for the next 100 years.
68
Design as Research
69
Urban Zones Commercial - Residential Commercial Qualities - Systems vent out toward road. toxic, back of house, loading, lots of paving, not uch vegitation
Residential Qualities - noise, low income, low property value, polution, heat, no trees, no recreation, lack of public space
Industrial - Industrial Industrial Qualities - Air pollution, noise pollution, urban sprawl, heat absorbing pavment, chemical pollution, runoff, ecological zone of heat.
Commercial - Recreational Commercial Qualities - Systems vent out toward road. toxic, back of house, loading, lots of paving, not uch vegitation
Recreational Qualities - pollution, trash, oil, noise, inaccessibility, runoff
Highway Typologies Depressed Pittsburgh - Commercial, Residential Seattle - Residential, Commercial Chicago - Residential, Waters Edge, Commercial Boston - Commercial, Residential, Public Park Miami - Commercial, Residential San Fransisco - Industrial Park, Commercial, Residential
Overpass Pittsburgh - Industrial Park, Public Park, Commercial, Waters Edge Seattle - Residential, Waters Edge, Industrial Park, Commercial Chicago - Residential, Industial Park, Commercial Boston - Industrial Park, Residential, Commercial Miami - Commercial, Residential San Fransisco - Industrial Park, Commercial, Residential
Scenic Pittsburgh - Commercial, Public Park, Industrial Seattle - Industrial, Commercial, Public Park Chicago - Residential, Waters Edge, Commercial Boston - Commercial, Residential, Public Park Miami - Commercial, Residential, Public Park San Fransisco - Industrial Park, Commercial, Residential, Park
03.
86
Design as Research
Fig 27.
Design Sketches
87
03.
Fig 28.
88
Residential/Commercial Edge Midterm Sketch
Design as Research
Fig 29.
Residential/Commercial Edge Midterm Sketch
89
03.
Fig 30.
90
Riverside Market Midterm Sketch
Design as Research
Fig 31.
Riverside Market Midterm Sketch
91
03.
Fig 32.
92
Industrial Park Midterm Sketch
Design as Research
Fig 33.
Industrial Park Midterm Sketch
93
94
Fig 34.
Network Growth (Existing)
95
96
Fig 35.
Network Growth (Phase 1)
97
98
Fig 36.
Network Growth (Phase 2)
99
100
Fig 37.
Network Growth (Phase 3)
101
102
Fig 38.
Network Growth (Phase 4)
103
04. Outcome Overview The culmination of eight months of work materializing as one design. This chapter illustrates the final design of my thesis project.
Site: Pittsburgh PA Pittsburgh A city that is looking to completly reimagine their transportation system in an effort to free up space from cars for people. With this as a catalyst for change this thesis will give civic purpose to the highway system.
Graphic Key
106
Fig 39.
Pittsburgh Site Analysis
107
112
US Steel Industrial Park This site houses many program typologies such as factories and wharehouses which are huge emmiters of toxins. US Steel is responsible for emitting multiple tons of toxins into the air which cause many health problems to the residents near by. The acres of parking for shipping trucks as well as workers contribute heavily to the heat island effect. The elevated highway running through the site is one the the ost conjested spots of this urban highway network. The intervention must directly mitigate the toxins found in this area as well as reduce the heat island effect.
Graphic Key
Fig 40.
Industrial Park Site Analysis
113
118
Residential Edge Commercial/ Residential Zone This site is a divisional site between the major downtown area and a residential neighborhood. This division is even further perpetuated by the large parking lots on the residential side. The highway as well as the urban edge pollute the air in the direction of the residential neighborhood which leads to major health risks in the area. The large amount of heat absorbing paving raises the heat in the area forcing residents to pay more to live comftorably. The sprawling highway and parking lots push the residents far from the amenities provided in the downtown area necessary for living.
Graphic Key
Fig 41.
Residential Edge Site Analysis
119
122
Riverside Site Commercial Zone This site is a large commercial district in downtown Pittsburgh. there are many shops and resturants as well as a large variety of buisnesses in this area. While being located very close to the river the highway creates a definitive barrier between the district and this large recreational zone. The highway pollutes the air as well as the river. Intervention would need to bring the commercial zone to the edge of the river while reducing the amount of pollution and having a sybiotic relationship between the program and the waterway
Graphic Key
Fig 42.
Riverside Site Analysis
123
Network Implementation Application Using specific plant types at different sites the application of vegitation can directly meet the needs of each zone. Maple and Oak trees are used in carbon forests to reduce toxicity. Fruit trees and vegtable gardens are planted with native plants to this hardyness zone.
Graphic Key Carbon Forest Food Forest Pollination Garden Food Garden Gathering Space Food Market
126
Fig 43.
Network Application
127
128
Fig 44.
Network Application
129
Program Implementation Application This system must directly connect to the needs of the immediate cite as well as the larger urban context within which this network lives. Parts of the whole must impact the community on multiple levels.
Graphic Key Elevator
Market
Walking Trail
Water
Staircase
Beehive
Water Taxi
Pavillion
Bike Trail Bus Route Parking
130
Fig 45.
Network Transportation Application
131
Circulation Implementation Application By reducing the amount of vehicles in the center of the city other forms of circulation will be used to bring poeple in and out of the downtown area from surrounding zones
Graphic Key Elevator Walking Trail Staircase Water Taxi Bike Trail Bus Route Parking
132
Fig 46.
Network Systems Application
133
134
Fig 47.
Network Growth (Existing)
135
136
Fig 48.
Network Growth (Phase 1)
137
138
Fig 49.
Network Growth (Phase 2)
139
140
Fig 50.
Network Growth (Phase 3)
141
142
Fig 51.
Network Growth (Phase 4)
143
The Market | Riverside Design: The Market is a once alienated connection to the river turned thriving Commercial District. The unique highway typology allows for multiple points of connection onto and below the network featuring a long spanning market place as well as ample room for other creative activities. The docks along the river are used for water taxis which allow for a new connection to this part of the city. They are also used for recreation and allow people to use the river in new ways.
144
Fig 52.
The Market Final Design
145
The Lawn | Residential Edge Design: The Lawn is an Urban Desert turned backyard. The depressed highway is now a lushous public garden for flowers and vegtables. The existing highway is consolidated and infilled to allow for a wide range of planting and a large pool to irrigate the network with. The area towards the east is home to an underground garage for the existing parking demand with an large park above used for community spaces and events.
150
Fig 53.
The Lawn Final Design
151
The Lung | US Steel Industrial Park Design: The Lung is an Industrial Park turned Recreation Hub. The towering Overpass is now used as a Carbon Forest. Vertical parking is used to reduce the area allocated for parking and allow people to circulate into downtown using alternative methods. The ground level now is home to recreational feilds and a large park. People are able to circulate between the upper artery and lower park through a system of elevators stairs and pavillions provided throughout the system
156
k
Fig 54.
The Lung Final Design
157
05. Critical Reflection Overview This chapter is a reflection on feedback throughout my design work in which i recieved input from many outside critics, professors, and peers.
05.
Penultimate During the penultimate I was given helpful feedback.
The vertical circulation was not clear as the designs
It was brought up that there should be a deeper con-
of the network were shown in section perspective,
nection of how nature works to how the interaction
so I made these pavilions and methods of circulation
happens on the system. The rigidity of the lines that
more prominent in the final design. A difference in
define zones can be more malleable and overlap. My
depth of soil was also brought up to illustrate a differ-
system of taking over lanes of traffic inherently allows
ence in plant variety and overall goal of a certain zone.
for pieces to fi together well like a puzzle and I was
I allowed for more soil depth in areas where large trees
able to illustrate this point in a serious of axons during
were planted and less in areas where people only
my thesis defense. I still believe that it is important for
planted flowers or vegetables allowing for a section-
certain zones to have a designated goal and for that
al difference between forests and community zones.
reason I have diagramed these areas as rigid howev-
I was told to show a progression of the system over
er in a smaller scale there can be overlap. Transition
time in section perspectives to show the growth of the
zones occur on the area that a line happens it is im-
system as well as the plants and its effect on the sur-
portant to me that people understand where they are
rounding. As the system grows toxins are reduced as
on the system and with a clear change in the system
well as heat. I made a series of diagrams in which this
people can more clearly understand where they are
was illustrated abstractly in an effort to not tie these
and understand the purpose of the zone. I was told
drawings to a specific site so it could be broader in its
to look at Rem Koolhaas parc de la Villette and the
application and understanding. It was also discussed
way he illustrates all the different overlapping systems
that the parking used under the overpass seemed to
and nodes. For the final thesis defense, I did exact-
segregate this area even more by going down to the
ly that and illustrated the nodes along the system as
ground and acting as a large curtain. I instead used
well as the zones and the circulation all on separate
the existing structure to hang the vertical parking and
layers of the same frame. I think this worked out well
drop it to a height that was 20 feet above ground and
and illustrated the urban design concept very well.
pulled away from central circulation points. By cutting
164
Critical Reflection
back on the amount of volume used for parking this
to make a serious of a couple that connected in the
site becomes much less of a barrier and more of a
same zone it would have been clear to see how this
connection between two sides of the highway.
system changes over time which is what my section
Going forward I believe that as was discussed
perspectives lacked. Axons of my designs might be
in the final review, I need to look back and reflect on
a good way to show my design in a more wholistic
my original idea being that of the car and what does
way. While I am happy with how I drew toxicity, I think
it mean for people to circulate in 50 to 100 years. To
it could have been more pointed and the way I illustrat-
imagine that a car will be the same by then does not
ed heat gain should have been integrated better into
make sense and so it would mean that speculation
this same style. Perhaps using vectors was the right
as to what this network can become should be much
approach but I was caught up with understanding
more creative and forward thinking. I think that it
heat as heat mapping. Going forward I would love to
would be interesting in testing more sites not just the
be able to speak with the team at UTILE that is work-
typical ones in urban setting but the less typical zones
ing on the RFP put out by Pittsburgh for a new trans-
where transitions happen on my system as well as
portation plan. I believe this would be a great conver-
the existing where people transition on and off. There
sation to understand the feasibility of this idea and if it
could be an overlap of how zones are defined using
coincided with anything they were doing.
the existing zones of transition. I think I should have done that from the beginning because my system was organized through linear acres which now seems a bit arbitrary. Instead I think it should be defined by stretch from on ramp to off ramp. I think if I had time to make a model, I would have like to laser cut my sections onto plexiglass and build out the model past them to look like a real-life section perspective. If I was able
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