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Defining a sustainable aesthetic: a new paradigm for architecture

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DEFINING A SUSTAINABLE AESTHETIC:

A NEW PARADIGM FOR ARCHITECTURE

by

David Barrett Douglass

A Thesis Presented to the
FACULTY OF THE SCHOOL OF ARCHITECTURE
UNIVERSITY OF SOUTHERN CALIFORNIA
In Partial Fulfillment of the
Requirements for the Degree
MASTER OF BUILDING SCIENCE

May 2008

Copyright 2008 David Barrett Douglass

ii
Acknowledgements
The process of undertaking a master’s thesis is not the task of an individual,
but the work of a large group of people. Whether their support is academic,
financial, professional or emotional, their contributions are vital, and must be
recognized.
The author would like to extend special thanks to his Thesis Committee Chair
and Director of the Chase L Leavitt Graduate Building Science Program, Marc
Schiler, for his thorough and enthusiastic support of this thesis. Special thanks are
also owed to committee members Ralph Knowles and Kara Bartelt for their
unending support and encouragement, as well as their unique and varied points of
view. This thesis would never have been possible without the input and assistance of
these committee members. It is also necessary to acknowledge the support and
assistance of the faculty of the School of Architecture and especially the Building
Science Program at the University of Southern California, as well as the friendship
and assistance of administrators Suzanne Alexander and Serena Elliott.
Of course the author would also like to acknowledge the support and
encouragement of friends and family throughout this process. It is especially
necessary to recognize the unwavering emotional support and encouragement of the
author’s parents. It is also necessary to acknowledge the friendship and camaraderie
of the author’s colleagues in the Chase L Leavitt Graduate Building Science
Program. The author would also like to offer thanks to his co-workers at Francis

iii
Krahe and Associates for their support, flexibility and encouragement throughout
this long process.
It is also necessary to recognize and thank the Society of Building Science
Educators and the American Solar Energy Society for their support in providing
opportunities for the author to further his learning and encouraging the research that
brought this thesis to fruition.
Without the support and assistance of all those mentioned here, the
completion of this work would never have been possible.
iv
Table of Contents

Acknowledgements ii

List of Figures v

Abstract vi

Chapter 1: Introduction – Facing the Facts 1

Chapter 2: Aesthetics, Architecture and Sustainability 7

Chapter 3: Problem and Process 25

Chapter 4: The Failure of the Current Sustainability Paradigm 33

Chapter 5: Understanding the Contemporary Social Climate 44

Chapter 6: Saving the World Through Architecture – The Modern Example 48
and the Moral and Social Imperative of Sustainability

Chapter 7: Defining a Sustainable Aesthetic 57

Chapter 8: Case Studies – The Reality of a Sustainable Aesthetic 66

Chapter 9: Conclusion 83

Chapter 10: Future Work 88

Bibliography 93
v
List of Figures

Figure 1: Marcel Duchamp’s Fountain, 1917 10

Figure 2: A House by Robert Venturi, symbolic rhetoric wrought in architecture 16

Figure 3: Ken Yeang’s Menara Umno, Penang, Malaysia 21

Figure 4: A Painting by Hassan Fathy, a traditional vernacular approach to 38
sustainable architecture

Figure 5: Large expanses of glass at the Bauhaus in Dessau, Germany 52

Figure 6: The potential impact of rising sea levels in Florida 55

Figure 7: Le Corbusier’s “domino” system, a practical aesthetic philosophy 58

Figure 8: Ken Yeang’s Menara Mesiniaga, sustainability as concept generator 61

Figure 9: Light scoops at Renzo Piano’s High Museum in Atlanta protect the 62
galleries from direct sunlight

Figure 10: Rick Joy's architecture takes advantage of the only locally available 63
building material, soil

Figure 11: Sectional diagram of program organization (Seattle Central Library) 71

Figure 12: Seattle Central Library 73

Figure 13: Extensive glazing allows ample natural light but can also result in 74
excessive heat gain. The image also shows the lack of coordination
between daylighting and electric lighting (Seattle Central Library)

Figure 14: Hawaii Gateway Energy Center 73

Figure 15: Extensive photovoltaic arrays generate electricity for the Gateway 77
Center while also shading windows from direct solar gain

Figure 16: Diagram of HGEC’s Passive Ventilation System 78
vi
Abstract
This thesis explores the process of defining an aesthetic philosophy of
sustainable architecture. An argument is made for the justification of the need for a
sustainable architectural aesthetic over the continuation of the current sustainability
paradigm. The various factors that influence the development of a sustainable
aesthetic are also discussed, including urban growth, varying climate conditions, and
the moral and social obligation that sustainability represents. In the end, three
principles of a sustainable aesthetic are established: that sustainability represents a
practical philosophy, that sustainability serves as the concept generator in the design
process, and that sustainable architecture is universally specific to the constraints of
its site. Several case studies are also examined in relation to these principles as well
as more quantitative evaluation factors.
1
Chapter 1: Introduction – Facing the Facts
The single most pressing global issue of the current era is climate change.
Politicians and policy makers may argue otherwise, but it must be clear that without
addressing climate change all other issues become irrelevant. Poverty, disease, war
and economy are not without consequence, but must be viewed through the lens of
climate change. Global climate change has the potential to completely disrupt the
geopolitical landscape. And yet, climate change is not just an issue for politicians,
world leaders and business executives. If left unchecked, climate change will touch
every person on earth, and as such, everyone has a responsibility to do their part.
This responsibility extends especially to the profession of architecture, a major
contributor of greenhouse gases. But the architectural profession still lacks any
cohesive or holistic approach to the problem of “sustainability” despite many valiant
efforts. It is time for a new approach, a new paradigm for architectural design.
1.1: The Reality of Global Climate Change
The validity of global climate change has been debated for decades, and over
the years the ranks of skeptical scientists has steadily decreased. Recent studies and
reports have all but silenced the few remaining doubters. The “Fourth Assessment
Report” issued by the United Nations’ Intergovernmental Panel on Climate Change
concluded that it is almost certain that human activity has been the trigger of global
climate change over the past 50 years, and even presents some evidence that the
2
natural forces at play may have even decreased the warming effect rather than
enhancing it.
1
And with projections of greenhouse gas emissions predicting
continuing increases for decades to come, it would only stand to reason that global
climate change is not going away any time soon. Now that the evidence of climate
change is exhaustive, it is time for action. Now that there is an understanding of
where the problem comes from it is time to devise solutions.
1.2: “Architects Pollute”
In October of 2003 Metropolis Magazine published a study that shocked the
architecture industry. Long-time passive design proponent Ed Mazria’s study
concluded that architecture consumes 48% of all energy in the United States and is
responsible for more CO
2
emissions than transportation or “industry.”
2
This is a fact
that is still not greatly appreciated outside the architecture and building industries
(and even in some cases within those industries). World leaders and policy makers
continue to focus on factories, power plants and vehicle emissions, while the real
problem is the normative buildings that we live and work in every day. One might
argue that Mazria’s statistics are something of an exaggeration, but even if vehicle
emissions are a more significant factor than he suggests, a building’s siting and
location are a significant factor in transportation issues. And yet, despite the
challenges ahead, there is hope for resolving climate change in architecture. Indeed,

1
Intergovernmental Panel on Climate Change, Fourth Assessment Report, 2007.
2
Hawthorne, October 2003, 103.
3
as Mazria argues, architecture may well be the only hope. “This is the most
important moment in the history of architecture,” Mazria says. “If architects don’t
attack this problem, then the world doesn’t have a chance.”
3

Today, “sustainability” – and “green” and “eco-friendly” – have become
consumer society buzzwords. Hybrids have revolutionized the automotive industry,
and companies all over the world have started touting their “green” practices. And
while these elements have begun to influence the architectural profession, with the
advent of the US Green Building Council and their “Leadership in Energy and
Environmental Design” (LEED) rating system, sustainability remains largely on the
fringes of architectural practice today. The current design profession rewards
envelope-pushing over practicality, and celebrity status over professionalism and
ethical design. In pursuit of constantly changing tastes and higher stakes,
sustainability has been relegated to a second-class status in this “starchitect”
professional culture.
Increasingly, architects are beginning to understand that sustainability is a
necessary and unavoidable part of the future. Energy standards such as California’s
Title 24 Part 6, and government mandated LEED accreditation for public projects in
municipalities such as Chicago, Seattle, and Denver (among others) have required a
more sensitive approach to building design. But “sustainable” design as a whole
remains little more than a basic set of criteria, yet another code that architects must

3
Hawthorne, October 2003, 105
4
comply with. This model has not produced a unified architectural solution. The
potential impact and implications of sustainability requires a new way of practicing
architecture.
1.3: The Missing Link: A Cohesive Sustainable Philosophy, A
Sustainable Aesthetic
To truly be effective, sustainable architecture must go beyond checklists and
material choices. Architecture needs a cohesive and holistic sustainable philosophy,
a driving force behind the design and construction of buildings. Architecture needs a
sustainable aesthetic philosophy.
Throughout recent architectural history and theory, the most powerful and
potent architectural “styles” have been backed by strong theoretical, social, and even
moral principles. The Arts and Crafts and Modern movements are strong examples
of this, and even the Post-Modern movement was supported by a cohesive theoretical
agenda. Sustainability represents the next logical step in this historical continuum,
representing a response to the moral and social challenges of climate change.
Architecture has a major responsibility in the prevention of catastrophic global
climate change, and a sustainable architectural aesthetic philosophy can be that
solution. But sustainability will not be an aesthetic of rigid stylistic dogma; there
must be no design rules, or visual norms. Unlike every “style” that has come before,
sustainable architecture will have (and already does have) many representations; and
5
this is possible because the over-arching theory of a sustainable aesthetic is not
burdened by the stylistic agendas of previous architectural movements.
1.4: A Practical Sustainable Architectural Aesthetic
The word “aesthetic” implies a wide variety of meanings. It suggests
philosophical theories of beauty, ideas as basic as “style,” and even concepts about
personal experience. Applying these various meanings to the practice of sustainable
architecture makes for a complex challenge. But considering ideas of beauty, style
or “aesthetic experience” may be premature in the discussion of sustainable
architecture. It is first necessary to understand a sustainable architectural aesthetic in
the basic noun form of the word, “a philosophical theory of what is aesthetically
valid at a given time and place.”
4
While this definition may be faulted for using the
word it is defining, it makes a critical point. An aesthetic must be a philosophical
theory, and as architecture is a practical field, resulting in real and usable products,
any architectural aesthetic must first be a practical philosophy, a philosophy related
to the practice and process of architecture. While an assessment of beauty and
personal experience are a necessary aspect of aesthetic philosophy, these are results
of aesthetic products, and therefore indefinable without a coherent understanding of
the generating aesthetic philosophy. Indeed, the very nature of sustainable
architecture requires that it take unique and different forms based on varying
circumstances, making it impossible to “know” exactly what sustainability will “look

4
“Dictionary.com” 2008
6
like” in any given circumstance. Even so, this thesis will argue that sustainable
architecture warrants an aesthetic philosophy and that such a philosophy must be
understood in terms of how architecture is designed and made in order to achieve the
performance results that are the basis of sustainability. Establishing sustainability as
the aesthetic motivation behind architectural design will be the basis of a new
paradigm for the practice of architecture.
7
Chapter 2: Aesthetics, Architecture and Sustainability
Defining a new aesthetic paradigm for architecture is no simple task.
Establishing any philosophical theory that is to be coherent, relevant and compelling
requires an understanding of a broad range of background knowledge from the
outset. This background knowledge establishes the basis on which the new
philosophical theory is built. Identifying a sustainable architectural aesthetic
philosophy is no different. Before establishing a definition it is necessary to
understand the relevant background. In the case of an aesthetic of sustainable
architecture, the necessary background knowledge can be broken into three
categories: general aesthetic philosophy, architectural aesthetics and philosophy, and
sustainable practice and theory. These three categories make up the basic building
blocks of what will become a sustainable architectural aesthetic, and it is therefore
vital to understand the background of these subjects in order to provide a strong basis
for the argument that follows.
2.1: Aesthetic Philosophy
A discussion of aesthetics begins with the ancient Greek philosopher Plato,
who viewed art as little more than imitation of a much more complex and interesting
reality. “The real artist,” he said, “who knew what he was imitating, would be
8
interested in realities and not in imitations.”
5
Today society takes a much more
noble view of the work of the artist, and the vast range of aesthetic theory and
philosophy reflects this ever growing interest in the arts. It is crucial, however, to
recognize that art and architecture, though they may have many similarities, are two
vastly different topics. Indeed, even the broad term “arts” is too immense to be
succinctly defined by any single aesthetic philosophy. As such, this exploration
presents only a few (relatively contemporary) aesthetic philosophies that are
particularly applicable to the field of architecture.
Artistic expression starts at a young age as Konrad Lange explains in
“Illusion in Play and Art.” He introduces the concept of “imagination play” as a
form of artistic expression in children. As Lange explains, “children who do not like
fairy tales and wish to hear only true stories will certainly not become poets.”
6

While this may seem like an oversimplification, Lange notes that imagination play
can take many forms, including the idea of “building games” as preliminary
architecture.
7
Lange’s focus is primarily on the development of artistic impulses as a
child, but his ideas carry through to adult interactions, and are especially relevant to
the field of architecture, where the architect is, in a sense, “playing at” inhabiting his
clients’ lives, in order to better understand how to design for them.
To truly understand aesthetics, it is necessary to begin to define the concept
of beauty. This subject is expertly addressed by Samuel Alexander in “Beauty and

5
Qtd. in Rader 1964, xvi
6
Rader 1964, 13
7
Ibid, 9
9
Illusion,” where he describes the ephemeral concept of “beauty” (in art) as the ability
to convey that which does not exist (or explicitly described). “The words of a poem
are not merely descriptive,” Alexander says, “but suffused with suggestions of
feeling and significance which a mere scientific description would not possess.”
8

While Alexander’s comments are not specifically intended to describe architecture,
this idea is especially applicable to buildings. A building is just a box until it begins
to tell a story. This story is not told in words, but in shapes, and volumes, and space.
And at its most basic, the best architecture is that which tells the best story.
This argument, however, raises the question of “taste,” which leads to a
discussion of a philosopher who makes an argument for a very specific
“architectural” aesthetic. In The Aesthetics of Architecture, Roger Scruton begins by
describing the necessity of understanding a building’s “utility” in order to truly
understand its value,
9
and the concept that aesthetic appreciation is a compound
experience of thought and analysis.
10
However, in the end, Scruton’s argument is
nothing more than his assertion that classical architectural styles (specifically that of
the Italian Renaissance) are “morally” superior to Modern styles.
11
While this
position was consistent with the Post-Modern movement, popular when Scruton’s
book was published in 1979, his argument against Modern styles neglects the social
and moral basis that Modernism was founded on. Furthermore, despite describing

8
Rader 1964, 15
9
Scruton 1979, 7
10
Ibid, 72
11
Scruton 1979
10
the importance of understanding architecture as fundamentally utilitarian, Scruton
argues his point entirely on the basis of appreciating architecture as an object of art,
and not as a useful tool.
Scruton’s broken argument is further invalidated by Noel Carrol’s proposal in
“Art and Interaction” that, “following the conflicts and tensions within the
development of art history is as central a component of the practice of art
spectatorship as is having aesthetic experience.”
12
In other words, to truly appreciate
a work of art, the viewer must fully understand the art-historical context of the work.
Carrol goes on to explain that even with a full understanding of the art-historical
moment, being in the presence of art does not automatically result in aesthetic
experience (an aesthetic appreciation of the work of art), and conversely, that an
aesthetic experience may not always result from the appreciation of a work of
“art.”
13
As an example, Carrol describes the Marcel Duchamp work, Fountain(see
Figure 1), which, to the untrained eye, is nothing more than urinal turned on its back,
but to the savvy, it is an important piece of art, regardless of the resultant aesthetic
experience.
14
It is through this lens that Scruton’s ill-fated argument is fully
understood. While Scruton’s discussion of the immorality of Modern architecture
was in keeping with the architectural rhetoric of the time, his argument misinterprets
Modernism and its part in architectural history.

12
Janaway 2006, 74
13
Ibid
14
Ibid
11

Figure 1: Marcel Duchamp's Fountain, 1917 (“Newberry” 2008)

Perhaps the most compelling aesthetic philosophy dealing with the built
environment comes from Susanne Langer in her 1953 work Feeling and Form.
Langer establishes the concept of “ethnic domain,” giving an as yet unseen
anthropological facet to the understanding of architecture.
15
As Langer describes,
“that is the image of life which is created in buildings; it is the visible semblance of
an ‘ethnic domain’, the symbol of humanity to be found in the strength and interplay

15
Langer 1953, 95
12
of forms.”
16
Perhaps the significance of this point takes for granted the fact that all
art is human creation, and therefore inherently anthropological, but Langer touches
on a point that separates architecture from the other arts. Art may symbolize the life
of a culture, but architecture is the embodiment of that life. Just as Scruton and
Carrol suggest that aesthetic experience is an active mental experience, Langer’s
argument underlines the fact that the aesthetic experience of architecture is
dependent on participation, actively inhabiting an architectural space on a daily
basis. “The architect creates its image: a physically present human environment that
expresses the characteristic rhythmic functional patterns which constitute a
culture.”
17

These are just a few examples of the hugely varied body of work on aesthetic
theory. And while each example bears some significance to the field of architecture,
aesthetic theory on its own is not sufficient to fully understand the complex nature of
architecture. In order to fully grasp the complexity of architecture it is necessary to
explore architectural theory and philosophy.
2.2: Architectural Aesthetics and Philosophy
The realm of architectural theory and philosophy is almost as vast and varied
as that of aesthetic theory, and any thorough exploration quickly leads to the
discovery of numerous wide-ranging topics that inform those theories. Architectural

16
Langer 1953
17
Ibid, 96
13
theory as it is understood today started with the 15
th
century Italian renaissance
architect Alberti, whose work, based in part on the ancient Roman texts of Vitruvius,
was intended to educate the nobility, and encourage their patronage. Ever since,
there has been no shortage of varying opinions on how buildings should be designed
and built. In keeping with the aesthetic philosophy of Noel Carrol mentioned above,
architectural theory tends to be highly aware of historical context, often responding
or reacting to what has come before.
It should come as no surprise then, that the “Modern Movement” in
architecture has deep roots in the architectural theory that preceded it, and despite
what seems to be glaring stylistic differences, Modernism has its foundations in the
Gothic Revival and Arts and Crafts movements of the 18
th
and 19
th
centuries.
Differences in appearance aside, all three of these “theories” were based on honesty
of form and materials, the primacy of craft, and access to good design for all people.
Perhaps the most well known theoretical work of the Modern Movement, and
possibly even in all of architectural history, is Le Corbusier’s Towards a New
Architecture. Le Corbusier’s seminal work discusses the difference and the
connection between the engineer’s aesthetic and architecture. “The Engineer,” he
says, “inspired by the law of economy and governed by mathematical calculation,
puts us in accord with universal law. He achieves harmony.”
18
But for Le
Corbusier, architecture is about more than just harmony: architecture evokes

18
Le Corbusier 1931, 1
14
emotion, and thereby achieves beauty. As he explains, “Architecture is a thing of
art, a phenomenon of the emotions, lying outside questions of construction and
beyond them.”
19
He seeks to define an architecture that is fitting for the time in
which he was living, a time of great technological advancement, fueled largely by
the war machine of World War I. “When a problem is properly stated in our epoch,
it inevitably finds its solution,” he argues, in reference to the immense advances in
aircraft, steamship and automobile technology he was witnessing.
20
“The
architecture of to-day [sic] does not fulfill the necessary and sufficient conditions of
the problem,” he claims. “The reason is that the problem has not been stated as
regards to architecture.”
21
This statement, though intended to describe a very
different time in architecture, continues to have relevance in the discussion of
sustainable architecture today. Perhaps what is most interesting about Le
Corbusier’s writing is the extreme importance he places on the advancement of
architecture. “Architecture or Revolution,” he proclaims, suggesting that a failure to
address the problems of architecture could lead to a failure of society. “Revolution,”
he says, “can be avoided.” His words remain resonant today.
Not all architectural theory is as idealistic and forward-thinking as Le
Corbusier, though. Industrial designer George Nelson, in his book How To See,
takes a very matter-of-fact approach to the experience of the designed environment.
While Nelson’s theory is more in the realm of design aesthetics, it is especially

19
Le Corbusier 1931, 19
20
Ibid, 110
21
Ibid, 112
15
applicable to architecture, as a field of design. Similar to many of the aesthetic
theories discussed above, Nelson proposes that “seeing” (or our experience of the
designed environment) is a complex interaction involving previous knowledge and
experience.
22
“What you see may be what you get,” he explains, “but what you see
is also what you think.”
23
Nelson goes on to support Modernist thought in his
assessment of beauty. “Beauty,” he says, “when we strip away the aesthetic jargon,
seems to mean fitness to purpose in the deepest sense. Nature, which has always
been our model, never concerns itself with beauty, but always strives for total fitness
to an environment.”
24
Taken literally, Nelson appears to take an even more extreme
view than Le Corbusier, seeming to come down more on the side of the engineer’s
aesthetic than architecture. But his statement is also reminiscent of Vitruvius, who
proposed that the three necessary qualities of architecture are “firmness, commodity,
and delight,” suggesting that through durable functionality, architecture achieves
beauty. Architecture is more than just a container for holding people. If the
arguments of Langer and Le Corbusier are taken into consideration, the aspect of
emotion and cultural connection play an important role in the creation of
“Architecture.” These views must be taken into considered along with Nelson’s
definition of beauty.
Unfortunately, the grand ideals of the Modern Movement were eventually
eclipsed by the harsh and minimal aesthetic that Modernism represented to the

22
Nelson 2003
23
Ibid, 91
24
Ibid, 107
16
world. Without the social agenda to back it up, Modernism became little more than a
“style,” subverting the very honesty that it originally promoted. This fact was made
especially clear in Robert Venturi’s work Complexity and Contradiction in
Architecture. Venturi proposes that decoration and “symbolic rhetoric” are
necessary in architecture, and that a preferred formal approach is inevitable in the
work of an architect.
25
But the true power of Venturi’s argument lies in his
discussion disproving the validity of Modern theory in architectural application.
Despite their rhetoric, he claims, Modern architecture did rely on historical precedent
and eventually devolved into more of a visual dogma than a meaningful movement.
“The main trouble with rejecting formal systems in architecture,” he claims, “is that
the architects who do so in order to avoid the dangers of formalism, ironically,
become more prone to formalism.”
26
Yet, while Venturi’s argument against the
evolved standard of Modern architecture is valid and strong, he never lays out a
meaningful defense of his preference for decoration, other than to say, “We like
admitting symbolic rhetoric.”
27
Venturi even goes so far as to suggest that
“decoration” could save the world. Obviously, today it is clear that it takes more
than base symbolic decoration to alleviate the problems of the world, but it is
important to understand the significant historical moment that Venturi represents.
When Venturi was developing his theories, Modernism no longer represented a
coherent architectural philosophy. And his assertion that it is futile to reject

25
Goldblatt and Brown 2005, 135-141.
26
Ibid
27
Ibid, 136
17
formalism is especially relevant to the development of a new sustainable aesthetic
philosophy. Venturi was right in asserting that it was time for a new revolution in
architecture, but the failure of Post-Modernism was its lack of meaningful social
relevance. The intensely intellectual theory was only meaningful to people with a
complex knowledge of architectural history. In terms of socially meaningful
architectural theories, Post-Modernism was the beginning of the end.

Figure 2: A House by Robert Venturi, symbolic rhetoric wrought in architecture (“New York School
of Interior Design” 2008)

The architectural discussion became only more convoluted as Post-
Modernism gave way to Deconstructivism. A theory even more obscure and
intellectualized than Post-Modernism, Deconstructivism, as Jeffrey Kipnis described,
is about two things, “…first, to destabilize the meaning of apparently stable works
and, secondly, to produce self-destabilizing works.”
28
And as Jacques Derrida
described, the goal was, “…to free architecture from all those external finalities,

28
Goldblatt and Brown 2005, 166
18
extraneous goals.”
29
Deconstructivism, was as much about a reexamination of
architectural history as it was about creating new architectural works, and clearly had
very little regard for reality. As prevailing architectural theory became more and
more introverted and intellectualized, any real and relevant theory seems to have
dropped off entirely. There is nothing left to “destabilize.”
Today, almost as a counter-argument to the intellectual and theoretic
movements that followed Modernism, architecture seems to have shed theory all
together, becoming at worst little more than extreme formal exercises, and at best,
exploring the limits of design software capabilities. There are, of course, notable
exceptions, architects whose designs are motivated by more than just fashion and
formal whim. Indeed, one of the best examples of the exceptions to the current
architectural design climate is the sustainable architecture movement.
2.3: Sustainability Practice and Theory
In 1987, the United Nations’ World Commission on Environment and
Development defined “sustainable development” as, “development that meets the
needs of the present without compromising the ability of future generations to meet
their own needs.”
30
But sustainable architectural practice and theory predates this
definition. Much of the groundwork for sustainable theory as we know it today was
laid in the aftermath of the oil crisis of the 1970s by practitioners who, in some

29
Goldblatt and Brown 2005, 148
30
United Nations World Commission on Environment and Development 1987
19
cases, continue to work and advocate for more responsible design methodologies.
Today, in part because of the 1987 definition, sustainability is understood as a much
more complex issue than just energy independence. “Sustainability” now
encompasses all of the varying facets of environmental sensitivity, as well as broader
issues of health and well-being, and social responsibility. This complexity is born
out in some aspects of sustainable architectural theory.
Despite the relatively contemporary advent of the concept of sustainability as
it is known today, architectural historian James Steele argues in his recent work,
Ecological Architecture, that climate responsive, eco-conscious design has been a
part of the architectural development throughout the industrial era. Along with the
usual suspects, Steele argues that architects not usually associated with sustainability
such as Mackintosh, Le Corbusier, Kahn and many of the contemporary “high-tech”
architects such as Richard Rogers and Renzo Piano all represent aspects of
sustainable design.
31

While many architects had been utilizing sustainable practices since before
there was a word to define it, the field was really revolutionized by what Steele calls
“The Solar Cult of the 1970s.”
32
Motivated by the OPEC oil embargos of the 1970s,
architects and educators such as Ed Mazria and Ralph Knowles began looking to the
sun as an alternative source of energy.
33
Mazria supported “passive” design
strategies, promoting a more complete connection to site, climate, and the sun,

31
Steele 2005
32
Ibid, 155
33
Ibid, 155; Knowles 1981
20
publishing The Passive Solar Energy Book in 1979.
34
The text can serve almost as
an instruction manual for employing many of the practices that have become
standards in today’s view of sustainable architecture. In 1981, Ralph Knowles
published Sun, Rhythm, Form in which he outlined his concept of solar envelope and
solar zoning, a theory that guarantees solar access to all properties.
35
While
Knowles’ strategy was developed primarily as a means to allow solar power
generation in the face of the OPEC embargos, the right of solar access also has
passive design and mental well-being implications.
36
While the oil crisis did result
in a miniature frenzy of energy-saving and passive strategies, once the crisis ended
and oil was available and inexpensive again, architects and consumers returned to the
same old habits, and passive and low-energy architecture became relegated to the
eccentric houses built of recycled tires and aluminum cans in secluded areas of the
western United States.
Sustainability, though, is about more than just saving energy and passive
strategies. Sustainability also has an important social aspect, perhaps best
exemplified by the work of Hassan Fathy in Egypt. Driven by a nationalistic trend
and the need to provide a low-cost construction technique, Fathy derived a system of
construction based on traditional Nubian techniques using locally available and
inexpensive materials.
37
Fathy utilized an understanding of the naturally ventilating

34
Mazria 1979
35
Knowles 1981
36
Ibid
37
Steele 2005, 84-93
21
microcosm of old Cairo, traditional Egyptian architectural methods and the climatic
forces of the area to devise an architecture that needed no air conditioning despite its
location at the edge of the Sahara.
38
Fathy’s techniques earned him the attention and
support of the Egyptian government, and while he did spend seven years in self-
imposed exile in Athens due to political changes under President Nasser, he
eventually returned to Egypt and regained the support of the government, even
designing a rest house for President Sadat.
39
Unfortunately, Fathy’s most important
works, the town planning and low-cost housing projects, were never as successful as
he had hoped.
40
Even so, the significance of Fathy’s work cannot be underestimated.
His ability to derive an inexpensive system of architecture using traditional materials
and techniques that met modern needs without the necessity for mechanical
ventilation is a pivotal model for the future of sustainable architecture.
A similarly fascinating example of sustainable architectural development is
the work of Malaysian architect Ken Yeang. Witnessing the explosive growth
throughout Asia, and especially in urban areas, Yeang concluded that the skyscraper
would become an even more vital typology in the architectural future. However,
recognizing the immense amounts of energy required to build and maintain a
skyscraper he decided to develop a new methodology. Yeang has published two
books on skyscraper design alone, Reinventing the Skyscraper and The Skyscraper
Bioclimatically Considered, in which he outlines his strategies for saving energy and

38
Steele 2005, 84-93
39
Ibid
40
Ibid
22
naturally ventilating, as well as methods for creating more livable space so far
removed from the natural environment on the ground.
41
Yeang has also completed
several naturally ventilated skyscrapers in his native Malaysia, an astounding
achievement considering the extreme tropical climate. While some of Yeang’s
techniques and design choices may not be the most technically sustainable, his
comprehensive re-imagining of the skyscraper typology serves as a unique example
for sustainable development in the future.

Figure 3: Ken Yeang's Menara Umno, Penang, Malaysia (“The City Review” 2008)

Sustainable architectural theory continues to advance today, and there is no
shortage of interesting and compelling ideas. Since 2002 the United States
Department of Energy has sponsored the Solar Decathlon, a competition where 20

41
Yeang, 1996; Yeang, 2002
23
college and university teams compete to design, build and operate the best solar
powered house.
42
Intended to promote the use and development of solar technology,
the competition is often a showpiece of the latest solar and low-energy technology
and the future of architectural design. More and more practicing architects are
joining the discussion as well. Philadelphia architects Stephen Kieran and James
Timberlake recently published Refabricating Architecture, and taking a page from
Le Corbusier, promote techniques used in automotive and aircraft production to
revolutionize architectural fabrication.
43
And architect William McDonough, in
conjunction with chemist Michael Braungart, have popularized the “cradle to cradle”
concept, originally coined by Walter Stahel, a framework creating production
techniques that are essentially waste free, in contrast to the “cradle to grave”
paradigm where manufacturers take responsibility for waste.
44

Sustainable theory continues to advance, as does architectural theory and
aesthetic theory. And in the effort to develop a new sustainable architectural
aesthetic philosophy it is vital to consider these developments. Just as Noel Carrol
suggests, understanding the historical context is a vital part of the experience, and as
Langer so eloquently describes, architectural aesthetic experience is much more than
just looking at an object. Having established these basic background issues, it is

42
“U.S. Department of Energy’s Solar Decathlon” 2008
43
Kieran and Timberlake 2004
44
“Cradle to Cradle” 2008
24
possible to move forward with the process of defining a sustainable aesthetic
philosophy for architecture.

25
Chapter 3: Problem and Process
The challenge of establishing a sustainable aesthetic philosophy is an
enormous task. It requires wrangling a wide range of topics into a singular coherent
idea. Some would even argue that establishing a new philosophy is not even
necessary as sustainability is on the rise and there are new incentives and plans every
day that promote it even further. However, the current paradigm is not working.
The moral and social imperative that sustainability represents demands a new way of
thinking, a new coherent and holistic approach to sustainable architecture. While the
ethical implications of sustainability may be sufficient motivation for some, the
broader appeal of an aesthetic philosophy will reach a wider audience. This appeal
goes beyond environmental and even financial considerations. Many people who
completely ignore such issues will gladly invest the necessary resources if they
believe it will result in what they perceive to be a superior aesthetic. As an aesthetic
movement, sustainability has the potential to have a far greater impact than as a
moral obligation alone, especially considering the increasing popularity of all things
“sustainable.”
3.1: Establishing a Starting Point
Defining a sustainable architectural aesthetic presents two major challenges.
In order to effectively discuss sustainable architecture, definitions – or
understandings – must be established for both “architecture” and “sustainable.”

26
The challenge in describing architectural aesthetics lies in the general lack of
a compelling understanding of what exactly architecture is. Many theorists, writers,
and historians have attributed architecture to the realm of the arts, and while this
seems to be the most fitting in terms of describing the theoretical and aesthetic
attributes of architecture, it denies several major factors in the reality of architecture.
Structure and engineering must necessarily play a part in any understanding of what
architecture is. Historical interpretation shows that major advances in architectural
“styles” have often been accompanied by, if not resultant of, equally pivotal
advances in structural understanding. While many “Modernist” architects were
content with expressing architectural form in terms of structural honesty, it was
fellow Modernist Le Corbusier who discredits the “engineer’s aesthetic” as lacking
in the emotive qualities of architecture. Clearly architecture must be understood as
an amalgam of “art” and “engineering”, and yet this description is still lacking in a
complete understanding of the nature of architecture. Despite Scruton’s insistence
that Freudian and Marxist theory provide no compelling argument on the meaning of
architectural form, much contemporary historical theory acknowledges the
importance of socio-economic factors in architecture. It would seem that any
interpretation of architecture must be three-pronged: that of art, engineering and
socio-economy. It is nothing short of impossible to fully understand architecture
without an understanding of all three factors, and no single factor can accurately or
fully describe architecture by itself. It seems clear then that architecture must be

27
understood in a new light. Architecture must be understood as archaeological-
anthropological object, not merely as art, engineering, or socio-economic product.
Sustainability is an equally complex concept. In their 1987 report entitled
“Our Common Future” the United Nations’ World Commission on Environment and
Development defined sustainable development as, “development that meets the
needs of the present without compromising the ability of future generations to meet
their own needs.”
45
While this definition seems hopelessly vague, it is necessarily
so. Sustainability is about more than just saving energy and reducing carbon
emissions. The challenges that future generations will face are unknown, and by
leaving the definition open-ended, the Commission has appealed to our moral duty to
leave a better world for future generations. As such, this definition can be applied to
all aspects of life, including architecture. And while the field of architecture is
striving to meet the challenges of sustainability, it is not living up to this definition.
3.2: The Failure of the Current Sustainability Paradigm
Sustainability is more respected in the architectural industry today than it has
ever been before. Trade publications have been established that are solely devoted to
sustainability; product manufacturers are tripping over each other to proclaim
themselves the most environmentally friendly, and the LEED rating system has
become a selling point. But much of this characterization of sustainability seems to

45
United Nations World Commission on Environment and Development 1987

28
have less to do with saving the world than it does with making money.
Sustainability as it exists today has become a consumer commodity.
The failure of the current sustainability paradigm is rooted in this
commoditization. The frenzy for all things green has created a phenomenon called
“greenwashing,” where consumers are misled about the true environmental nature of
a company’s practices, products or services. In an effort combat this, a variety of
rating systems have been developed to provide a way of certifying sustainable
buildings. Unfortunately these rating systems have evolved to become little more
than checklists, and have little bearing on how architects design. To further
complicate the situation, so-called sustainable architects have divided into two
camps, one promoting a return to traditional techniques, the other suggesting that the
solution lies in technology. To the outside observer, the argument seems
irresolvable. And all of this is added to an already vacuous design climate that
architecture inhabits today. Clearly it is time for a new paradigm.
3.3: Understanding the Contemporary Social Climate
Any new approach to sustainable architecture must obviously take into
account an understanding of the contemporary condition. Today, for the first time in
history, more people live in urban areas than in non-urban areas. While this fact can
be advantageous to the development of sustainable architecture, it also poses many
challenges, and must be adequately understood. In addition, the wide variety of
building types and the unique challenges of diverse climates negate any one-size-fits-

29
all solution. It must be clear that methods to design a home in the tropics are not the
same as those for a skyscraper in a desert city. As such, it may be useful to employ a
categorization strategy to efficiently approach these complexities.
3.4: The Modern Example and the Moral and Social Imperative of
Sustainability
The last time architecture had a meaningful moral and social philosophy in
support of a design aesthetic was the Modern Movement. Following in the footsteps
of the Gothic Revival and the Arts and Crafts Movement, the social equality
philosophy that motivated Modernism is part of what has sustained its relevance so
long after the height of the movement. Modernism will serve as an important
example in the development of a new architectural philosophy, but at the same time,
it is vital to remember the pitfalls that led to the eventual downfall of the Modern
Movement.
3.5: Defining a Sustainable Aesthetic
After establishing the necessity for a new aesthetic philosophy of sustainable
architecture, the challenge of defining the new sustainable aesthetic still remains. In
this pursuit it is necessary to consider the arguments above. Working definitions of
architecture and sustainability are obvious requirements. No less important, though,
is an understanding of why and how the current “sustainability” paradigm is failing
in the architecture and building industry. Of course, no aesthetic theory would be

30
valid without an understanding of the contemporary social climate. And finally, as a
new philosophy based on social and moral responsibility, it is necessary to remember
historical examples such as the modern movement, and understand how and why
these movements came to prominence, and then eventually failed. Taking all of
these considerations into account, the challenge of deriving a new aesthetic theory
can be broken down into three major factors.
The very nature of an “aesthetic” presents the first problem of establishing a
new architectural philosophy. Aesthetic theory, as it exists today, is primarily
concerned with the observation or appreciation of the artistic achievement.
However, in order to be effective, the sustainable aesthetic must be a practical
philosophy that can be implemented in the design of buildings.
This new practical philosophy must inform the way that sustainability is
approached in the design process. Today, for the most part, sustainability is viewed
as yet another programmatic element that must be resolved in pursuit of a coherent
building design. The resolution to all the programmatic complexity in architecture
usually comes in the form of an over-arching concept that gives meaning to how the
pieces are put together. In this new philosophy sustainability must be that organizing
concept.
Finally, in pursuit of a truly sustainable aesthetic, architectural solutions must
strive to be both specific and universal. Buildings must relate to the specific
challenges and constraints of each unique site, inherently specific solutions. And

31
yet, by taking a unique approach to each site, and striving to find the best solution,
the result is also inherently universal in terms of sustainable approach and
achievement.
With these three basic requirements – that a sustainable aesthetic represents a
practical philosophy, acts as an organizing concept generator, and is universally
specific – it is possible to create a new sustainable paradigm for the future of
architecture and the earth.
3.6: Case Studies and Quantitative Evaluation
While the three factors just discussed represent a proposed definition of a
sustainable architectural aesthetic, sustainability must be more than just words. To
be truly effective sustainable architecture must meet intention with action, and the
only way to verify this is through measuring post-occupancy factors, especially
focusing on energy use and resource consumption. While the implementation of
“sustainable aesthetic” principles should result in successful quantitative results, this
assertion can only be validated by actual measurement and data collection.

The factors outlined in this chapter may seem disparate and unrelated, but an
understanding of each is vital to the creation of a successful sustainable aesthetic
philosophy. A sustainable architectural aesthetic theory must consider the
complexity of the meanings of both “sustainable” and “architecture,” as well as the

32
varied social and historical factors that impact those meanings. It is only through
this holistic process that a successful sustainable aesthetic can be defined.
33
Chapter 4: The Failure of the Current Sustainability
Paradigm
Sustainability – also known as “green,” “eco-friendly,” or “environmentally
conscious” architecture – has become increasingly desirable and marketable. Hybrid
cars are increasingly popular. Grocery shoppers carry reusable shopping bags. And
businesses, corporations, and television shows are scrambling to “go green.” Even
the media giant NBC Universal recently launched the website greenisuniversal.com,
touting the corporations “green” initiatives. Yet, despite all of these advances,
sustainability remains largely on the fringes of the architectural profession. Of
course, there is no shortage of efforts to change this, but the fact remains that the
architecture industry is monopolized by so-called “high design” architects. These
architects are continuously expanding the limits of form and structure, but at what
cost?
The evidence is glaringly obvious. It would seem like a positive
development that Architectural Record, the official publication of the American
Institute of Architecture (AIA), has begun publishing a dedicated journal for
sustainable architecture, called GreenSource. The AIA has made sustainability a
major priority for the future. But if sustainability is so important, why is it not
gracing the pages of the monthly glossy Architectural Record, perhaps the most
34
widely read trade publication in the United States, and instead relegated to an
offshoot “specialty” magazine only published quarterly?
4.1: Greenwashing
Being “green” takes more than just saying so. Unfortunately, there are far
too many companies and leaders in the world who are trying to convince consumers
otherwise. The online encyclopedia wikipedia.com defines greenwashing as “the act
of misleading consumers regarding the environmental practices of a company or the
environmental benefits of a product or service.”
46
And as “green” practices have
become more and more marketable, greenwashing has become a bigger and bigger
problem.
Perhaps the most obvious example of greenwashing comes from energy
companies. Coal, gas and oil commercials show happy families frolicking in vast
park-like landscapes and touting their “cleanliness” and forward thinking, when in
reality fossil fuel energy generation continues to be one of the leading causes of
greenhouse gas proliferation. Sadly, the architectural profession is equally
susceptible to these tactics.
4.2: LEED and Sustainability Rating Systems
In an effort to combat misleading claims, rating systems have been developed
throughout the world and in the United States to quantifiably verify a building’s

46
“Greenwash” 2008
35
“greenness.” The most common system in the United States is LEED (short for
“Leadership in Energy and Environmental Design”) developed by the United States
Green Building Council (USGBC), a non-profit organization devoted to promoting
sustainable building practices. LEED has become nationally accepted, adopted as a
standard by many municipalities and even the federal government’s General Services
Administration. And it has become the gold standard for architects striving for
sustainability. Even the major corporate firm HOK used LEED as the basis for the
second edition of their popular book, The HOK Guidebook to Sustainable Design,
using the system to evaluate each of the case studies.
47
The LEED system has even
become recognizable to consumers, sometimes being used as a selling point for
condominium and housing developments. The advances in sustainable design that
LEED represents and the general increase in awareness that the system has brought
about cannot be denied. But LEED is far from the be-all-end-all criterion for
sustainability that many suggest it is.
Indeed, LEED has more than its fair share of problems, represented at the
very least by the constant revision process that the system has gone through since its
inception. There are currently eight LEED systems (for New Construction, Homes,
Commercial Interiors, Core and Shell Developments, Schools, Retail, Healthcare,
and Existing Buildings), and a ninth in development (for Neighborhood
Developments).
48
This is evidence of the fact that it is exceedingly challenging to

47
Mendler, Odell and Lazarus 2006
48
“USGBC: U.S. Green Building Council” 2008
36
develop one over-arching system to evaluate all buildings, and yet, the complexity of
having so many different rating systems with so many different standards has created
a great deal of confusion. Another factor that the LEED system has yet to address is
the vast and varied climates in the United States (and around the world). In
response, the USGBC announced in late 2007 that the next version of LEED would
abandon the building-specific systems, instead creating one comprehensive system
that responds more to regional and climate distinctions.
While it is not entirely unexpected for rating systems like LEED to
experience a certain amount of “growing pains,” the problems with the system
extend beyond the bureaucratic paperwork maze that it has created. Of course it
comes as no surprise that achieving LEED certification costs money, but the
registration fees that the USGBC charges for each applicant building represent only a
fraction of the resources in time and energy required to file the necessary paperwork
and documentation. Because of this, LEED certification is often financially
prohibitive for all but the most financially sound architecture firms or clients who are
willing to foot the bill for the extra costs (a very rare occurrence in the costly
building industry). Perhaps the most alarming problem though, is the fact that all but
one of the LEED systems completely ignores what happens after the building is
completed. And LEED’s “Existing Buildings” rating system focuses more on
building operations and maintenance, than the actual performance of the building.
49

49
“USGBC: U.S. Green Building Council” 2008
37
Even the most successful LEED buildings (which fall into one of four classifications:
Certified, Silver, Gold or Platinum) may fall short when it comes to actual building
operations. As exemplified by the case studies in the HOK Guidebook, buildings
rarely perform exactly as designed. In each of HOK’s examples where actual
building performance data was known, at least one aspect of energy use performed
worse than expected.
50

When the USGBC devised the LEED building ratings and professional
accreditation programs, the hope must have been to inspire an increase in education
and awareness of sustainable design in architecture, and it certainly has achieved this
goal. Sadly, though, today the LEED system does little to inform the way buildings
are designed. Far from creating a quantitative or verified definition for sustainable
architecture, the LEED system as it is today is often little more than an afterthought;
a specification exercise undertaken after the building design is decided. In addition,
the LEED system focuses mainly on material choices instead of the long-term energy
usage that has a much more significant impact on greenhouse gas emissions. Rather
than combating greenwashing, the LEED system has only encouraged a whole sub-
industry of consultants who are experts at getting by with the minimum
requirements.
It is necessary to acknowledge the important advancements that the USGBC
and the LEED programs represent for sustainable architecture. However, at the same

50
Mendler, Odell and Lazarus 2006
38
time, it is crucial to note that LEED is not the only part of the sustainability equation.
While LEED certification may result in energy savings and emissions reductions, it
completely neglects the more holistic moral and social factors of sustainable
architecture. Sustainability must become much more than just a plaque at the front
door.
4.3: The Tradition-Technology Debate
Sustainable architectural theory comprises a wide range of opinions and
points of view, and this variety encourages a valuable and diverse debate. Perhaps
one of the most prevalent challenges in sustainable architecture is the debate between
tradition and technology. Both arguments have clear merits, but dismissing one in
favor of the other may be detrimental to the advancement of sustainable design.
Traditional and vernacular architecture represents generations of trial and
error. For thousands of years civilizations had to find creative solutions to the
challenges of their climates using locally available materials, developing a rich
architectural history that is a vital part of cultural legacies. However, the anti-
historical approach of the Modern Movement and the ethnocentrism of the historical
point of view of much of the twentieth century have left these traditional approaches
behind. There are, of course, exceptions to this neglect of vernacular techniques,
perhaps best exemplified by the mud-brick system that Hassan Fathy developed in
Egypt at the height of the Modern revolution that was happening around him.
Unfortunately, Fathy’s return to tradition did not gain widespread success as was
39
hoped, and an attempt to recreate the system in New Mexico in the United States
required architectural concessions which negated the original low-cost value of the
technique.
51
This unfortunate result is often far too common in attempts to recreate
traditional architectural vernacular in the United States and elsewhere, where the
result is little more than vague pastiche, approximating the imagery while completely
neglecting the value of the vernacular technique.

Figure 4: A Painting by Hassan Fathy, a traditional vernacular approach to sustainable architecture
(“KATARXIS” 2008)

The opposite end of the spectrum is the school of thought that believes that
technology alone has the power to solve the sustainable architecture challenge.
Indeed, this point of view is not without precedent. Throughout history man has
been able to overcome the challenges of life through invention and innovation. This
fact manifests itself most powerfully in architecture in the way that computers have
revolutionized the design process. And yet, it seems that the more architects use

51
Steele 2006, 92
40
computer technology to push the limits of possibility, the more the human dimension
is neglected in design. To be sure, “Building Information Modeling” (BIM) tools
can be helpful in understanding the reality of architecture in ways that were
impossible before, but much of the advanced technology in use in architecture today
seems to be used purely for formal exploration, rather than enhancing the value of
buildings. In terms of sustainability, there has been no shortage of technological
advances. Technology has made mechanical systems more efficient and building
envelopes tighter in order to use less energy. Technology has made alternative
energy generation more realistic through solar electricity and hot water generation,
and even wind and geo-thermal power. It is certainly possible for buildings to be
completely energy independent using only these “high-tech” means. But such
technology driven strategies remain prohibitively costly for many clients in the
United States, not to mention the rest of the world. And as Ralph Knowles argues in
his recent book Ritual House, technology has not made our architecture more
interesting or unique:
“On the one hand, the architect can think beyond basic protection for the
body as a motive for design. On the other hand, the resulting monotony does
not create any stimulus that might enrich our lives. Modern technology has
allowed us to homogenize the world, to act indifferently to the separate
rhythms of places.”
52

Clearly, despite the value in technological advances, technology can not be the only
solution for sustainable architecture.

52
Knowles 2006, 73
41
Obviously there is no one “silver bullet” solution to sustainable architecture.
Traditional and vernacular typologies teach valuable lessons, but are often difficult
to adapt to twenty-first century lifestyles. On the other hand, technology provides
useful tools in the creation of sustainable architecture, but cannot solve the entire
problem on its own. Instead of choosing one or the other, architecture must have an
understanding of both as James Steele argues. “To set tradition and technology
against each other is to establish a false dialectic; a more accurate approach may be
to discover where they concur or overlap and how this may be applied to
environmental problems.”
53
Taken separately, these two approaches have had only
limited impact, but used hand in hand, vernacular techniques and technological
advances have the potential to revolutionize architecture.
4.4: The Failure of the Current Design Standard
Perhaps the largest challenge that sustainability faces today is the fact that
“design-minded” architects seem oblivious to the change going on around them.
After a self-destructive downward spiral of overly academic architectural theory over
the past 50 years, architecture has been left practically devoid of any real meaning.
Today, architects in search of conceptual motivation stray further and further from
the form-follows-function tenet of Modernism, instead pushing the envelope toward
an increasingly perilous precipice in search of “starchitect” status. There are, of
course, exceptions to this scenario, but they are few and far between, consumed by a

53
Steele 2005, 15
42
design culture that promotes formal experimentation over the creation of useful and
quality spaces for human habitation. This may sound like a doomsday scenario for
the future of the architectural profession, but in reality it provides an encouraging
prospect for change. Vacant of any moral or social motivation in a time when social
responsibility is held in such high esteem, architecture will soon be forced to change
its ways.

Today’s sustainable design paradigm is broken. Corporations and products
make environmental claims without any supporting evidence. Rating systems
intended to combat greenwashing have only perpetuated the status quo. And the
architectural profession is locked in an exploration of formal impossibilities. As
Sam Grawe, editor-in-chief of Dwell Magazine noted in a recent issue, “Being green,
or carbon neutral, or sustainable has become just another fad, gone the way of acid-
washed denim.”
54
Of course, Grawe is not dismissing sustainability. He goes on to
suggest that the future requires a more careful, more thorough approach to
understanding sustainability.
55
And he is right. Without a new strategy
sustainability will become just another fleeting moment of hyperactive architectural
history. If the sustainability movement continues on its current path, it is almost
certain to fail. In order to become the successful and widespread movement that it
should be, sustainability must be represented by a cohesive and holistic philosophy.

54
Grawe, November 2007, 41
55
Ibid
43
A sustainable architectural aesthetic represents just such a philosophy, a solution to
the failure of current sustainability paradigm.
44
Chapter 5: Understanding the Contemporary Social
Climate
Architecture does not exist in a vacuum. More than any of the other arts,
architecture is dependent on social conditions. Architecture is at the mercy of the
volatility of the economy, government regulation, and public opinion. Navigating
these various factors is a complex undertaking, made only more complex by the
contemporary realities of urban growth and the inherent intricacies of a diverse
planet.
5.1: Explosive Urban Growth
For the first time in human history, more people live in cities than in rural
areas. At first glance, this sounds like a positive development for sustainability at
least when measured on a per capita basis. Densely populated urban centers tend to
encourage use of mass-transit systems, and multi-family housing is generally more
energy-efficient than single family suburban sprawl. Examples like New York City
and Tokyo come to mind where very few residents own cars, basic daily services are
located within walking distance, and families live in more compact and efficient
spaces than their suburban counterparts. But there is more to these cities than their
dense and active urban cores. New York and Tokyo have suburban sprawl too, often
enough to rival even the vast expanse of metropolitan Los Angeles. Indeed, the
45
eastern seaboard of the United States from Boston to Washington, DC constitutes a
nearly 500 mile stretch of almost solid urban-suburban development. Further
complicating the situation, the vast majority of the urban growth happening in the
world today is not in these developed nation scenarios, but rather in developing
nations, often without the means to build the infrastructure necessary to support such
explosive growth. In Beijing, despite an extensive subway system, roads are choked
with traffic as car ownership increases exponentially, and the air is thick with smog
from automobile exhaust and pollution blown in from far-away power plants and
factories. Pollution levels in Beijing are so extreme that for the upcoming 2008
Summer Olympics the government will have to impose driving restrictions and
possibly even force factories to shut down during the Games. In Sao Paulo, Brazil,
traffic is so congested that it is not uncommon for business executives to commute to
work in helicopters.
This explosive growth is motivated by a desire in the developing world to
join the ranks of developed nations, and this change and growth will continue
regardless of the desires of developed nations for controls and strategy. As such, it is
vital that the architectural profession approach this urban growth sensitively,
understanding that it will not wait for appropriate solutions. Truly sustainable
solutions cannot be just for the cities of developed nations, but must also consider the
needs and challenges of the growing cities in developing nations.
46
5.2: A Complex Building Industry in a Complex World
All buildings are not created equal. Different functions and building types
require a wide range of different approaches. And the world holds a plethora of
microclimates, each requiring a unique approach. While the modern movement
attempted to create a homogenous approach to all of these varying complexities
(hence the name “The International Style”), today it is clear that there is no single
architectural solution.
The complexity and variety of architectural typologies is an understood
challenge in today’s building industry. Zoning, building codes, and regulations take
this into account every day, prioritizing certain building types, or even certain
aspects of a building, over others. This complexity becomes even more pronounced
when climate factors are taken into account. The four major climate types (hot-arid,
hot-humid, temperate and cold) each present unique challenges. When specific
microclimatic conditions, wind patterns, or sun angles are taken into account, the
variety of situations to be found is almost endless.
In the face of all of this complexity, it is useful to have a strategy to help
understand each specific situation. Despite the inherent intricacies of this challenge,
the strategy may be fairly simple. It seems that a strategy of categorization would be
an effective approach to managing the complexity of the architectural profession.
While categorization can inevitably result in “pigeon-holed” solutions, if approached
thoughtfully, it can also provide a useful starting point from which to derive
47
solutions specific to each individual problem. It is often said that architects must be
generalists; that they must know a little bit about everything. A categorization
technique is a perfect match for the generalist professional model. By understanding
basic solutions to a wide variety of problems, architects can create unique and
creative results for each specific problem they are faced with. Obviously an
architectural solution for a dense urban lot would not be the same as the solution for
a rural site. Techniques used in cold climates would, of course, not be appropriate
for the desert. And the differentiation doesn’t stop there. It is also important to
consider factors of tradition and technology, and their appropriateness in each
specific situation, as well as the unique socio-political factors at play. Specificity is
one of the major challenges of creating sustainable architecture; a sustainable
architectural aesthetic, and categorized solutions, can help to provide the most
appropriate sustainable solutions available.
48
Chapter 6: Saving the World Through Architecture – The
Modern Example and the Moral and Social Imperative of
Sustainability
Despite what may appear to be a relatively passive product, the architectural
profession can have a very real impact on social situations. Today, the most
common example of architecture effecting society is the all too common outraged
public response to some new unpopular project. But luckily, architecture has the
power to effect positive change as well.
Recent Nobel Prize winners Muhamed Yunus and the Grameen Bank are an
excellent example. Yunus’ Grameen Bank Housing Project, first initiated in 1984,
offers small loans to the rural poor of Bangladesh without requiring collateral,
providing them with the basic components to build a house, including a concrete
slab, concrete columns and a corrugated metal roof.
56
The program has allowed
45,000 families who would otherwise never have been able to own their own
property to build safe and dry homes; and by building the homes themselves, the
program has achieved greater success than most social housing programs, with a
payback rate of almost ninety-eight percent.
57
Indeed, the program has been so
successful that is has been replicated all over the world, and has had such a major
impact that Yunus and the Grameen Bank were awarded the Nobel Peace Prize in

56
Steele 2005, 205
57
Ibid
49
2006. Obviously not all architecture can have Nobel-caliber impact, but the Nobel
committee’s recognition of Al Gore and the Intergovernmental Panel on Climate
Change for the 2007 Peace Prize acknowledges the fact that global climate change
has the potential to cause serious geo-political challenges. But these are challenges
that architecture has the potential to alleviate.
Thankfully, morally and socially motivated architectural movements are not
without precedent. Indeed, the rich and complex history of modern architecture is
rife with social agenda. Le Corbusier even went so far as to present the stark
ultimatum: “Architecture or Revolution.”
58
While this point of view may seem
extreme, it can serve as a useful example for the development of a sustainable
aesthetic theory. An understanding of the social motivations and imperatives of
sustainable architecture is vital to the success of a sustainable aesthetic.
6.1: The Moral and Social Motivation of Modernism
Since the industrial revolution, some architects have been motivated by a
moral duty to improve social conditions through changing the built environment.
While today their contributions are judged almost solely on stylistic content, their
social impact cannot be denied.
Despite what appear to be glaring stylistic differences, many historians argue
that architect, designer and writer Augustus Pugin and his Gothic Revival movement
in mid-nineteenth century England was the beginning of the Modern Movement.

58
Le Corbusier 1931
50
Motivated by the appalling conditions of industrial revolution England (and his
Catholic faith), Pugin, through his encyclopedic built work and his two most
influential written works, Contrasts and The True Principles of Pointed or Christian
Architecture, advocated Gothic as the style that represented a more stable time, and
had the potential to change society. To Pugin, the Medieval period in which Gothic
architecture developed symbolized a time of social harmony, and the ultimate
selflessness that was required to construct such epic religious monuments, a
sentiment that was largely absent in the fury of the industrial revolution.
59
Pugin’s
short life may not have produced the social change that he had hoped for, but his
work did inspire the Houses of Parliament and Big Ben, perhaps England’s most
recognizable buildings, and his praise for the structural honesty of Gothic
architecture may have been the original motivation for what would become Modern
architecture.
As Modern architecture developed, some theories became increasingly
extreme. In contrast to Pugin, Adolf Loos, for example, likened “ornament” to
crime, claiming that cultural evolution was equivalent to the removal of ornament,
and that modern culture required a lack of embellishment.
60
As an illustration, he
claimed that, “Any modern man who wears a tattoo is either a criminal or a
degenerate.”
61
While Loos’ theory is not entirely motivated by the desire for social
change, he did promote the concept of an architecture that was appropriate to the

59
Ruhl 2003, 456
60
Lupfer 2003, 676
61
Qtd. in Lupfer 2003, 676
51
current state of social development, laying the ground work for the Modern
architects who would follow.
Europe in the late nineteenth and early twentieth centuries was in a time of
upheaval. Industrialization was changing the face of civilizations that had been
largely unchanged for centuries. As cottage industry gave way to industrial
production, economies were thrown into upheaval as peasant agricultural workers
were forced to take factory jobs where working conditions were bleak and pay was
dismal. Needless to say, living conditions for the average European were less than
pleasant. These conditions inspired first English and then German designers to
pursue means of craft and architecture that were accessible to all people. This
sentiment led the formation of the Deutsche Werkbund and later the Bauhaus to
explore these ideas. The socialist agenda of the German modernists was only further
motivated by a war founded on secretive government treaties and agreements. In
response, architects like Peter Behrens, Walter Gropius and Mies Van Der Rohe
advocated architecture that promoted transparency and flexibility (as a means of
economy). Advances in building technology allowed for less massive structural
members and more expansive areas of glazing, further emphasizing the social
metaphor of the architecture.
This same social upheaval opened the door to the rise of the Nazi regime in
Germany between the World Wars. While the motivations may have been similar,
the resulting theories of the Nazis and the Bauhaus did not entirely agree. The
52
Bauhaus was eventually shut down, and many of the German modernists fled,
fearing persecution for their inconvenient philosophies and in some cases also their
religion. Two of the most prominent, Gropius and Mies Van Der Rohe, arrived in
America, where they had been introduced years earlier by Philip Johnson’s
“International Style” show at the Museum of Modern Art in New York. In the
United States, the socialist ideology that built Modernism was somehow co-opted,
where Modern architecture became more a tool of corporate success that social
equalization. None the less, the social message of Modern architecture did leave its
mark in America, where even Frank Lloyd Wright sought to achieve an affordable
architecture for all people, even if only to limited success.

Figure 5: Large expanses of glass at the Bauhaus is Dessau, Germany (“Science Across the World”
2008)

Perhaps the most compelling example of the social motivation of Modern
architecture is that of Le Corbusier. No doubt influenced by the work happening in
53
Germany and England, and reacting to the aftermath of World War I, Le Corbusier
presents a dilemma for the social condition he confronted: Architecture or
Revolution.
62
The Modernism that Le Corbusier envisioned was clearly more than
just a one-building-at-a-time approach, he proposed projects on a massive scale,
reinventing entire cities, and he truly believed that architecture could solve the
problems of society. Le Corbusier envisioned mass-production techniques that
would make housing affordable for all people, improving living conditions for the
working poor. These ideas were far from fantasy, as was evidenced by the
momentous effort produced by the war-machine of World War I, and yet the mass-
produced homes that Le Corbusier foresaw are only beginning to become reality in
the “pre-fab” trend that is growing today. What is most telling about the
architectural theory of Le Corbusier, though, is the idea that architecture has the
power to effect meaningful social change. Architecture finds itself in a similar
situation today, where the threat of global climate change looms larger every day.
But just as Le Corbusier first proposed in the 1920s and 1930s, architecture can be
the solution, “Revolution can be avoided.”
63

Unfortunately, despite all the positive social change sought in modern
architecture, the movement was eventually brought down by an over-emphasis on
stylistic achievement. An increasing desire to express structural materials and
Modern style eventually evolved into decorative techniques that eclipsed the honesty

62
Le Corbusier 1931
63
Ibid, 289
54
that originally defined Modernism. Furthermore, as technology developed in the
Modern era, environmental control systems such as air-conditioning made Modern
architecture feasible in extreme climates, neglecting more traditional methods that
had been perfected over centuries. But these environmental control systems were
often highly energy-intensive, making them very costly, and even the best air-
conditioning systems were often no match for harsh desert climates. This arrogance
that the “International Style” represented only accelerated the downfall of
Modernism. Sadly, the overt preference for visual dogma undermined the moral
motivations that developed Modernism in the beginning and opened the door for the
intellectualized and inaccessible architecture that followed.
6.2: The Moral and Social Imperative of Sustainability
Just as Modern architecture was motivated at the start by a desire for social
change, so too must sustainable architecture. This may seem like a foregone
conclusion considering the basic tenets of sustainable architecture, and yet it is of
crucial importance to the success of a sustainable architectural aesthetic. The
potential results of global climate change are well known thanks to the contributions
of the media and the popularity of films like Al Gore’s An Inconvenient Truth.
While these reports often present worst-case and “doomsday” scenarios, the perils
that the planet faces are real and critical. Obviously one of the most frightening
impacts of climate change is the potential for rising sea levels that could leave many
coastal cities in the United States under water, not to mention the huge segments of
55
the world’s population who live in very low lying areas of the developing world
where even small amounts of rising waters could leave millions homeless. But rising
sea levels are only one factor in this complex situation. Climate change and other
results of human actions have resulted in significant decreases in biodiversity in
some areas, which can have major negative impacts on entire ecosystems. Humans
may be capable of withstanding climate change, but most other species are much
more sensitive to even the most minor of changes, and human life is dependent on
maintaining the biodiversity that keeps ecosystems thriving.

Figure 6: The potential impact of rising sea levels in Florida (“NASA” 2008)

Considering the possible negative impacts of global climate change, it would
seem clear that all people have a moral obligation to do all they can to change that
56
fate. Architecture, as one of the largest contributors to climate change, has an even
greater obligation to effect change. Sustainability, in an effort to curb climate
change, is more than just a social issue – it is an ecological and biological issue as
well. As technology has developed throughout history it has generally been to the
benefit of society. Today though, the effects of industrial growth and modern
lifestyles have the potential to displace hundreds of millions of people, mostly in
developing nations that do not have the resources to protect and relocate the victims.
But modern advancements and technology also have the potential to prevent such
disasters when harnessed in the right ways. Those who have the ability, have the
moral obligation to prevent catastrophic climate change. Sustainability must be
more than just the popular thing to do, or the profitable thing to do, it must be the
right thing to do. Only with this priority at the core can a sustainable aesthetic avoid
the fate of modernism and achieve lasting success.
57
Chapter 7: Defining a Sustainable Aesthetic
Sustainability is at a critical juncture in its brief life-span. Every day,
sustainable and ecologically responsible techniques, practices, services and products
become more popular and marketable. And yet, as popularity increases,
accountability seems to be on the decline. There are even those who have given up
on “sustainability” altogether, claiming that the word itself has been so
misappropriated over time as to render it essentially meaningless. To combat this
decline, the architectural profession needs a cohesive sustainable aesthetic theory to
ensure meaningful results and lasting success. However, the creation of such a
theory is not without its obstacles, and these challenges must be addressed in order to
define a meaningful aesthetic.
7.1: Aesthetic Appreciation versus Aesthetic Application
One of the most daunting challenges in developing a new aesthetic theory for
sustainable architecture is the difference between aesthetic appreciation and aesthetic
application. First and foremost, a sustainable aesthetic must be understood as a
practical philosophy of aesthetic application. Most aesthetic theory provides a
framework for understanding and appreciating art. While this is useful for exploring
aesthetic and emotional responses to the arts, it is nearly impossible to create a work
of art (or architecture) based on theories of aesthetic appreciation. Architecture, if
nothing else, must meet some basic practical needs, so any meaningful architectural
58
theory must have practical application. As history has shown, the more intellectual
an architectural theory becomes, the shorter its lifespan. Therefore, a sustainable
aesthetic must be a practical theory that can be applied in any building situation.

Figure 7: Le Corbusier's "domino" system, a practical aesthetic philosophy (“USC – University of
Southern California” 2008)

Examples of practical aesthetic theories abound in the history of architecture,
but by far the most well known are those of Le Corbusier. The Domino house and
the Five Points of Architecture are so ingrained as the tenets of modernism that they
are still a major part of architectural education today. Le Corbusier’s theories, based
in part on the advancements of the manufacturing in the automotive, aviation and
shipbuilding industries, may seem outdated, but the development of a practical
aesthetic product serves as a valuable lesson for the development of a sustainable
aesthetic. It is important to note the difference in approach between Le Corbusier’s
Modernist theory and the motivating forces of a sustainable aesthetic. Le
Corbusier’s Five Points – pilotis, free plan, free façade, ribbon windows, and roof
gardens – while based in the technological advances of the era, resulted in a definite
59
formal aesthetic. The “Five Points” of a sustainable architecture, on the other hand,
could include such factors as optimal solar orientation and natural ventilation, which
are not motivated by formal priorities, but have definite formal implications.
7.2: Sustainability as Programmatic Complexity and Organizing
Concept
In order to be truly effective, sustainability must also be a driving force in the
design process. Architecture is a complex process that involves organizing a wide
variety of disparate, and sometimes contradictory, requirements into a cohesive
whole. In order to direct the decision making process, architects often devise a
singular over-arching “concept” to bring the various factors together. The concept
becomes the driving force of the building, defining how the elements come together
to create “architecture.” Concepts can take a wide variety of forms, from basic
organizational ideas to grand social statements, but either way, the concept is the
basis for a vast majority of today’s architecture.
Integrating sustainability in architecture only adds to the programmatic
complexity of creating architecture. To be truly effective, sustainability must be
considered in every aspect of designing a building, from the orientation on the site to
the paint on walls. It is no wonder that architects choose to ignore sustainability
when it can make an already intricate process even more difficult.
But sustainability should not be seen as an obstacle to architectural design.
Indeed, it can be the exact opposite. Instead of adding sustainable practices to the
60
long list of required factors in a building, a sustainable aesthetic will use
sustainability as the concept that brings all those requirements together. This may
seem like an obvious conclusion, but sustainability as a conceptual driver is actually
the ultimate solution to the complexity of architecture. Today, many architects try to
force formally driven concept buildings into the increasingly sustainable box that is
reality. Rather than solving problems, they are only creating more problems. On the
other hand, when sustainability is the motivating concept, as it must be in a
sustainable aesthetic, the conceptual basis eliminates one of the major elements of
programmatic complexity. Instead of forcing sustainable principles on a formal
envelope, sustainability drives the form. Instead of specifying high-efficiency (and
often high-cost) systems to meet energy codes, the building design inherently creates
efficiency without the aid of specialized mechanical equipment.
Malaysian architect Ken Yeang used a similar strategy when he undertook to
reinvent the way skyscrapers are designed. Yeang’s approach assumes that
continuing global development will necessitate the continued building of
skyscrapers, but that increasing strain on resources makes the current skyscraper
design paradigm impossible to maintain. Instead of relying solely high-tech systems
and materials to make existing skyscraper design more efficient, Yeang sought to
completely re-imagine the skyscraper typology. Yeang’s “bioclimatic” approach has
resulted in several entirely naturally ventilated skyscrapers in the equatorial tropical
climate of Malaysia, no small feat for sustainability.
61

Figure 8: Ken Yeang's Menara Mesiniaga, sustainability as concept generator (Figueroa, 2004)

7.3: Sustainable Solutions: Specific and Universal
By nature, sustainability requires solutions that are specifically suited to each
unique situation. Therefore, a universal visual aesthetic system cannot work for
sustainable architecture. Sustainable architecture simply cannot have one singular
aesthetic expression, but rather an infinite number of variations. At first glance this
would seem diametrically opposed to the concept of a cohesive sustainable aesthetic.
The development of one sustainable aesthetic theory that can be effectively applied
to all architectural situations requires a universal approach, but the specificity
required by sustainability makes this impossible. This argument denies the answer
62
that it holds. The sheer impossibility of replicable solutions for different
architectural problems leaves only one possible common thread: specificity.
Sustainable architecture must be universally specific.

Figure 9: Light scoops at Renzo Piano's High Museum in Atlanta protect the galleries from direct
sunlight (“AV Monografias & Arquitectura Viva” 2008)

Architect Renzo Piano is a master of harnessing natural light in museum and
gallery spaces. Art and direct sunlight, however, are not a good combination, and
Piano is forced to find ways to let natural light into the galleries without allowing
any direct rays into the space. Each museum has its own unique set of requirements
that necessitate unique solutions, and in every case Piano has created a finely tuned
system to control natural light. Each solution is unique to its own environment and
to the building which it serves, but the universality of the approach is recognizable in
the work.
63

Figure 10: Rick Joy's architecture takes advantage of the only locally available building material, soil
(“Cooper Hewitt, National Design Museum” 2008)

Another example of place specific architecture is the work of Rick Joy.
Working mostly in the desert climate of southern Arizona, Joy utilizes the only
construction material that is naturally abundant, building homes out of rammed earth.
In addition to reducing the embodied energy of his buildings by using a locally
available material, the high mass of the earthen walls helps to regulate the diurnal
temperature swings of the desert, keeping the houses cool in the heat of the day, but
warm in cold nights.
The work of Renzo Piano and Rick Joy represents only a small microcosm of
this concept of universal specificity, but it serves as a valuable example. A
sustainable architectural aesthetic must exemplify the precision of Piano’s
64
daylighting systems, only magnified to a whole-building scale. When a building is
truly in tune with its place, the results should be obvious. However insular and
withdrawn contemporary society has become, humans are still aware of the natural
forces of the Earth.

Having addressed the challenges inherent in creating an architectural
aesthetic theory, a sustainable aesthetic can be broken down into three major factors.
First of all, a sustainable aesthetic must be a practical philosophy. To be meaningful
and valuable, there must be more than just theory; it must result in a product that
addresses the motivations that brought about the aesthetic in the first place.
Secondly, a sustainable aesthetic must be an organizing concept generator. To be
truly “sustainable,” that goal must be driving the decisions of the design process.
And finally, a sustainable aesthetic must be universally specific in its application.
Every sustainable building must be born out of its place and the forces at work in
that place. While there are useful examples for each of these factors individually, it
is possible that there is no perfect precedent for the sustainable aesthetic philosophy
presented here.
All told, these three factors would appear to be a formula for a dull and
scientific architecture, completely devoid of the joy that is made possible by quality
design. At a recent symposium at the University of Southern California, Cecil
Balmond, structural engineer and Deputy Chairman of the global engineering firm
65
Arup, suggested that there is something innately appealing about a strong formal
concept.
64
This proposal would seem to be at odds with an architecture that is based
on sustainability as described above. But what is to say that the strong formal
concept cannot be derived from a sustainable aesthetic. Aesthetic theory has shown
that aesthetic response is based on knowledge. As George Nelson said, “What we
see is what we bring to seeing.”
65
And what do humans know better than the
patterns of the sun, the power of the wind, the rejuvenating energy of the rain. When
a building harnesses these natural forces, when it responds to the infinitely unique
characteristics of its place, there is an inherent human response. It is an aesthetic
response. They experience beauty.

64
Arup 2008
65
Nelson 2003
66
Chapter 8: Case Studies – The Reality of a Sustainable
Aesthetic
After establishing the basic tenets of a sustainable aesthetic, architecture still
faces major challenges in implementing those principles to reduce global climate
change. Though the value of using “sustainability” as a basis is the broad reach that
it implies, the word itself does not suggest any concrete goals or benchmarks. While
the focus of this study has been primarily on theoretical and philosophical aspects of
sustainable design, the resulting architecture must exhibit quantitative progress in
order to make any meaningful difference. As such, it is necessary to evaluate several
case studies, both in terms of philosophical approach, as well as quantitative
achievement.
8.1: The Importance of Post-Occupancy Evaluation
The importance of a coherent sustainable aesthetic philosophy is undeniable.
And yet, without substantial and measurable progress any sustainable philosophy is
meaningless. Because the broad term “sustainability” encompasses so many varied
aspects, from site selection to water use, it is difficult to determine one single
comparable factor to evaluate architecture. This fact is clearly exemplified by the
wide variety of factors considered in the LEED system, and the number of revisions
the system has gone through. To be sure, issues of indoor air quality and material
67
selection are important to the cause of sustainability. However, the largest single
contributor to global climate change caused by architecture is energy use over the
life of the building. It is one thing to design buildings with more efficient energy use
in mind, but actual performance is a very different matter, and the only way to
accurately measure energy use is through post-occupancy evaluation (POE). Only
by measuring energy use once buildings are fully operational can the effectiveness of
the sustainable design strategies they employ be evaluated.
8.2: The Value of Qualitative Post-Occupancy Factors
While numeric data is essential to an understanding of the success or failure
of sustainable design features, it is also vital to acknowledge the less measurable
aspects of post-occupancy evaluation. Some factors of human comfort can be
quantified, such as comfortable temperature and humidity levels, but even then
individual comfort can be so wide-ranging as to be unquantifiable. Architecture,
though, is about more than just providing shelter, and it is also about more than just
quantifiable measures of comfort. It is difficult, if not impossible, to define what it is
that allows buildings to cause such unquantifiable responses as joy for their
inhabitants, and yet this is a vital factor in the success or failure of architecture. As
Le Corbusier suggested, it is the power to touch emotions that sets architecture apart
from engineering. Despite Le Corbusier’s emphasis on the primacy of Architecture,
the emotional response to buildings may have more to do with Langer’s “ethnic
domain” concept, which involves memory and cultural cues. Whatever the source of
68
emotion in architecture, it is vital to remember that quantitative data is not the only
factor of building performance. Architecture must not lose sight of its more
ephemeral responsibilities.
8.3: Evaluating the Case Studies
Sustainability involves many measurable factors in various areas, but for the
purpose of the case studies presented below, the main focus will be on energy use.
While all factors of sustainable design are important, long term energy use has the
largest impact on greenhouse gas emissions and climate change. The materials in a
building, for example, are only made once in most cases, whereas the building itself
could potentially consume energy for hundreds of years. In these case studies the
unit of comparison for energy use will be kBtu/sq ft/year, a unit that accounts for
both differences in building area and seasonal climate extremes. Even so, it is
important to consider that different building types in different climate zones will
have different energy use requirements and expectations.
In addition to the quantitative data presented, each case study will also be
evaluated in relation to the three factors of a sustainable aesthetic, as defined in the
previous chapter. To summarize, a sustainable aesthetic must:
• represent a practical architectural philosophy
• use sustainability as a concept generator
• create universally specific solutions to local site forces
69
As discussed in Chapter Seven, in addition to resulting in an aesthetic that is truly
sustainable, it is expected that these principles will also result in architecture that
provides well-being and joy. These three factors will be considered in determining
whether or not the case studies presented are examples of a sustainable aesthetic
philosophy, and whether that aesthetic approach coincides with the quantitative
performance data.
8.3: Case Study: Seattle Public Library – Form over Efficiency
The new Central Library in Seattle, Washington is a much celebrated
building, not least of which for its achievement of a LEED Silver rating. However,
despite the LEED rating, the Seattle Central Library may not be the best example of
sustainable design. Opened in 2004, the new Central Library replaced a 1960s
building that was inadequate to house the library’s vast collections or to serve the
growing population in Seattle. The design of the new building, by Dutch firm OMA
(headed by Rem Koolhaas), was intended as a reinvention of the library typology,
addressing the complexity of collecting emerging new media, as well as the
necessary flexibility to accommodate a growing (or shrinking) collection of printed
material.
66
By virtue of its location in Seattle, the building was also required to meet
very stringent local energy and sustainability regulations that far exceed national
standards. As a result, the new building is both architecturally innovative and energy

66
“Office for Metropolitan Architecture” 2008
70
conscious. Even so, the Seattle Central Library is not representative of a sustainable
aesthetic.

Figure 11: Sectional diagram of program organization ("Office for Metropolitan Architecture" 2008)

In terms of quantitative results, it has been rumored that the new Central
Library does not live up to the highest standards of efficiency. In reality, the post-
occupancy data for the new building has shown the energy saving measures to be
relatively successful. The City of Seattle sustainable building policy requires that all
public buildings over 5000 square feet achieve a LEED Silver rating or better.
67
In
order to receive LEED points for energy efficiency buildings are required to be
designed to outperform a certain baseline level based on ASHRAE (American
Society of Heating, Refrigerating and Air-Conditioning Engineers) standards.
ASHRAE standards are different for each building based on size, occupancy and

67
“Seattle.gov” 2008
71
other factors. According to a 2006 report, the Seattle Central Library’s baseline
standard was 129 kBtu/sq ft/year, and in order to achieve the necessary LEED points
the building was designed to a level of 86 kBtu/sq ft/year.
68
These energy use levels
are not especially conservative, but are representative of the unique nature and
occupancy of a library building. After one year of occupancy though, the Central
Library building was performing much better than even the design standard, only
consuming 50 kBtu/sq ft/year.
69
Clearly the quantitative energy use data would
suggest that the energy saving design strategies and mechanical systems are working
far better than was originally expected for this building. However, taking a broader
view, the actual energy use values may not be as impressive as this single case data
suggests. While the actual energy use exceeds the ASHRAE baseline by over 60%,
it only exceeds the City of Seattle’s code by ten percent.
70
In comparison, the
recently completed library at the University of California at Merced (a similar
building type, although only about one third the size) is only expected to require 28
kBtu/sq ft/year (based on simulations).
71
It is difficult to compare energy use
between two buildings without more detailed information, but this comparison would
suggest that the performance of the Seattle Public Library could have been even
better.

68
Turner 2006
69
Ibid
70
“The Seattle Public Library” 2008
71
Boehland, January 2008
72
Perhaps the missing link that is hindering the Seattle Central Library from
performing even better is the lack of integration of sustainability in the conceptual
design process. Based on the three factors discussed in Chapter Seven, this building
would definitely not fit into a model of a sustainable aesthetic. It could be argued
that the Central Library does meet the requirement of ascribing to a practical
sustainable philosophy (the first factor of a sustainable aesthetic) in its adherence to
the City of Seattle’s requirement that the building be LEED Silver certified, but since
this factor was not a driving force in the design it is a difficult argument to make. As
mentioned, the new Central Library was intended as a reinvention of the typology,
and this idea is what drove the conceptual development of the building, thereby
negating the use of sustainability as a concept driver (the second factor). At a recent
symposium of engineers from the global firm Arup, Brian McKinley, who was one
of the leading mechanical consultants on the Seattle Library, suggested that the form
of the building was actually derived from site specific approaches to sustainable
practice.
72
Unfortunately, rather than illustrating this claim, the images and diagrams
shown suggested quite the opposite; that instead of responding to local forces, the
form dictated how differing strategies would be applied to conserve energy. Instead
of revealing a holistic approach to sustainable design, McKinley’s presentation
demonstrated the myriad solutions required to resolve the extreme form of the
building with the strict energy requirements in Seattle.
73
While form is not always

72
Arup 2008
73
Ibid
73
the best indicator of sustainable intentions, in this particular case it is clear that there
is no consideration for solar orientation. The argument could be made that this
represents a certain level of locally specific response, in accordance with the third
factor of a sustainable aesthetic, but that argument is weak at best. It seems that
requiring triple-paned and fritted glass to prevent excessive heat gains suggests an
overall design that is generally unresponsive to the local conditions of the site. It
might have been much more sustainable to limit the use of glass on the building,
placing it only where it was actually the most advantageous material.

Figure 12: Seattle Central Library (Douglass, 2007)

To be sure, the Seattle Central Library is a compelling example of
architectural ingenuity, and the surprising performance data are a testament to the
74
success of government mandated sustainability practices like those in place in Seattle
and the solutions that Arup applied to the architect’s concept. Unfortunately, the
design lacks any coherent approach to sustainability, and therefore fails to meet the
requirements of a sustainable aesthetic. The sustainable features of the Seattle
Central Library are forced to take a back seat to the symbolic design concept and the
resulting form of the building. Indeed, visitors to the library would probably have no
idea of its sustainable merits if not for the conveniently located placards throughout
the building. While the data emphasizes the library’s sustainable qualities, the
building form tells a different story.

Figure 13: Extensive glazing allows ample natural light but can also result in excessive heat gain. The
image also shows the lack of coordination between daylighting and electric lighting (Douglass 2008)
75
8.4: Case Study: Hawaii Gateway Energy Center – The Power of an
Integrated Design Process
The Hawaii Gateway Energy Center at the Natural Energy Laboratory of
Hawaii (NELHA) presents a striking counterpoint to the Seattle Central Library.
While only about one tenth the size of the Seattle Library, and located in a vastly
different climate, the Gateway Center is none the less a remarkable example of the
power of the synergy of design and sustainable practice. Intended as a “gateway”
and visitors center to the Hawaii Ocean Science and Technology Research Park, the
3600 square foot building consists of a conference and educational center as well as
administrative space. Designed by Ferraro Choi and Associates, the brief for the
building called for cutting-edge technology, zero-net energy use, and an emphasis on
new and alternative energy sources, as a reflection of the work that NELHA does.
74

Figure 14: Hawaii Gateway Energy Center (“Ferraro Choi and Associates” 2008)

74
“Ferraro Choi and Associates” 2008
76
In order to meet these rigorous requirements, the building design
incorporated multiple energy saving strategies, earning a LEED Platinum rating (the
highest rating available). The most obvious strategy is the use of photovoltaic
panels, arranged on large space trusses, angled to capture solar energy. When the
building was published in GreenSource Magazine in July of 2007, the 20kW array
was providing 110 percent of the electricity needs of the building.
75
In addition to
solar power, the building utilizes a unique passive ventilation system that negates the
need for any mechanical systems. Thermal chimneys integrated into the copper roof,
creating a natural stack-effect flow, drawing in cold air that is passed through coils of
cold seawater which is pumped up from 3000 feet below the surface.
76
These two
systems are combined with more active features like occupancy and daylight sensors
to reduce energy consumption for electric lighting, which is never used during the
day, thanks to ample natural light.
77
All in all, the building expects that purchased
energy usage will be only 3.5 kBtu/sq ft/year (extrapolated from data from the first
five months of occupancy).
78
While it is not surprising that a building with such
intensive solar energy generation and no mechanical ventilation (aside from the
pumps circulating the seawater) would have such low purchased energy use, the
actual numbers are still remarkably low. In comparison, the Water and Life
Museums, in Hemet, California, which uses a 540kW array (a higher kW/sq ft ratio

75
Roberts, July 2007
76
Ibid
77
Ibid
78
Ibid
77
than the Gateway Center), still expects to have to purchase 20.3 kBtu/sq ft/year. The
Hawaii Gateway Energy Center has clearly achieved a feat of energy efficiency.

Figure 15: Extensive photovoltaic arrays generate electricity for the Gateway Center while also
shading windows from direct solar gain (“G Living” 2008)

What makes the Gateway Center even more successful is its expression of a
sustainable aesthetic philosophy. In terms of the three factors of a sustainable
aesthetic, the Gateway Center may be the ideal example. In accordance with the
desires of the client, the building proudly shows off its energy saving features. The
client’s demand for a sustainable project that showcased new and alternative energy
sources represents a practical approach to architecture, in line with the first factor.
Because of this demand, sustainability was the major driver of the design process.
As the Ferraro Choi website describes, “The architectural approach for the HGEC
project was to design a building which took advantage of all available sources of
natural energy,”
79
clearly ascribing to the principle that a sustainable aesthetic should
be a concept generator. The stated goal of utilizing all available resources

79
“Ferraro Choi and Associates” 2008
78
automatically implies specificity to the site, the final factor of a sustainable aesthetic.
Both the solar arrays and the thermal chimneys are optimized for the natural forces
on the site, with access to the southern sun, and the prevailing southern winds;
glazing and overhangs are designed to allow natural lighting at all times during the
day; and the passive cooling systems utilize the thermal power of the ocean at the
project’s front door.
80
The Gateway Center represents an extreme example of
sustainable theory influencing built form, in sharp contrast to the Seattle Central
Library, but it is important to note that expression of sustainable design is about
more than just large expanses of photovoltaics, and that each building must express
its sustainability in ways that are most appropriate to each unique site.

Figure 16: Diagram of HGEC's Passive Ventilation System (“Ferraro Choi and Associates” 2008)

80
Roberts, July 2007
79
Like all buildings, the Gateway Center is still experiencing some growing
pains. On the rare occasion of northerly winds, the photovoltaic arrays direct the
wind down the thermal chimneys, negating their effectiveness.
81
On the other hand,
on the average day, the ventilation system works so well that some people are too
cold.
82
In spite of these relatively minor problems, the Hawaii Gateway Energy
Center clearly illustrates the power of a sustainable design concept which takes
advantage of natural forces. The building clearly demonstrates its commitment to
alternative energy, and the performance data definitely substantiates this approach.
Not only does the performance data support the Center’s claims to sustainability, but
building form is also a clear expression of a sustainable aesthetic philosophy, where
an awareness of site forces, and environmentally conscious techniques provided the
inspiration for the design process.
8.5: The HOK Example – Lessons Learned
The minor glitches experienced at the Hawaii Gateway Energy Center are
just a small example of a much larger problem: no matter how good the design
simulations and computer models are, the actual building does not always perform as
expected. While examples like the Seattle Central Library, which performs much
better than expected, are encouraging, they are certainly not the norm. This problem
is clearly expressed in the case studies presented in The HOK Guidebook to

81
Roberts, July 2007
82
Ibid
80
Sustainable Design. Since its founding in 1955, global architectural firm HOK
(Hellmuth, Obata + Kassabaum, Inc.) has been committed to “making a measurable
difference in the world,” an undertaking that focuses heavily on sustainability.
83
As
part of this commitment, the firm published The HOK Guidebook to Sustainable
Design in 2000. The second edition, published in 2006, contains 18 case studies of
HOK designed sustainable projects, six of which contain post-occupancy energy use
data. In all six cases some aspect of actual energy use was greater than predicted.
84

In some cases, overall energy use was higher than expected while electricity demand
was lower than expected, and in other cases the opposite was true.
85
This is not
necessarily a reflection of the effectiveness of HOK’s design strategies, but rather a
statement of the unpredictability of the building industry and the realities of actual
building use. Equipment may be installed incorrectly, mechanical systems may fail,
and occupancy patterns may change, all of which can affect building performance in
ways that are difficult to measure in computer simulations. And, of course, in some
cases, sustainable and energy efficient strategies do not perform as well as expected,
even when everything else goes right. It is vital to the progress of sustainable
architecture that these uncertainties in the design process are understood. As a
reflection of that, each of the completed projects documented in the The HOK
Guidebook includes a section called “Lessons Learned,” where the successes or

83
“HOK: ideas work” 2008
84
Medler, Odell and Lazarus 2006
85
Ibid
81
failures of each project are discussed in order better inform future projects.
86
It is
this sort of inquisitive approach that is critical to the development of sustainable
architecture. Only through experimentation and measurement can truly effective
strategies be established.
8.6: The Challenge of Post-Occupancy Data Collection
The importance of the “Lessons Learned” example presents another
challenge in the development of sustainable architecture. The only way to truly
measure the success or failure of sustainable strategies is in a post-occupancy
context. Only when a building is fully occupied and operational can it be effectively
assessed. As previously discussed, this is one of the major problems with the LEED
system, which bases its ratings only on the design and construction process. There
are some systems, such as the Energy Passport program in Germany, which include
mandatory post-occupancy measurements to validate energy efficiency, but such
programs are not yet widespread. Post-occupancy evaluation presents its own set of
complex problems though. Because of the nature of building use and climate
patterns, it generally takes at least a year to compile any reliable post-occupancy
data. In the meantime, owners and architects are forced to wait and see whether their
investment has paid off, a frightening thought in an industry where standards are
changing almost constantly. And yet, post-occupancy evaluations are critical to
understanding the relative value of sustainable design practices. In order to create a

86
Mendler, Odell and Lazarus 2006
82
more effective sustainable design industry, post-occupancy data collection and
evaluation must become the norm instead of the exception.
83
Chapter 9: Conclusion
It has become increasingly clear in recent years that global climate change is
a major issue for the future and that architecture has a substantial impact on that
climate change. While advances have been made in terms of sustainable practices in
the building industry, architecture is still lacking a cohesive and holistic approach.
The current paradigm is failing. In order to maintain the progress of environmentally
conscious architecture, the architecture profession needs a new approach to
sustainability. Architecture needs a sustainable aesthetic, a coherent philosophy that
can guide each project from beginning to end.
9.1: The Process of Establishing a Sustainable Aesthetic
Establishing a sustainable aesthetic involves many varied aspects. It is, first
of all, necessary to understand the historical context of aesthetic and architectural
theory as well as sustainable design theory and practice in order to gain a full
understanding of the meaning of “architecture” and “sustainability.” Furthermore, it
is essential to consider the failures of the current design paradigm, both in terms of
sustainability and in architecture as a whole. The sustainable design standards
currently in practice in the United States emphasize the wrong factors, and the
architecture industry is burdened by a preference for formal exploration that is
generally lacking in social relevance. Of course, it is also important to acknowledge
the complexity of architecture in the twenty-first century global context. Urban
84
populations are constantly expanding and diverse climate conditions represent a wide
variety of unique challenges, especially for sustainable architecture. Finally, it is
imperative to understand that sustainability must be more than just the latest trend.
Sustainable architecture has to be more than just the fashionable or profitable thing
to do, it must be the right thing to do. Architects, especially in developed nations
have a moral and social obligation to address the challenges of global climate change
that are created by the built environment.
9.2: Defining a Sustainable Aesthetic
In Chapter Seven, three factors of a sustainable aesthetic were established,
resulting from the process outlined above. First and foremost, a sustainable aesthetic
must be a practical philosophy. It must be able to produce real physical architecture
to have any effectiveness. Secondly, in order to bring together all the disparate
aspects of architectural design, a sustainable aesthetic must be an organizing concept
generator. By using sustainability as a design concept generator, environmental
priorities inform all aspects of the design process. And finally, any singular aesthetic
must represent a universal approach, but sustainability requires solutions that are
uniquely specific to each situation. In order to reconcile these differences, a
sustainable aesthetic must represent universally specific solutions to the wide variety
of architectural problems.
85
9.3: The Necessity of Quantitative Factors
While the aesthetic factors just outlined represent an important new approach
to sustainable design, it is vital to consider quantitative performance factors as well.
As discussed in Chapter 8, architecture must make quantitative gains in order to
effectively combat climate change. The largest quantitative factor in architecture is
energy use, but there are also other important quantitative factors such as water
usage, indoor environmental quality, and recycled materials just to name a few.
These factors, and the many other aspects of environmentally conscious design, must
be considered as part of a sustainable aesthetic approach to architecture.
9.4: Reconciling the Aesthetic and the Quantitative
At first glance, aesthetic philosophy and quantitative performance seem to be
diametrically opposed concepts. However, when the aesthetic philosophy is
motivated by a responsibility to quantitative performance, the result can represent
both aesthetic quality and high performance. As suggested by the case studies
presented in Chapter 8, any building can be optimized to improve energy
performance, but when the design focuses on sustainability and energy savings from
the beginning the results can be extraordinary. The Seattle Central Library is
admirable in its energy use considering the building type and occupancy, but the lack
of emphasis on sustainability in the design process limits the potential for high
performance. The Hawaii Gateway Energy Center, on the other hand, prioritized
86
efficiency and alternative energy sources from the outset of the design process, and
the result is an iconic building that also has remarkable performance data. Obviously
these two examples represent extreme cases, and it is difficult to define exactly what
would make the Seattle Central Library more representative of a sustainable aesthetic
without a much more detailed understanding of the specific constraints of the site
and the program. Even so, these examples present a clear lesson. It is not good
enough to simply apply efficient materials and systems to any building and call it
“sustainable.” Sustainable practices must inform the design process from the
beginning in order to produce truly environmentally conscious results. And it only
seems natural that when sustainable strategies are prioritized throughout the life of
the project, the quantitative results will be far greater than if those same strategies are
only considered as stop-gap measures at the end of the design process. Sustainable
architecture requires quantitative performance data to validate the effectiveness of
the design strategies, and a sustainable aesthetic philosophy enhances building
performance by prioritizing environmental strategies throughout the design process.

Many questions still remain in the establishment of a sustainable aesthetic.
What will it look like? And how will people react? These are just a few of the
important factors that are still facing this new architectural paradigm. These
questions are entirely valid, and in time, the answers to these questions will be found.
But these subjects cannot be approached haphazardly. In order to approach these
87
topics, it is first necessary to establish a practical philosophy of exactly what a
sustainable aesthetic is based on, and only once these factors have been implemented
can the subjects of appearance, beauty and human reaction be considered.
With the gravity of the global climate change situation, it is clear that the
architecture industry must soon face the facts and change its ways. But it is not
enough to impose sustainable features on any design aesthetic. It is also not enough
to simply say that a building is sustainable. Only when the design and the
performance data support these claims can a building be truly sustainable. And a
first step in achieving that success is the implementation of a sustainable aesthetic for
architecture.
90
Chapter 10: Future Work
Developing a sustainable aesthetic architectural theory is not a singular event,
but rather a continuing process of experimentation and adjustment. As processes and
technologies change, so too will the results of such an aesthetic. Clearly, defining
the parameters of a sustainable aesthetic must be only the beginning of this
architectural movement.
10.1: Continuing the Discussion
Obviously the argument presented in this thesis represents just one point of
view on the development of a sustainable aesthetic philosophy. It is vital that this
discussion continues and that new points of view are presented. The principles and
ideas presented here are not meant to be a final definition, but rather a starting point
for debate, exploration and experimentation. In order for the new aesthetic
philosophy proposed to remain relevant it must be placed in cultural context and that
can only be achieved through further analysis, assessment and discussion.
10.2: Further Case Studies
Perhaps the most important factor in the continued development of a
sustainable aesthetic is further case studies. The study presented here only included
a few case studies, which is clearly not sufficient to establish broad patterns of
sustainable techniques. As was established, sustainable practices must be verified
91
with quantitative data. And the only way to get such quantitative data is through
more and continued post-occupancy case studies. The more data that is made
available the better informed architects will be in employing various sustainable
strategies.
10.3: Qualitative Post-Occupancy Evaluation (POE)
Studies have already shown that buildings that integrate sustainable factors
and practices can improve productivity and the general health of the occupants, but
other more qualitative impacts of sustainable architecture are more difficult to
measure. And yet, it is these ephemeral qualities of joy, livability and general
pleasure that dictate the success or failure of architecture in the end. It would seem
that buildings that respond to natural forces and rhythms would make for more
pleasant environments to live and work in. However, these factors must be further
studied and measured to validate these claims. The development of a sustainable
aesthetic is largely dependent on the success of performance related quantitative
data, but it is also important to recognize the impact of qualitative factors and how
they will impact the development of that aesthetic.
10.4: Encouraging Behavioral Modification
In a recent article in Metropolis Magazine architect Stephen Kieran of the
Philadelphia firm Kieran Timberlake discussed the unique behavioral modification
effect that the dashboard display of the Toyota Prius has, illustrating whether the car
92
is running on electricity or gas.
87
Kieran suggests that just as his car encourages him
to change his behavior to better the environmental impact, so too can architecture.
88

While Stephen Kieran and James Timberlake attempt to integrate such behavioral
modification techniques as expressing the water cycle on the site of the recently
completed Sidwell Friends School in Washington, DC,
89
the results of such strategies
are relatively unmeasured. Kieran and Timberlake have touched on a very important
factor in the advancement of sustainability: people cannot expect to continue all of
their current energy intensive habits, but rather, must also adjust to new and more
sustainable lifestyles. And if architects design buildings that encourage these
modifications, or at the very least accommodate them, it could have a significant
impact on the success of a sustainable aesthetic. But these strategies and techniques
must continue to be experimented with and tested in order to truly understand their
effectiveness.
10.5: Built (and Measured) Examples
One of the most important factors for future work is the development of
actual built examples that are designed using a sustainable aesthetic philosophy.
While it is useful to apply the principles of a sustainable aesthetic developed here to
existing buildings, the only way to truly gauge the effectiveness of the approach is
with buildings designed with this philosophy in mind from beginning to end. It

87
Chen, July/August 2007
88
Ibid
89
Ibid
93
seems only logical that buildings designed with sustainability in mind from the start
would result in successful performance data, but real buildings must be built, with
real measurements taken, to confirm these expectations. It would seem only logical
that any building that claims to be sustainable should be required to present the data
to support those claims. While quantitative factors are generally straightforward,
assessing whether or not a building was designed according to the sustainable
aesthetic philosophy defined here is a somewhat more complicated process. And
yet, sustainable approaches should be clearly apparent as reactions to prevailing site
conditions, and performance data should support and validate a sustainable aesthetic
approach to the design process.
10.6: Appearance and Aesthetic Reactions to Sustainability
Perhaps, the most significant factor in defining a sustainable aesthetic in its
entirety is an understanding of what that aesthetic will look like, and how it is
perceived. But aesthetic appreciation and aesthetic creation are two very different
things. And aesthetic appreciation can only be measured after a philosophy of
aesthetic creation is implemented. As a result, it may take time to truly and
completely understand the full implications of the sustainable aesthetic philosophy
outlined here. Furthermore, the very nature of understanding “what it looks like” is
inherently contradictory to the sustainable aesthetic philosophy outlined above,
which suggests that each solution must be uniquely specific to its problem. And yet,
it would seem that even the idea of “universal specificity” would have recognizable
94
characteristics. Possibly the most important factor of all is how this new aesthetic is
perceived. The success or failure of any aesthetic is heavily influenced by public
acceptance, and while any change is usually met with resistance, the general trend
towards all things green seems encouraging for this new sustainable aesthetic, in
whatever form it takes. This discussion only begins to touch on the complexity that
still remains in establishing a sustainable aesthetic.

These examples only scratch the surface of the work yet to be done in
developing a sustainable aesthetic. Rather than establishing a complete and final
approach to sustainable architecture, the study presented here is meant to serve as
only the beginning of a movement that must begin to take charge in the building
industry in order to combat the challenge of global climate change.
93
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Abstract (if available)

Abstract This thesis explores the process of defining an aesthetic philosophy of sustainable architecture. An argument is made for the justification of the need for a sustainable architectural aesthetic over the continuation of the current sustainability paradigm. The various factors that influence the development of a sustainable aesthetic are also discussed, including urban growth, varying climate conditions, and the moral and social obligation that sustainability represents. In the end, three principles of a sustainable aesthetic are established: that sustainability represents a practical philosophy, that sustainability serves as the concept generator in the design process, and that sustainable architecture is universally specific to the constraints of its site. Several case studies are also examined in relation to these principles as well as more quantitative evaluation factors.

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Asset Metadata

Creator Douglass, David Barrett (author)

Core Title Defining a sustainable aesthetic: a new paradigm for architecture

School School of Architecture

Degree Master of Building Science

Degree Program Building Science

Publication Date 04/09/2008

Defense Date 03/28/2008

Publisher University of Southern California (original), University of Southern California. Libraries (digital)

Tag aesthetics,Architecture,OAI-PMH Harvest,philosophy,sustainability

Language English

Advisor Schiler, Marc E. (committee chair), Bartelt, Kara (committee member), Knowles, Ralph (committee member)

Creator Email ddouglas@usc.edu

Permanent Link (DOI) https://doi.org/10.25549/usctheses-m1091

Unique identifier UC1151407

Identifier etd-Douglass-20080409 (filename),usctheses-m40 (legacy collection record id),usctheses-c127-52628 (legacy record id),usctheses-m1091 (legacy record id)

Legacy Identifier etd-Douglass-20080409.pdf

Dmrecord 52628

Document Type Thesis

Rights Douglass, David Barrett

Type texts

Source University of Southern California (contributing entity), University of Southern California Dissertations and Theses (collection)

Repository Name Libraries, University of Southern California

Repository Location Los Angeles, California

Repository Email cisadmin@lib.usc.edu