Richard Levine

Richard Levine
Born September 11, 1939 (1939-09-11) (age 72)
New York City, New York, U.S.
Nationality United States
Fields Architect, Professor, Sustainability Pioneer
Institutions

Center for Sustainable Cities, http://www.centerforsustainablecities.com CSC Design Studio,

http://www.cscdesignstudio.com
Alma mater Rhode Island School of Design, Rensselaer Polytechnic Institute
Known for Raven Run Solar House
Hooker Building
Sustainable Area Budget
Influences Louis I Kahn, Aldo Van Eyck
Sustainable development portal
Environment portal
Ecology portal

Richard Steven (Dick) Levine is an American environmental architect, solar energy and sustainability pioneer, and professor at the University of Kentucky. He is one of the early solar energy innovators in the U.S., a holder of U.S. patents on structural systems and solar energy applications, and the architect of a number of award winning solar buildings including his widely published Raven Run Solar House (1974). Levine is co-director of the Center for Sustainable Cities at the University of Kentucky. His contributions to sustainable urban planning are in both the theory and practice of the sustainable city-region. He has over 150 publications on solar energy and sustainability research, conducted in Italy, Austria, China and the Middle East.

Contents

Biography

Richard Levine was born in Queens, New York. He attended Forest Hills High School. After spending a year in the chemical engineering program at the University of Rhode Island, Levine enrolled at the Rhode Island School of Design to study his true passion, Architecture. While a student at RISD, Levine invented the Coupled Pan Space Frame structural system, for which he later received a United States Patent. Levine holds a B.S.Arch from RISD (1962), and an M. Arch from Rensselaer Polytechnic Institute (1963).

Levine currently divides his life between international urban sustainability research projects through The Center for Sustainable Cities (see below), its European Union partner institutions, and private architectural practice as principal of the CSC Design Studio (see below).

The Solar Energy Movement

Levine has been a national and international advocate for solar architectural design, and was the Founding Chair of the Sustainability Division of the American Solar Energy Society (ASES). Levine's Raven Run Solar House (1974) was the first to combine passive solar building design and active solar systems with earth tubes, an attached greenhouse, superinsulation, “sundows,” and a patented air collection system. Recognized as being ahead of its time, the house continues to be published today.[1][2][3][4][5][6] His Hooker Office Building (1978) with its double glass walls with insulated aluminum louvers between them, has become the prototype for numerous energy conserving commercial buildings in Europe.[7][8]

Sustainability

Levine's academic work is notable in that he is concerned with the ways in which the form and process of architectural design can produce operational sustainability.[9][10][11] This scale of analysis is unusual for an architect, and even for an urban planner.[12] Levine's work has since encompassed the multi-scale nature of sustainability.

Center for Sustainable Cities

The Center for Sustainable Cities is an interdisciplinary academic and design think-tank co-founded by Richard Levine and Ernie Yanarella, a professor of Political Science at the University of Kentucky. The Center is housed in the College of Design. The Center supports research and projects both locally and internationally, developing both the theory and practice of the sustainable city-region. The Center for Sustainable Cities is closely associated with a partner European institution- Oikodrom: the Vienna Institute for Urban Sustainability, in Austria.[13]

Operational Sustainability

In developing the Operational Definition of Sustainability, Levine and his colleagues recognized the need for approaches to ecological balance that embrace local needs and work within the needs and signals of culture and natural resources, requiring feedback at a quantifiable and appropriate scale. It is the only Operational Definition of Sustainability in use today.[14]
Sustainability is a concept that has many definitions, the United Nations definition of sustainability is the most widely used. It defines sustainable development as: "development which meets the needs of the present without compromising the ability of future generations to meet their own needs".[15] Because sustainability is expected to achieve many things, the UN definition is not universally-accepted and has undergone various interpretations.[16][17][18][19][20] Sustainability has been called an essentially contested concept. What sustainability is, what its goals should be, and how these goals are to be achieved, is open to interpretation and manipulation.[21] As a result, international policy in sustainability has largely come to be a reactionary means by which unsustainability is mitigated.[22]

The Operational Definition of Sustainability is a guideline for a proactive approach to negotiating ecological, cultural, and civic balance, while providing for concrete measures of accountability that preclude a simple "greening" approach. Through years of interdisciplinary collaboration between ecologists, social scientists, and urban planners, the Center for Sustainable Cities has developed the only interdisciplinary operational definition of sustainability:


Sustainability is a local, informed, participatory, balance-seeking process, operating within its Sustainable Area Budget, exporting no harmful imbalances beyond its territory or into the future, in so doing opens spaces of opportunity and possibility.
-Levine, Dumreicher, Yanarella [23]


This definition has been recognized as a concrete basis for local sustainable development by negotiating resources within a Sustainable Area Budget (SAB)(see below), using the Sustainable City-As-A-Hill(see below) as its urban form. The Operational Definition provides a strong basis for both theoretical and operational integration with the emerging fields of: Ecological Economics, Industrial Ecology, Sustainability science, Stakeholder Analysis, Material Flow Analysis, Environmental Justice, Life Cycle Analysis, Complexity Science, Biomimicry, Social policy, Public Policy, Systems modeling, Ecology, and Ecological Design.[24][25][26][27][28][29][30][31][32][33][34][35][36]

Aalborg Charter

Richard Levine was the principal author of the Aalborg Charter, ratified at the First European Conference on Sustainable Cities and Towns, which took place in Aalborg, Denmark in 1994. <http://ec.europa.eu/environment/urban/pdf/aalborg_charter.pdf>. The charter is part of the United Nations Agenda 21 framework for the delivery of local sustainable development put forward in the United Nations Conference on Environment and Development (Earth Summit), held in Rio de Janeiro on June 14, 1992.[37] The program calls on local authorities to engage in Local Agenda 21 processes that take a holistic view of the sustainability process.[38]

Sustainable Area Budget

Levine's main contribution has been to unite the fields of sustainability, urban design, and sustainable development with a scale-based proposal integrating urban form with computational rigor. The Sustainable Area Budget (SAB) is a land-based aggregate from which a city-region can draw its resources and negotiate those resources on a regenerative basis.[14] The SAB is similar to the Ecological Footprint approach to computational sustainability, which allows an individual to calculate the impact of personal consumer decisions on the natural environment. Footprint approaches only provide information as to how an individual can decrease negative ecological effects.[39]

The SAB, in contrast, is an operational tool for negotiating balance. It offers far greater flexibility and political leverage than footprint approaches alone. This is because the SAB negotiates resources at the scale of the city-region according to its population, not at the scale of personal action from a pre-defined set of choices.[29][40][41] Integral to the SAB theory is a formal relationship between an agricultural countryside and a dense urbanistic human-scale city.[42]

The Sustainable City-As-A-Hill

The Sustainable City As A Hill has been in development since the early 1980s.[43][44][45][46][47] It is a comprehensive sustainable urban framework, an operational alternative to inherently unsustainable modern patterns of city construction and development. It is an urban model that achieves integrative design at an appropriate building scale and allows for the negotiation of sustainability within the boundaries of an appropriate regional scale (using the SAB).[48][49] The City-As-A-Hill preserves the civic character, and pedestrian scale of a traditional village, with all of the civic, residential, and commercial activities taking place on the outer surface of the city.

Inspired by the formal elements of medieval Italian Hilltowns, Levine developed a family of urban forms that respond to the human-scale social requirements of a city. Medieval Italian cities were cities upon a hill. Their metropolitan boundaries were walled off for defensive purposes, leading to an evolving language of dense urban forms and clear contextual restrictions on the limits of urban development. Levine's City-As-A-Hill takes the medieval model and carves out the interior, building a three dimensional structure of usable commercial and industrial space within a dense pedestrian city. This city is metabolically tied to a surrounding hinterland of agricultural and ecological resources. The management of these resources is negotiated within the Sustainable-Area-Budget, according to the aggregated fair earth share of its citizens.[50] The City-As-A-Hill has been modeled in a number of contexts: in Korea, Austria, and the Appalachian region of Kentucky.

Sustainability-Driven Architecture

Levine is the principal architect at the Center for Sustainable Cities Design Studio (CSC Design Studio), a full-service architectural and urban design firm that specializes in zero-energy building projects for public and private clients.[51] When designing at the building-scale, Levine's firm is one of a few architectural practices in the United States to employ the European Passive House Standard, which is the most rigorous energy standard for building design in the world.[52][53][54]
Levine has referred to his architectural work as "sustainability-driven," recognizing that the scale of the single building is inadequate to comprehensively address sustainability.[55] Nevertheless, buildings account for an average of 48% of energy consumption, more than any other sector.[56] This renders energy & carbon neutrality in architecture a powerful point of leverage for energy independence, environmental protection, and economic advantage.
Levine's work is notably antithetical to the typical response to addressing sustainability within the field of architecture. This approach calls for "greening" of existing building designs, pursuing individual cost-effective tweaks, or checklists of actions, within the conventions of an outdated and inefficient building industry.[57] Levine's approach has consistently been to avoid "picking the low-hanging fruit," (e.g. changing light bulbs & installing more efficient windows) in favor of considering the building as a whole system (e.g. constructing a super-efficient building envelope & providing for natural daylighting and the use of passive solar). Because of this integrated design system, Levine's designs require 90% less energy for climate control, and 75% less for electricity. When buildings are designed from such an efficient standard, remaining energy needs can be obtained by an affordable photovoltaic electricity generating array.[58]

The CSC Design Studio headquarters is itself a zero-net-energy building, with annual electricity consumption offset by a 5.25 Kw Photovoltaic array installed in 2009.[58]

Patents

Coupled Pan Space Frame[59] (CPSF):

Super-efficient multi-stage solar air collection system:

References

  1. ^ Levine, R. S. “Raven Run: Integration Toward Sustainability,” Space and Society, December 1983
  2. ^ “The Raven Run Solar House,” A + U (Architecture and Urbanism), February 1983, p. 101-105.
  3. ^ “Face to the Sun,” (Raven Run), Progressive Architecture, April 1981, Annual Energy Issue, p.142-145
  4. ^ Roaf, Sue., 2001, Ecohouse: A Design Guide, Oxford: Architectural Press, Reed Elsevier.
  5. ^ “Solar Architektur,” Wohnbau, February 1983, Cover and p. 8 & 9.
  6. ^ Levine, R. S. “Passive Systems” '78, ISES, American Section, p. 106-110, 1978
  7. ^ “Glass Under Glass” (Hooker Office Building), Progressive Architecture, April 1983, Annual Energy Issue, p. 82-85
  8. ^ “Progressive Architecture,” April 1980, Annual Energy Issue, Hooker Building
  9. ^ Levine, R. S. “It Takes a Village: A Scientific Design Process for Generating Sustainable Cities in China,” with Michael T. Hughes , Casey Ryan Mather and Ernest J. Yanarella – presented The 12th Annual International Sustainable Development Research Conference, Hong Kong, China, April 2006
  10. ^ Levine, R. S. “The Sustainable City Game: Systems Dynamics Modeling Toward a Democratic Urban Design Process,” with Michael T. Hughes, Ernest J. Yanarella, Casey Ryan Mather – presented at the CORP conference, Vienna, Austria
  11. ^ Levine, R. S. “Sustainable Scenario-Building: A Systems Dynamics Approach,” with Michael Hughes and Casey Ryan Mather – presented at the International Symposium on Sustainable Development Strategy for Chinese Rural Communities, Beijing, China, April 2005 and The Research Center for City and Region, (SASS) Shanghai Academy for Social Sciences, Shanghai, April 2005
  12. ^ Frenay, Robert “Chattanooga Turnaround,” Audubon Magazine, Jan.-Feb. 1996
  13. ^ www.oikodrom.org/
  14. ^ a b Levine, R. S. “Beyond Sustainability Indicators: The Sustainable Area Budget,” Regional Sustainable Development: Making Sustainable Development Visible: Indicators for Regional Sustainable Development,” Graz, Austria, November 2000
  15. ^ http://www.un-documents.net/ocf-02.htm
  16. ^ International Institute for Sustainable Development (2009). What is Sustainable Development?. Retrieved on: 2009-02-18.]
  17. ^ EurActiv (2004). "Sustainable Development: Introduction." Retrieved on: 2009-02-24
  18. ^ Kates, R., Parris, T. & Leiserowitz, A. (2005). "What is Sustainable Development?" Environment 47(3): 8–21. Retrieved on: 2009-04-14.
  19. ^ Levine, Richard S., and Ernest J. Yanarella. "Does Sustainable Development Lead to Sustainability?" Proceedings of the American Solar Energy Society. Austin, TX, meeting. Boulder: ASES, 1990.
  20. ^ Yanarella, E. & Bartilow, H. "Beyond environmental moralism and policy incrementalism in the global sustainability debate: case studies and an alternative framework" Sustainable Development 8(3) 123-134
  21. ^ Jacobs, M., “Sustainable Development as a Contested Concept“, pp.21-45 in Dobson, A., Fairness and Futurity: Essays on Environmental Sustainability and Social Justice, Oxford University Press, (Oxford), 2006.
  22. ^ Levine, R. S. “Does Sustainable Development Lead to Sustainability?,” with Ernest J. Yanarella, 15th National Passive Conference, March 1990, Austin, Texas
  23. ^ http://www.cscdesignstudio.com/korea.html
  24. ^ http://www.indigodev.com/Sustain.html
  25. ^ Levine, R. S. “The Sustainable City Game: Systems Dynamics Modeling Toward a Democratic Urban Design Process,” with Michael T. Hughes, Ernest J. Yanarella, Casey Ryan Mather – presented at the CORP conference, Vienna, Austria http://pubget.com/paper/17854975?title=Generating+sustainable+towns+from+Chinese+villages%3A+a+system+modeling+approach.
  26. ^ Lowe, Ernest "Sustainable New Towns and Industrial Ecology", in "Nature's services: societal dependence on natural ecosystems" Edited by Gretchen C. Daly, Island Press, 1997 (http://books.google.com/books?id=9xGTDgPZI50C&pg=PA312&lpg=PA312&dq=center+for+sustainable+cities+levine+yanarella&source=bl&ots=nO6FUGWrqI&sig=DDQlBSA7641CsGoNWGK1V_2RdJI&hl=en&ei=rZ0qS9DCFMyTnQexhO33CA&sa=X&oi=book_result&ct=result&resnum=9&ved=0CDQQ6AEwCDgU#v=onepage&q=center%20for%20sustainable%20cities%20levine%20yanarella&f=false)
  27. ^ Newman, Peter W. G. "Sustainability and cities: extending the metabolism model" Landscape and Urban Planning 44(1) 1999
  28. ^ Levine, R. S. “The Proto-Sustainable Chinese Village as Generator of the Future Chinese City,” with Michael Hughes, Casey Ryan Mather, Heidi Dumreicher, Lv Hongyi – presented at the XXII UIA World Congress: Grand Bazaar of ArchitectureS in Istanbul, Turkey, July 2005
  29. ^ a b Levine, R. S. “Cities and Regions: Co-Evolution Toward Sustainable Development,” with E. Yanarella and H. Dumreicher, at the Regions - Cornerstones for Sustainable Development Conference in Graz, Austria, October 1998
  30. ^ Levine, R. S. “What Does Sustainability Mean? - an Ecosystem approach to Urban Management,” Keynote Address, The European Conference of Cities and Towns Towards Sustainability, Aalborg, Denmark, May 1994.
  31. ^ Levine, R. S. “Sustainability and the Three Realms of Discourse,” 18th National Passive Solar Conference, Washington D.C., April 1993
  32. ^ Levine, R. S. “From Here to Sustainability: Montenero - a Gift from the Past to the Future,”19th National Passive Conference, ASES, San Jose, California, June 1994
  33. ^ Levine, R. S. “Engineering, Design and Sustainability,” EUROSOLAR '93, European Congress on Architecture and Solar Energy, May 1993, Florence, Italy
  34. ^ Levine, R. S. “A Strategy for Negotiating a Sustainable Future: Sustainable Village Implantations,” First International Conference on Global Integrated Village Environments, GlobalVillage ' 93, June 1993, Vienna, Austria
  35. ^ Levine, R. S. “Don’t Pick the Low-Lying Fruit: Sustainability from Pathway to Process,” 19th National Passive Conference, ASES, San Jose, California, June 1994
  36. ^ Dumreicher, H., Levine, R.S., Yanarella, E. "The Appropriate Scale for 'Low Energy': Theory and Practice at the Westbahnhof" in Architecture, city, environment: proceedings of PLEA 2000 : July 2000, pp 359-363 http://books.google.com/books?id=ee4XH1wFFFYC&printsec=frontcover#v=onepage&q=&f=false
  37. ^ http://www.un.org/esa/dsd/agenda21/
  38. ^ Levine, R. S. and Ernest J. Yanarella “A Complete Local Agenda 21 Process: The Appropriate Relationship of People, Design, and Science”, HDP-A Symposium, Human Dimensions Research in Austria and in Central European Countries, Graz, Austria, 2001.
  39. ^ McManus, Phil, & Haughton, Graham: "Planning with Ecological Footprints: a sympathetic critique of theory and practice" in Environment and Urbanization 18(1), 2006 [1]
  40. ^ Levine, R. S. “The Discipline of Sustainable City-Regions,” TIA 2000 Conference (Teaching in Architecture), Oxford University, Oxford England, Spring 2000
  41. ^ Levine, R. S. ‘The Sustainability Engine© and the City,” in Stadtplaene #6, 1/96, Vienna
  42. ^ Levine, R. S. “Time and Speed in the City”, Stadtplaene #22, April 2000
  43. ^ Levine, R. S. “Integrative Generation of Form,” Annual Regional ACSA Meeting, Columbus, OH, 1980.
  44. ^ “The Sustainable City,” interview with Anne Frye, Open Eye, Spring 1989.
  45. ^ Levine, R. S. “New Hope: An Energy Self Sustaining Community,” Final Grant Report to the Kentucky Energy Cabinet, May 1988.
  46. ^ Levine, R. S. “Restructuring the Medieval City,” Citta Viva, December 1987
  47. ^ Levine, R. S. “The Future Medieval City,” Space and Society, April–June, 1987.
  48. ^ Levine, R. S. “Generating Models of Urban Sustainability: Vienna’s Westbahnhof Sustainable Hilltown”, with H. Dumreicher, E. Yanarella and T. Radmard, book chapter in Achieving Sustainable Urban Form, Jenks, Burton and Williams ed. London:Routledge, Ltd. 2000
  49. ^ Levine, R. S. “The City-as-a-Hill,” at Urban Utopias: New Tools for the Renaissance of the City in Europe, European Conference, Sponsored by the European Commission and the Technical University of Berlin, Berlin, Germany, November, 1995.
  50. ^ Levine, R. S. “Design as the Operative Model for Generating Sustainable Cities,” Second International Congress on Energy, Environment and Technological Innovation, Rome, Italy, October 1992.
  51. ^ www.cscdesignstudio.com
  52. ^ http://www.passivhaustagung.de/Passive_House_E/passivehouse_definition.html
  53. ^ http://www.cepheus.de/eng/index.html
  54. ^ http://www.passivhaus-vauban.de/passivhaus.en.html
  55. ^ Levine, R. S. “The Appropriate Scale for “Low Energy”: Theory and Practice at the Westbahnhof,” PLEA (Passive and Low Energy Architecture) Conference, Cambridge University, Cambridge
  56. ^ http://architecture2030.org/current_situation/building_sector.html
  57. ^ http://www.treehugger.com/files/2009/03/the-four-sins-of-leedwashing.php
  58. ^ a b http://www.chevychaser.com/Articles-c-2009-09-29-89718.113117_Greening_at_Home.html
  59. ^ Levine, R. S. "The Coupled Pan Space Frame, an Integrated Building System for Hospitals and other Complex Buildings", 1971: XPRESS Press.

External links