This paper is a study of the photovoltaic (PV) systems in the buildings’ design of the Battery Park City (BPC) residential development, in New York. The BPC development is the first in the US to mandate, through the 2000 Battery Park City Authority (BPCA) guidelines, the use of PV as a renewable energy generation system in its individual buildings. The scope of this study is to show how PV is integrated in the BPC buildings’ design process, and what can be learned for future PV applications. The study draws directly from the design decision making sources, investigating on the concerns and suggestions of the BPCA director of sustainability and the BPC architects and PV installers. It attempts to contrast a theoretical approach that sees PV as a technology to domesticate in architecture and bring, through grounded research, PV industry closer to the architectural design process. The findings of the study suggest that while stringent environmental mandates help, in the short term, to kick-start the use of PV systems in buildings, it is the recognition of the PV’s primary role as energy provider, its assimilation in the building industry, and its use in a less confining building program that allows for its evolution in architecture.
References
[1]
Thomas, R. Photovoltaic in Architecture; Spoon Press: New York, NY, USA, 2001.
[2]
Prasad, D.; Snow, M. Designing with Solar Power; The Images Publishing Group PTY Ltd.: Melbourne, Australia, 2006.
Krawietz, S. Building Integration of Photovoltaics: A Guideline for Practical Use; Springer: London, UK, 2011.
[5]
German Solar Energy Society (DGS). Planning and Installing Photovoltaic Systems: A Guide for Installers, Architects and Engineers; Earthscan: London, UK, 2012.
[6]
International Energy Agency Photovoltaic Power System (IEA-PVPS), IEA-PVPS Annual Report (2008–2011), IEA-PVPS, Fribourg, Switzerland, 2012, Available online:http://www.iea-pvps.org/index.php?id=6(accessed on 27 November 2012).
[7]
IEA-PVPS, IEA-PVPSTrends in Photovoltaic Applications: Survey Report of Selected IEA Countries between 1992 and 2011, IEA-PVPS, Fribourg, Switzerland, 2012, Available online:http://www.iea-pvps.org/index.php?id=32(accessed on 27 November 2012).
[8]
Oliver, M.; Jackson, T. Energy and economic evaluation of building-integrated photovoltaics. Energy 2001, 26, 431–439, doi:10.1016/S0360-5442(01)00009-3.
[9]
Kasahara, T.; Plastow, J. Added Values of Photovoltaic Power Systems. In Proceedings of 3rd World Conference on Photovoltaic Energy Conversion, Osaka, Japan, 11–18 May 2003.
[10]
IEA-PVPS, IEA-PVPS Potential for Building Integrated Photovoltaic, 2002, IEA-PVPS, Fribourg, Switzerland, 2002, Available online:http://www.iea-pvps.org/index.php?id=9&tx_damfetools_pi1[setCatList]=61-78(accessed on 27 November 2012).
[11]
Marsh, G. BIPV: Innovation puts spotlight on solar. Renewable Energy Focus 2008, 9, 62–67, doi:10.1016/S1471-0846(08)70096-9.
[12]
IEA-PVPS. IEA-PVPS Task 7. Photovoltaic Power Systems in the Built Environment. Available online: http://www.iea-pvps.org/index.php?id=53&no_cache=1&sword_list[]=integration (accessed on 27 November 2012).
[13]
Schoen, T.; Prasad, D.; Ruoss, D.; Eiffert, P.; S?rensen, H. Task 7 of the IEA PV Power Systems Program—Achievements and Outlook. In Proceedings of the 17th European Photovoltaic Solar Energy Conference, Munich, Germany, 22–26 October 2001.
[14]
IEA-PVPS. IEA-PVPS Task 10. Urban Scale Photovoltaic Applications. Available online: http://www.iea-pvps.org/index.php?id=46&no_cache=1&sword_list[]=integration (accessed on 27 November 2012).
[15]
Gaiddin, B.; Kaan, H.; Munro, D. Photovoltaics in the Urban Environment; Earthscan: London, UK, 2009.
[16]
Kaan, H.; Reijenga, T. Photovoltaic in an architectural context. Prog. Photovolt. Res. Appl. 2004, 12, 395–408, doi:10.1002/pip.554.
[17]
Bahaj, A.S.; James, M.F.; Jentsch, M.F. Photovoltaics: Added value of architectural integration. Proc. ICE Energy 2007, 160, 59–69, doi:10.1680/ener.2007.160.2.59.
[18]
Kaplan, S. Battery Park City Authority: New York, NY, USA, 2007.
[19]
Battery Park City Authority (BPCA) Homepage. Available online: http://www.batteryparkcity.org/ (accessed on 20 April 2013).
[20]
BPCA. Hugh L. Carey Battery Park City Authority Residential Environmental Guidelines; BPCA: New York, NY, USA, 2005.
[21]
U.S. Green Building Council (USGBC). LEED Green Building Rating Systems. Available online: http://www.usgbc.org/DisplayPage.aspx?CMSPageID=222 (accessed on 27 November 2012).
[22]
Kaplan, S. Battery Park City Authority: New York, NY, USA, 2009.
[23]
Pereira, A. AltPower: New York, NY, USA, 2009.
[24]
Hess, D. Pelli Clarke Pelli Architects: New York, NY, USA, 2009.
[25]
Kearns, R. Handel Architects: New York, NY, USA, 2009.
[26]
McCormack, B. EE&K Architects: New York, NY, USA, 2009.
[27]
Srivastava, B. Ismael Leyva Architects: New York, NY, USA, 2009.
[28]
Medio, S. Photovoltaic Design Integration at Battery Park City, New York. In Proceedings of Sustainable Architecture and Urban Development Conference (SAUDI 2010), Amman, Jordan, 12–14 July 2010; Available online: http://eprints.lincoln.ac.uk/3077/ (accessed on 20 April 2013).
[29]
Perkins Eastman and Ehrenkrantz Eckstut & Kuhn Architects (EE&K) Homepage. Available online: http://www.eekarchitects.com/portfolio/16-residential/9-liberty-green-and-liberty-luxe (accessed on 20 April 2013).
[30]
AltPower Homepage. Available online: http://www.altpower.com/home.php (accessed on 23 April 2013).
