Design Resilient Building Strategies in Face of Climate Change
Climate change confronts the built environment with
many new challenges in the form of more severe and frequent hydrometeorological
events. A series of strategies is proposed whereby the
various aspects of buildings and their sites can be made more resilient
to the effects of such events.
[1] Greden, L., Flexibilin in Building Design: A Real OptionsApproach and
aluation Methodol. 2005, Massachusetts Institute of Technology:
Cambridge, MA. p. pp. 5-16.20. 28.30 0.49. 62, 89, 215, 216.
[2] Lisa Coltart, E.D.P.S.a.C.C., Passive Design Toolkit - for Homes. BC
Hydro is a proud supporter of the Passive Design Toolkits for the City of
Vancouver. 2009.
[3] Council, H.C., Building Futures. 2013.
[4] Newman, J., et al., Building Resilience in Boston, “Best Practices” for
Climate Change Adaptation and Resilience for Existing Buildings. 2013,
Boston Society of Architects.
[5] Brown, R. and G. TJ., Morocimarie Landscape Design-Creating
Thamacos tort Wiley and soas New York. 1995.
[6] Sciences, N.I.o.B., Buildings and Infrastructure Protection Series: High
Performance Based Design for the Building Enclosure. A Resilience
Application Project Report. 2011, Homeland Security, Science and
Technology.
[7] Nikolopoulou, M., N. Baker, and K. Steemers, Thenmal comfort in
outdoor urban spaces: un-derstanding the human parameter. 2001, Solar
Energ.
[8] DoE, U.D.o.E.u., Green Federal Facilities rn Enero: Environmental, and
Economic Resource GuideforFederal Facility Managers and Designers.
2001.
[9] Baker, N. and K. Steemers, Daligh design of buildings. 2002, James &
James: London.
[10] Energy, U.S.D.o.e.a., passive solar Design horease comfort in homes by
ince orice of Building Technology, State passive solar. 2000,
designfeatins and Community Programs.
[11] Prasad, D. and E. Fox, University or Newcastle. 1996, BDP. p. p.34.
[12] Hoof, T. and B. van, BJE, The influence of wind direction on natural
ventilation: ap-plication to a large semi-enclosed stadium. 2009,
ithAmericas Conference on Wind engineering 22-26 June 2009: San
Juan, Puerto Rico.
[13] Fernandez, J., Design for change: Part 1: diversified lifetimes. 2003,
Architectural Research Quartery. p. p.169-182.
[14] slaughter, E., Design strategies to increase Building Flexibility. 2001,
Building Research and information. p. pp. 208-217.
[15] Blok, R. and F. van Herwijnen, Improvemnt of Buildings structural
Quality by New Technolo-gies. In Gerald Huber, Gianfranco de Matteis
HeikoTrumpf, Heli Koukari, Jean-Pierre Jasper, Louis Braganca,
Chrisian Schauer & Federico Mamani (Eds), HenbiltyofBaddingstrenra.
2005, AA Balkema Publishers: Leiden. p. p. 73-79.
[16] Finch, E., Flexibility as a design aspiration: the facilities management
perspective. 2009, Ambiente Construido.
[17] Israelsson., N. and B. Hansson, Factors influencing nexibility in
buildings structural survey. 2009. p. p.138-147.
[18] Till, J. and T. Schneider, Flexible housing aguide. 2006, The Bank of
Ideas on behalf of the Bureau of Design Research for the Housing
Corporation: London.
[19] York, C.o.N., High performance building guidelines. 1999, Dept. of
Design and Construction New York.
[20] IBEC, CASBEEforNew Construction, Technical Manual 2008.
[21] Moharram, L., A Method for Evaluating the Heribilin ofHoorplans in
Multi-storey Hous-ing Ph.D Thesis 1980, University of Pennsylvania.
[22] Girolamo, E.D., et al., Coastal Climate Resilience. 2013, Designing for
Flood Risk. a U.S. Department of Housing and Urban Development
(HUD) Sustainable Communities Regional Planning Grant to the New
York - Connecticut Sustain.
[23] Marilise Turnbull, C.L.S., Amy Hilleboe, Toward Resilience, A Guide
to Disaster Risk Reduction and Climate Change Adaptation. 2013,
Practical Action Publishing Ltd The Schumacher Centre Bourton on
Dunsmore: Rugby, Warwickshire
[24] Keung, J., Building planning and massing. published by The Centre for
Sustainable Buildings and Construction. 2010, Building and
Construction Authority.
[25] Shaw, R., M. Colley, and R. Connell, Climate change adaptation by
design: a guide for sustainable communities. . 2007, TCPA: London.
[26] A., B. and P. Hoare Lea, Rushlight Environmental Briefing Design
implications forzero carbon buildings. 2001.
[27] Ahsan, T., Passive Design Features for Energy-Etieient Residential
Buildings in Tropical Cli-mares: the conterr Dhaka. 2009,
Environmental Strategies Research Group-fms, KTH-Royal Institute of
Technology.American Institute of Architects.(2009) Fresh Air-Natmal
and Mechanical lentilation: Bangladesh. MA.
[28] Prom, H., et al., Passive and Hybridsolar Low Energ Buildings Design
Context. 1989, Intemational Energy Agency. p. p. 31-32,35-36.
[29] Wood, B., Towards innovative building maintenance. 2005, Sructural
Survey. p. pp.291.
[30] ABCB, Durability in Buildings.Guideline Document. . 2006, Australian
Building Codes Board.: Canberra.
[31] BIM., Lesson 1: Passive Design. 2011.
[32] Panagopoulos, T., Using microclimatic landscape design to create
thermal comfort and energy efficiency. 2008, Proceedings of the 1st
Conference on Eficient Buildings, Faculdade de Ciencias do Mar e do
Ambiente: University ofAlgarve. p. p. 4.
[33] Ross, K., S. G, and N. O, Climate Change and innovation in house
building: Designing out risk. 2007, IHS BRE Press on behalf of NHBC
Foundation.
[34] Lomas, K.J. and Y. Ji, Resilience of naturally ventilated buildings to
climate change: advanced natural ventilation and hospital wards. Energy
and Buildings, 2009. 41(6): p. 629-653.
[35] Perrings, C.A., Resilience and sustainable development. 2006,
Environment and Development Economics
[36] Cutler, L. and R. Kane, Post-occupancy Evaluation ofa Transformed
Nursing Home The First Four Green House settings 2009, Journal of
Housing for the Elderly. p. p.304-334
[37] Khalil, N. and H. Husin, Post-occupancy Evaluation towards Indoor
Environment Improve-ment in Malaysia's Office Buildings. 2009, Asian
Social Science. p. p 186-191.
[38] Wildavsky, A., Searching for Safety. 1991, Transaction: New Brunswick
NJ.
[39] Bruneau, M., S Chang, R Eguchi, G Lee, T O’Rourke, A Reinhorn, M
Shinozuka, K Tierney, W Wallace and D von Winterfelt, A framework
to quantitatively assess and enhance the seismic resilience of
communities. 2003, EERI Spectra Journal 19, no.4: 733–752. [40] H., N.F., et al., Community resilience as a metaphor, theory, set of
capacities, and strategy for disaster readiness 2008, American Journal of
Community Psychology
[41] Chew, M., et al., Maintainability ofwet areas of non-residential buildings
Smet. 2004: Sinay.
[42] Cole, B.Z., J. RJ-Robinson, and H. Dowlatabadi, Evaluating User
Experience in Green Buildings in Relation to Workplace Culture and
contat Foeiines. 2010.
[43] Thomas, L. and G. Baird, Post-occupancy evaluation of passive
downdrat evaporative cool-ing and air-conditioned buildings at Torrent
Research Centre. 2006: Ahmedabad, India
[44] Bowman, N., et al., Passive downdraught evaporative cooling. Indoor
and Built Environment, 2001. 9(5): p. 284-290.
[1] Greden, L., Flexibilin in Building Design: A Real OptionsApproach and
aluation Methodol. 2005, Massachusetts Institute of Technology:
Cambridge, MA. p. pp. 5-16.20. 28.30 0.49. 62, 89, 215, 216.
[2] Lisa Coltart, E.D.P.S.a.C.C., Passive Design Toolkit - for Homes. BC
Hydro is a proud supporter of the Passive Design Toolkits for the City of
Vancouver. 2009.
[3] Council, H.C., Building Futures. 2013.
[4] Newman, J., et al., Building Resilience in Boston, “Best Practices” for
Climate Change Adaptation and Resilience for Existing Buildings. 2013,
Boston Society of Architects.
[5] Brown, R. and G. TJ., Morocimarie Landscape Design-Creating
Thamacos tort Wiley and soas New York. 1995.
[6] Sciences, N.I.o.B., Buildings and Infrastructure Protection Series: High
Performance Based Design for the Building Enclosure. A Resilience
Application Project Report. 2011, Homeland Security, Science and
Technology.
[7] Nikolopoulou, M., N. Baker, and K. Steemers, Thenmal comfort in
outdoor urban spaces: un-derstanding the human parameter. 2001, Solar
Energ.
[8] DoE, U.D.o.E.u., Green Federal Facilities rn Enero: Environmental, and
Economic Resource GuideforFederal Facility Managers and Designers.
2001.
[9] Baker, N. and K. Steemers, Daligh design of buildings. 2002, James &
James: London.
[10] Energy, U.S.D.o.e.a., passive solar Design horease comfort in homes by
ince orice of Building Technology, State passive solar. 2000,
designfeatins and Community Programs.
[11] Prasad, D. and E. Fox, University or Newcastle. 1996, BDP. p. p.34.
[12] Hoof, T. and B. van, BJE, The influence of wind direction on natural
ventilation: ap-plication to a large semi-enclosed stadium. 2009,
ithAmericas Conference on Wind engineering 22-26 June 2009: San
Juan, Puerto Rico.
[13] Fernandez, J., Design for change: Part 1: diversified lifetimes. 2003,
Architectural Research Quartery. p. p.169-182.
[14] slaughter, E., Design strategies to increase Building Flexibility. 2001,
Building Research and information. p. pp. 208-217.
[15] Blok, R. and F. van Herwijnen, Improvemnt of Buildings structural
Quality by New Technolo-gies. In Gerald Huber, Gianfranco de Matteis
HeikoTrumpf, Heli Koukari, Jean-Pierre Jasper, Louis Braganca,
Chrisian Schauer & Federico Mamani (Eds), HenbiltyofBaddingstrenra.
2005, AA Balkema Publishers: Leiden. p. p. 73-79.
[16] Finch, E., Flexibility as a design aspiration: the facilities management
perspective. 2009, Ambiente Construido.
[17] Israelsson., N. and B. Hansson, Factors influencing nexibility in
buildings structural survey. 2009. p. p.138-147.
[18] Till, J. and T. Schneider, Flexible housing aguide. 2006, The Bank of
Ideas on behalf of the Bureau of Design Research for the Housing
Corporation: London.
[19] York, C.o.N., High performance building guidelines. 1999, Dept. of
Design and Construction New York.
[20] IBEC, CASBEEforNew Construction, Technical Manual 2008.
[21] Moharram, L., A Method for Evaluating the Heribilin ofHoorplans in
Multi-storey Hous-ing Ph.D Thesis 1980, University of Pennsylvania.
[22] Girolamo, E.D., et al., Coastal Climate Resilience. 2013, Designing for
Flood Risk. a U.S. Department of Housing and Urban Development
(HUD) Sustainable Communities Regional Planning Grant to the New
York - Connecticut Sustain.
[23] Marilise Turnbull, C.L.S., Amy Hilleboe, Toward Resilience, A Guide
to Disaster Risk Reduction and Climate Change Adaptation. 2013,
Practical Action Publishing Ltd The Schumacher Centre Bourton on
Dunsmore: Rugby, Warwickshire
[24] Keung, J., Building planning and massing. published by The Centre for
Sustainable Buildings and Construction. 2010, Building and
Construction Authority.
[25] Shaw, R., M. Colley, and R. Connell, Climate change adaptation by
design: a guide for sustainable communities. . 2007, TCPA: London.
[26] A., B. and P. Hoare Lea, Rushlight Environmental Briefing Design
implications forzero carbon buildings. 2001.
[27] Ahsan, T., Passive Design Features for Energy-Etieient Residential
Buildings in Tropical Cli-mares: the conterr Dhaka. 2009,
Environmental Strategies Research Group-fms, KTH-Royal Institute of
Technology.American Institute of Architects.(2009) Fresh Air-Natmal
and Mechanical lentilation: Bangladesh. MA.
[28] Prom, H., et al., Passive and Hybridsolar Low Energ Buildings Design
Context. 1989, Intemational Energy Agency. p. p. 31-32,35-36.
[29] Wood, B., Towards innovative building maintenance. 2005, Sructural
Survey. p. pp.291.
[30] ABCB, Durability in Buildings.Guideline Document. . 2006, Australian
Building Codes Board.: Canberra.
[31] BIM., Lesson 1: Passive Design. 2011.
[32] Panagopoulos, T., Using microclimatic landscape design to create
thermal comfort and energy efficiency. 2008, Proceedings of the 1st
Conference on Eficient Buildings, Faculdade de Ciencias do Mar e do
Ambiente: University ofAlgarve. p. p. 4.
[33] Ross, K., S. G, and N. O, Climate Change and innovation in house
building: Designing out risk. 2007, IHS BRE Press on behalf of NHBC
Foundation.
[34] Lomas, K.J. and Y. Ji, Resilience of naturally ventilated buildings to
climate change: advanced natural ventilation and hospital wards. Energy
and Buildings, 2009. 41(6): p. 629-653.
[35] Perrings, C.A., Resilience and sustainable development. 2006,
Environment and Development Economics
[36] Cutler, L. and R. Kane, Post-occupancy Evaluation ofa Transformed
Nursing Home The First Four Green House settings 2009, Journal of
Housing for the Elderly. p. p.304-334
[37] Khalil, N. and H. Husin, Post-occupancy Evaluation towards Indoor
Environment Improve-ment in Malaysia's Office Buildings. 2009, Asian
Social Science. p. p 186-191.
[38] Wildavsky, A., Searching for Safety. 1991, Transaction: New Brunswick
NJ.
[39] Bruneau, M., S Chang, R Eguchi, G Lee, T O’Rourke, A Reinhorn, M
Shinozuka, K Tierney, W Wallace and D von Winterfelt, A framework
to quantitatively assess and enhance the seismic resilience of
communities. 2003, EERI Spectra Journal 19, no.4: 733–752. [40] H., N.F., et al., Community resilience as a metaphor, theory, set of
capacities, and strategy for disaster readiness 2008, American Journal of
Community Psychology
[41] Chew, M., et al., Maintainability ofwet areas of non-residential buildings
Smet. 2004: Sinay.
[42] Cole, B.Z., J. RJ-Robinson, and H. Dowlatabadi, Evaluating User
Experience in Green Buildings in Relation to Workplace Culture and
contat Foeiines. 2010.
[43] Thomas, L. and G. Baird, Post-occupancy evaluation of passive
downdrat evaporative cool-ing and air-conditioned buildings at Torrent
Research Centre. 2006: Ahmedabad, India
[44] Bowman, N., et al., Passive downdraught evaporative cooling. Indoor
and Built Environment, 2001. 9(5): p. 284-290.
@article{"International Journal of Architectural, Civil and Construction Sciences:68829", author = "Yahya Alfraidi and Abdel Halim Boussabaine", title = "Design Resilient Building Strategies in Face of Climate Change", abstract = "Climate change confronts the built environment with
many new challenges in the form of more severe and frequent hydrometeorological
events. A series of strategies is proposed whereby the
various aspects of buildings and their sites can be made more resilient
to the effects of such events.
", keywords = "Design resilience building, resilience strategies,
climate change risks, design resilience aspects.", volume = "9", number = "1", pages = "23-6", }
