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Ding, G and Forsythe, P J (2013) Sustainable construction: life cycle energy analysis of construction on sloping sites for residential buildings. Construction Management and Economics, 31(03), 254-65.

Hertin, J, Berkhout, F, Gann, D M and Barlow, J (2003) Climate change and the UK house building sector: perceptions, impacts and adaptive capacity. Building Research & Information, 31(03), 278–90.

Larrson, N K (2003) Adapting to climate change in Canada. Building Research & Information, 31(03), 231–9.

Lisø, K R, Aandahl, G, Eriksen, S and Alfsen, K H (2003) Preparing for climate change impacts in Norway's built environment. Building Research & Information, 31(03), 200–9.

Lucko, G (2013) Supporting financial decision-making based on time value of money with singularity functions in cash flow models. Construction Management and Economics, 31(03), 238-53.

Mills, E (2003) Climate change, insurance and the buildings sector: technological synergisms between adaptation and migration. Building Research & Information, 31(03), 257–77.

• Type: Journal Article
• Keywords: buildings; climate change;energy efficiency; extreme weather; insurance; risk management
• ISBN/ISSN: 0961-3218
• URL: http://taylorandfrancis.metapress.com/link.asp?id=r0prq9bb95b3n39u
• Abstract:
  Examining the intersection of risk analysis and sustainable energy strategies reveals numerous examples of energy-efficient and renewable energy technologies that offer insurance loss-prevention benefits. The growing threat of climate change provides an added motivation for the risk community to understand better this area of opportunity. While analyses of climate change mitigation typically focus on the emissions-reduction characteristics of sustainable energy technologies, less often recognised are a host of synergistic ways in which these technologies also offer adaptation benefits, e.g. making buildings more resilient to natural disasters. While there is already some relevant activity, there remain various barriers to expanding these efforts significantly. Achieving successful integration of sustainable energy considerations with risk-management objectives requires a more proactive orientation, and coordination among diverse actors and industry groups.

Park, A and Chang, C-Y (2013) Impacts of construction events on the project equity value of the Channel Tunnel project. Construction Management and Economics, 31(03), 223-37.

Plessis, C d, Irurah, D K and Scholes, R J (2003) The built environment and climate change in South Africa. Building Research & Information, 31(03), 240–56.

Sanders, C H and Phillipson, M C (2003) UK adaptation strategy and technical measures: the impacts of climate change on buildings. Building Research & Information, 31(03), 210–21.

Shimoda, Y (2003) Adaptation measures for climate change and the urban heat island in Japan's built environment. Building Research & Information, 31(03), 222–30.

Steemers, K (2003) Towards a research agenda for adapting to climate change. Building Research & Information, 31(03), 291–301.

Van Reedt Dortland, M, Voordijk, H and Dewulf, G (2013) Real options in project coalitions in Dutch health care: two case studies of construction projects. Construction Management and Economics, 31(03), 266-86.

Zhang, M and Fang, D (2013) A cognitive analysis of why Chinese scaffolders do not use safety harnesses in construction. Construction Management and Economics, 31(03), 207-22.