Life cycle design and prefabrication in buildings: A review and case studies in Hong Kong

1987

Jaillon, 2009, Quantifying the waste reduction potential of using prefabrication in building construction in Hong Kong, Waste Manage., 29, 309, 10.1016/j.wasman.2008.02.015

Jaillon, 2008, Sustainable construction aspects of using prefabrication in dense urban environment: a Hong Kong case study, Constr. Manag. Econ., 26, 953, 10.1080/01446190802259043

Osmani, 2006, Architect and contractor attitudes to waste minimisation, Proc. Inst. Civ. Eng. Waste Resour. Manag., 2, 65, 10.1680/warm.2006.159.2.65

Poon, 2002

Schultmann, 2007, Energy-oriented deconstruction and recovery planning, Build. Res. Inf., 35, 602, 10.1080/09613210701431210

Addis, 2004

McDonough, 2002

Kibert, 2005

Kibert, 2008

Schultmann, 2005, Sustainable deconstruction of buildings, 148

Yeang, 2006

Kibert, 2003, Deconstruction: the start of a sustainable materials strategy for the built environment, 84

Crowther, 2005, The state of building deconstruction in Australia, 300

Crowther, 2005

te Dorsthorst, 2005, State of deconstruction in The Netherlands, 300

Kendall, 2000

Yashiro, 2003, The open building concept for an adaptable built environment, 50

Kibert, 2000, Deconstruction as an essential component of sustainable construction, 89

Brand, 1994

Habraken, 1972

Crowther, 2001

Sassi, 2008, Defining closed-loop material cycle construction, Build. Res. Inf., 36, 509, 10.1080/09613210801994208

Vambersky, 1994, Precast concrete in buildings today and in the future, Struct. Eng., 72, 237

Vambersky, 1998, Precast concrete ‘flat’ slabs in CD20 system

FIB, 2008

Charlson, 2008, Recycling and reuse of waste in the construction industry, Struct. Eng., 4, 32

Sarja, 1995, Modular systematics for industrialised building, 238, 216

Sarja, 1998

Richard, 2005, Looking for an optimal urban residential system?, Int. J. Constr. Manag., 5, 93

Richard, 2006, Industrial, flexible and demountable building systems: quality, economy and sustainability

Richard, 2007, A systems approach to generate integrated design solutions, 2584

Quah

Hendriks, 1999

Hendriks, 2000, Industrial, flexible and demountable (IFD) building technology: a key to sustainable construction

CIB, 2010

FIB, 2003

Sadafi, 2012, Adaptable industrial building system: construction industry perspective, J. Archit. Eng., 18, 140, 10.1061/(ASCE)AE.1943-5568.0000075

Damen Consultants, 1997, The market potential for industrialised, flexible and demountable building for the Dutch building industry

Gas

Okamoto, 2004, Design and construction of first skeleton-rent apartment in the private sector

Kumagai, 2002, Development and construction of durable housing — kodan type skeleton and infill housing (KSI housing) model project

Richard, 2007, Four keyboards to sustainable mass-customization in architecture & construction

CIRC, 2001, Constructing for excellence

Buildings Department, Joint practice note No.1, Green and innovative buildings, HKSARG, Hong Kong, 2001, 2011.

Buildings Department, Joint practice notes No.2, Second package of incentives to promote green and innovative building, HKSARG, Hong Kong, 2002, 2011.

BEAM Society, 2009, BEAM Plus for new buildings

Buildings Department, 2003

Jaillon, 2009

Fong, 2004, Building distinction green design and construction in The Orchards, 69

Chan, 2002, Review of design and construction innovations in Hong Kong public housing, vol. 2, 687