China's energy consumption in the building sector: A life cycle approach

Energy and Buildings

Volumn 94, Issue , 2015, Pages 240-251

  Zhang, Yan ^a   He, Chen Qi ^a   Tang, Bao Jun ^a   Wei, Yi Ming ^a  

^a BEIJING INSTITUTE OF TECHNOLOGY   (China)

Author keywords

Building energy consumption; Building energy efficiency; China; Life cycle approach

Indexed keywords

BUILDINGS; ENERGY CONSERVATION; ENERGY UTILIZATION;

BUILDING ENERGY CONSUMPTION; BUILDING ENERGY EFFICIENCY; CHINA; ENERGY EFFICIENCY IN BUILDINGS; LIFE CYCLE APPROACH; LIFE CYCLE PERSPECTIVES; RURAL RESIDENTIAL BUILDINGS; TOTAL ENERGY CONSUMPTION;

ENERGY EFFICIENCY;

EID: 84925679266     PISSN: 03787788     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.enbuild.2015.03.011     Document Type: Article

References (41)

1. UNEP Buildings and climate change Summary for Decision-Makers 2009 UNEP
2. International Energy Agency (IEA) Energy Balances of OECD/non-OECD Countries 2007 International Energy Agency (IEA)
3. J. Li Towards a low-carbon future in China's building sector - a review of energy and climate models forecast Energy Policy 36 5 2008 1736 1747
4. F. Fu, L. Pan, and L. Ma et al. A simplified method to estimate the energy-saving potentials of frequent construction and demolition process in China Energy 49 1 2013 316 322
5. F. Tu Situation and policy of building energy efficiency in China Housing Ind. 12 2006 29 32 (in Chinese)
6. Tsinghua University Buildings Energy Efficiency Research Center Annual Report on China Building Energy Efficiency 2009 China Architecture and Building Press Beijing (in Chinese)
7. Q. Wang A study on building energy consumption statistics and calculation in China Energy Conserv. Environ. Prot. 8 2007 9 10 (in Chinese)
8. W. Long Building energy consumption proportion and building energy saving target Energy China 10 2005 23 27 (in Chinese)
9. Ministry of Housing and Urban-Rural Development of China, Six ways to promote building energy efficiency of China, available at http://www.gov.cn/jrzg/2009-03/06/content-1252485.htm
10. P.C.F. Bekker A life-cycle approach in building Build. Environ. 17 1 1982 55 61
11. K. Adalberth Energy use during the life cycle of buildings: a method Build. Environ. 32 4 1997 317 320
12. 2 emission of office buildings in Japan Energy Build. 28 1 1998 33 41
13. R. Fay, G. Treloar, and U. Iyer-Raniga Life-cycle energy analysis of buildings: a case study Build. Res. Inf. 28 1 2000 31 41
14. C. Scheuer, G.A. Keoleian, and P. Reppe Life cycle energy and environmental performance of a new university building: modeling challenges and design implications Energy Build. 35 10 2003 1049 1064
15. T. Malmqvist, M. Glaumann, and S. Scarpellini et al. Life cycle assessment in buildings: the ENSLIC simplified method and guidelines Energy 36 4 2011 1900 1907
16. L.G. Swan, and V.I. Ugursal Modeling of end-use energy consumption in the residential sector: a review of modeling techniques Renewable Sustainable Energy Rev. 13 8 2009 1819 1835
17. L.D. Shorrock, and J.E. Dunster The physically-based model BREHOMES and its use in deriving scenarios for the energy use and carbon dioxide emissions of the UK housing stock Energy Policy 25 12 1997 1027 1037
18. L.K. Jones, and S.L. Harp Residential energy analysis using modified degree-day procedures Trans. ASAE 25 5 1982 1387 1390
19. B.E. Tonn, and D.L. White Residential electricity use, wood use, and indoor temperature: an econometric model Energy Syst. Policy 12 3 1989 151 165
20. M. Parti, and C. Parti The total and appliance-specific conditional demand for electricity in the household sector Bell J. Econ. 11 1 1980 309 321
21. D.J. Aigner, C. Sorooshian, and P. Kerwin Conditional demand analysis for estimating residential end-use load profiles Energy J. 5 3 1984 81 98
22. M. Aydinalp, V.I. Ugursal, and A.S. Fung Modeling of the appliance, lighting, and space-cooling energy consumptions in the residential sector using neural networks Appl. Energy 71 2 2002 87 110
23. G. Mihalakakou, M. Santamouris, and A. Tsangrassoulis On the energy consumption in residential buildings Energy Build. 34 7 2002 727 736
24. J. Reap, F. Roman, and S. Duncan et al. A survey of unresolved problems in life cycle assessment Int. J. Life Cycle Assess. 13 5 2008 374 388
25. J.R. Barton, D. Dalley, and V.S. Patel Life cycle assessment for waste management Waste Manage. 16 1 1996 35 50
26. A. Azapagic, and R. Clift Life cycle assessment and multiobjective optimisation J. Cleaner Prod. 7 2 1999 135 143
27. G. Rebitzer Integrating life cycle costing and life cycle assessment for managing costs and environmental impacts in supply chains Cost Management in Supply Chains 2002 Physica-Verlag HD 127 146
28. G. Rebitzer, T. Ekvall, and R. Frischknecht et al. Life cycle assessment: Part 1: Framework, goal and scope definition, inventory analysis, and applications Environ. Int. 30 5 2004 701 720
29. T. Ramesh, R. Prakash, and K.K. Shukla Life cycle energy analysis of buildings: an overview Energy Build. 42 10 2010 1592 1600
30. I.Z. Bribián, A.A. Usón, and S. Scarpellini Life cycle assessment in buildings: state-of-the-art and simplified LCA methodology as a complement for building certification Build. Environ. 44 12 2009 2510 2520
31. ISO Environmental management - life cycle assessment - principles and framework ISO 14040 1997 International Organization for Standardization
32. K.J. Eaton, and A. Amato A comparative life cycle assessment of steel and concrete framed office buildings J. Constr. Steel Res. 46 1-3 1998 286 287
33. S. Hellweg, and L.M. i Canals Emerging approaches, challenges and opportunities in life cycle assessment Science 344 6188 2014 1109 1113
34. A. Sharma, A. Saxena, and M. Sethi et al. Life cycle assessment of buildings: a review Renewable Sustainable Energy Rev. 15 1 2011 871 875
35. I.Z. Bribián, A.V. Capilla, and A.A. Usón Life cycle assessment of building materials: comparative analysis of energy and environmental impacts and evaluation of the eco-efficiency improvement potential Build. Environ. 46 5 2011 1133 1140
36. I. Sartori, and A.G. Hestnes Energy use in the life cycle of conventional and low-energy buildings: a review article Energy Build. 39 3 2007 249 257
37. J. Bastos, S.A. Batterman, and F. Freire Life-cycle energy and greenhouse gas analysis of three building types in a residential area in Lisbon Energy Build. 69 2014 344 353
38. M. Cellura, F. Guarino, and S. Longo et al. Energy life-cycle approach in Net zero energy buildings balance: operation and embodied energy of an Italian case study Energy Build. 72 2014 371 381
39. W. Zhang, S. Tan, and Y. Lei et al. Life cycle assessment of a single-family residential building in Canada: a case study Build. Simul. 7 4 2014 429 438
40. M.Y. Han, G.Q. Chen, and L. Shao et al. Embodied energy consumption of building construction engineering: case study in E-town, Beijing Energy Build. 64 2013 62 72
41. Y. Zhang, and J. Fei Discussion on the urgency of impelling building rubble recycles in China Shanxi Archit. 36 22 2010 352 353 (in Chinese)