A multidimensional model for green building assessment: A case study of a highest-rated project in Chongqing

•The inner-relationship of dimensions for the balanced Green Building assessment.•Multitarget-oriented guidelines for green buildings.•Support to the judicious decision on green technical measures.•The coefficient to test the degree of compliance to the standard. Green building is an inevitable tren...

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Veröffentlicht in:	Energy and buildings 2016-08, Vol.125, p.231-243
Hauptverfasser:	Li, Yongqiang, Yu, Wei, Li, Baizhan, Yao, Runming
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Sprache:	eng
Schlagworte:	Assessments Coefficient of variation Compliance coefficient Design analysis Design standards Economics Green building Green buildings Labelling Moment of inertia Multidimension Three dimensional
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container_title	Energy and buildings
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creator	Li, Yongqiang Yu, Wei Li, Baizhan Yao, Runming
description	•The inner-relationship of dimensions for the balanced Green Building assessment.•Multitarget-oriented guidelines for green buildings.•Support to the judicious decision on green technical measures.•The coefficient to test the degree of compliance to the standard. Green building is an inevitable trend in the construction industry which deeply affects the social development of the economy, environment and a series of industries. There is practical significance for the multidimensionally balanced development of green buildings. A model for multi-objective assessment of green building is developed under three dimensions: Objective, Professional and Time (OPT) according to the green building definition. The OPT coordinate system was built up based on the scoring centroid system of both the China Green Building Labelling scheme (GBL) and the Singapore Green Mark (GM) by the introduction of the Coefficient of Variation and Moment of Inertia. Both these frameworks are restructured based on a case study of a practical project in Chongqing which had achieved the highest GBL and GM awards. Results show that GBL distributes its scores more evenly while GM concentrates on energy saving with greater diversity in land supply and building operations (normalized coefficients of variation of 0.435 and 0.350). The project’s compliance coefficients are 1.27 and 0.31 under GBL and GM respectively indicating its higher degree of compliance with the GM framework. The developed model provides multitarget-oriented guidelines for green building design, assessment and standard development.
doi_str_mv	10.1016/j.enbuild.2016.04.055
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Green building is an inevitable trend in the construction industry which deeply affects the social development of the economy, environment and a series of industries. There is practical significance for the multidimensionally balanced development of green buildings. A model for multi-objective assessment of green building is developed under three dimensions: Objective, Professional and Time (OPT) according to the green building definition. The OPT coordinate system was built up based on the scoring centroid system of both the China Green Building Labelling scheme (GBL) and the Singapore Green Mark (GM) by the introduction of the Coefficient of Variation and Moment of Inertia. Both these frameworks are restructured based on a case study of a practical project in Chongqing which had achieved the highest GBL and GM awards. Results show that GBL distributes its scores more evenly while GM concentrates on energy saving with greater diversity in land supply and building operations (normalized coefficients of variation of 0.435 and 0.350). The project’s compliance coefficients are 1.27 and 0.31 under GBL and GM respectively indicating its higher degree of compliance with the GM framework. The developed model provides multitarget-oriented guidelines for green building design, assessment and standard development.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.enbuild.2016.04.055</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Assessments Coefficient of variation Compliance coefficient Design analysis Design standards Economics Green building Green buildings Labelling Moment of inertia Multidimension Three dimensional
title	A multidimensional model for green building assessment: A case study of a highest-rated project in Chongqing
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