Title: System dynamics-based modelling and analysis of greening the construction industry supply chain
Authors: Balan Sundarakani; Arijit Sikdar; Sreejith Balasubramanian
Addresses: Faculty of Business and Management, University of Wollongong in Dubai, Knowledge Village, Dubai – 20183, UAE ' Faculty of Business and Management, University of Wollongong in Dubai, Knowledge Village, Dubai – 20183, UAE ' Faculty of Business and Management, University of Wollongong in Dubai, Knowledge Village, Dubai – 20183, UAE
Abstract: Increasing concern on global warming and corporate social responsibility have made environmental issues an area of importance to address for governments and businesses across the world. Among the Middle East countries, the United Arab Emirates (UAE) tops the list in terms of per capita energy spending and per capita carbon footprints. The construction industry is the major contributor to environmental pollution due to its size and nature of activity. The rapid growth of construction sector has a significant environmental impact with increase in carbon footprints. This paper analyses the environmental implications of the rapidly growing construction industry in UAE using system dynamics approach. Quantitative modelling of the construction industry supply chain helps to measure the dynamic interaction between its various factors under multiple realistic scenarios. The potential carbon savings and the impact of each factor are calculated using scenario development analysis. The paper has addressed in detail the various drivers and inhibitors of carbon emission in the construction industry supply chain and ways to evaluate the carbon savings. The paper provides an analytical decision framework to assess emissions of all stages applicable to the construction industry supply chain.
Keywords: construction industry; construction supply chains; supply chain management; SCM; system dynamics; carbon emissions; CO2; carbon dioxide; United Arab Emirates; UAE; CSR; corporate social responsibility; Middle East; construction industry; sustainability; sustainable development; carbon footprints; green technologies; quantitative modelling; construction greening; environmental pollution.
DOI: 10.1504/IJLSM.2014.063983
International Journal of Logistics Systems and Management, 2014 Vol.18 No.4, pp.517 - 537
Published online: 30 Aug 2014 *
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