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Eco-Industrial Park (EIP) Development and Key Technologies for Clean Production  

Yoo, ChangKyoo (Department Chemical Engineering and School of Environmental Engineering, POSTECH)
Heo, Soon-Ki (Department Chemical Engineering and School of Environmental Engineering, POSTECH)
Yoo, Dong Joon (Department Chemical Engineering and School of Environmental Engineering, POSTECH)
Lee, SeungJun (Department Chemical Engineering and School of Environmental Engineering, POSTECH)
Shin, Ji Na (Department of Environmental Ecological Engineering, Korea Univ)
Park, Yong Joon (Environment & Energy team, POSCO. Ltd)
Yoon, Hack Mo (Environment & Energy team, POSCO. Ltd)
Chun, Hee Dong (Environmental Research Lab., Research Institute of Industrial Science & Technology)
Moon, Jeong Ki (Environmental Research Lab., Research Institute of Industrial Science & Technology)
Lee, In-Beum (Department Chemical Engineering and School of Environmental Engineering, POSTECH)
Publication Information
Korean Chemical Engineering Research / v.43, no.5, 2005 , pp. 549-559 More about this Journal
Abstract
Sustainable industrial development which can minimize an ecological effect by the mankind exertion is recently interested due to an environmental contamination and a resource exhaustion problem. An eco-industrial park (EIP) is a community of manufacturing and service businesses seeking enhanced environmental and economic performance through collaboration in managing environmental and resource issues, including energy, water, and materials. EIP developments which improve a production plant within an eco-friendly greenfield and design a new industrial ecosystem are accomplished recently, which can efficiently re-use the waste and resources from each company within EIP. In this review, the outside and domestic case studies of EIP and cornerstone technologies to develop the EIP, such as energy integration, waste reuse, mass flow analysis, water pinch, and life cycle assessment, are summarized.
Keywords
Eco-Industrial Park (EIP); Heat Pinch; Energy Integration; Life Cycle Assessment (LCA); Mass Flow Analysis (MFA); Mathematical Optimization; Network Design; Reuse Network; Waste Minimization; Water Pinch;
Citations & Related Records
Times Cited By KSCI : 7  (Citation Analysis)
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