The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study

Industrial ecosystems are supposed to improve environmental performance. However, despite proven financial profitability, environmental justification of particular symbiotic initiatives is not obvious and demands verification. The authors of previous studies have recommended application of life cycl...

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Main Author: Andrzej Marcinkowski
Format: Article
Language:English
Published: SDEWES Centre 2019-09-01
Series:Journal of Sustainable Development of Energy, Water and Environment Systems
Subjects:
Online Access: http://www.sdewes.org/jsdewes/pid7.0270
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spelling doaj-773929eb285e4ea9912a79f1977fc61b2020-11-25T01:18:49ZengSDEWES CentreJournal of Sustainable Development of Energy, Water and Environment Systems1848-92572019-09-017352153810.13044/j.sdewes.d7.027000270The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment StudyAndrzej Marcinkowski0 Faculty of Management and Production Engineering, Division of Fundamentals of Industrial Ecology and Engineering, Lodz University of Technology, Stefana Żeromskiego 116, Łódź, Poland Industrial ecosystems are supposed to improve environmental performance. However, despite proven financial profitability, environmental justification of particular symbiotic initiatives is not obvious and demands verification. The authors of previous studies have recommended application of life cycle assessment method for environmental impact estimation in case of industrial symbiosis. However, few studies presenting life cycle assessment results of industrial symbiosis have been published so far. Among the factors which contribute to the success of symbiotic exchange, the close location of collaborating companies has been often mentioned in the literature. Most researches have focused on single industrial ecosystem where cooperating companies were located relatively close to each other. The positive environmental impact of particular symbiotic initiatives has been verified, however, the results have not provided more a general conclusion for other industrial ecosystems, including virtual eco-industrial parks. The main aim of this work was to determine the maximum distance of symbiotic transmission at which the environmental impact remains positive. Life cycle assessment results concerning the environmental impact of symbiotic fly ash exchange were presented. Concepts of relative distance and critical distance for the case of industrial symbiosis were proposed and defined. Considerable differences between critical distance obtained for particular endpoints were observed. The mixing triangle method was applied to estimate the critical distance taking into account individual impact categories. The final results pointed out that the critical distance of symbiotic fly ash exchange was much longer than in case of gypsum transmission. A sensitivity analysis indicated the relationship between critical distance and the means of transport which reflected the effect of scale. The effect of fly ash pre-processing on the results was examined, and it turned out to be insignificant. http://www.sdewes.org/jsdewes/pid7.0270 Industrial symbiosisLife cycle assessmentCoal fly ashBy-product exchangeEnvironmental performanceIndustrial ecologyEnvironmental benefitWaste utilizationTransportation distance.
collection DOAJ
language English
format Article
sources DOAJ
author Andrzej Marcinkowski
spellingShingle Andrzej Marcinkowski
The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
Journal of Sustainable Development of Energy, Water and Environment Systems
Industrial symbiosis
Life cycle assessment
Coal fly ash
By-product exchange
Environmental performance
Industrial ecology
Environmental benefit
Waste utilization
Transportation distance.
author_facet Andrzej Marcinkowski
author_sort Andrzej Marcinkowski
title The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
title_short The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
title_full The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
title_fullStr The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
title_full_unstemmed The Spatial Limits of Environmental Benefit of Industrial Symbiosis – Life Cycle Assessment Study
title_sort spatial limits of environmental benefit of industrial symbiosis – life cycle assessment study
publisher SDEWES Centre
series Journal of Sustainable Development of Energy, Water and Environment Systems
issn 1848-9257
publishDate 2019-09-01
description Industrial ecosystems are supposed to improve environmental performance. However, despite proven financial profitability, environmental justification of particular symbiotic initiatives is not obvious and demands verification. The authors of previous studies have recommended application of life cycle assessment method for environmental impact estimation in case of industrial symbiosis. However, few studies presenting life cycle assessment results of industrial symbiosis have been published so far. Among the factors which contribute to the success of symbiotic exchange, the close location of collaborating companies has been often mentioned in the literature. Most researches have focused on single industrial ecosystem where cooperating companies were located relatively close to each other. The positive environmental impact of particular symbiotic initiatives has been verified, however, the results have not provided more a general conclusion for other industrial ecosystems, including virtual eco-industrial parks. The main aim of this work was to determine the maximum distance of symbiotic transmission at which the environmental impact remains positive. Life cycle assessment results concerning the environmental impact of symbiotic fly ash exchange were presented. Concepts of relative distance and critical distance for the case of industrial symbiosis were proposed and defined. Considerable differences between critical distance obtained for particular endpoints were observed. The mixing triangle method was applied to estimate the critical distance taking into account individual impact categories. The final results pointed out that the critical distance of symbiotic fly ash exchange was much longer than in case of gypsum transmission. A sensitivity analysis indicated the relationship between critical distance and the means of transport which reflected the effect of scale. The effect of fly ash pre-processing on the results was examined, and it turned out to be insignificant.
topic Industrial symbiosis
Life cycle assessment
Coal fly ash
By-product exchange
Environmental performance
Industrial ecology
Environmental benefit
Waste utilization
Transportation distance.
url http://www.sdewes.org/jsdewes/pid7.0270
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