论文信息 - Understanding the Evolution of Industrial Symbiosis with a System Dynamics Model: A Case Study of Hai Hua Industrial Symbiosis, China

Understanding the Evolution of Industrial Symbiosis with a System Dynamics Model: A Case Study of Hai Hua Industrial Symbiosis, China

Industrial symbiosis (IS) is a key sub-field in industrial ecology. The field itself assists in developing strategies that support local and regional sustainable development. The evolution of IS is an important topic to be explored. In this paper, we use the system dynamics (SD) method to establish a model of the evolution of industrial symbiosis in the case of Hai Hua Industrial Symbiosis (HHIS). In this model, different scenarios for energy consumption, solid waste utilization, and wastewater utilization were set by changing the parameter values of certain input variables to analyze the evolution of HHIS. In addition, the drivers for IS evolution were investigated qualitatively in this study. The SD model was helpful for visualizing the effects and benefits of reducing the energy consumption, solid waste stock, and wastewater stock that were achieved by establishing symbiotic relationships during the evolution of IS. The results show that the optimization of energy and material flows and other symbiotic benefits can be achieved in HHIS. There are still some challenges that restrict the further evolution of HHIS. Some suggestions are proposed to promote its further evolution.

[1] Edwin H.W. Chan,et al. Implementation challenges to the adaptive reuse of heritage buildings: Towards the goals of sustainable, low carbon cities , 2012 .

[2] J. Ehrenfeld,et al. Industrial Ecology in Practice: The Evolution of Interdependence at Kalundborg , 1997 .

[3] F. Boons,et al. Industrial Symbiosis Dynamics and the Problem of Equivalence: Proposal for a Comparative Framework , 2017 .

[4] F. Boons,et al. Levels of Institutional Capacity and Actor Expectations about Industrial Symbiosis , 2012 .

[5] D. Gibbs. Trust and Networking in Inter-firm Relations: the Case of Eco-industrial Development , 2003 .

[6] Rosa Maria Dangelico,et al. A system dynamics model to analyze technology districts' evolution in a knowledge-based perspective , 2010 .

[7] Yi Lu,et al. System dynamics modeling of the safety evolution of blended-wing-body subscale demonstrator flight testing , 2016 .

[8] V. Albino,et al. Business models for industrial symbiosis: a guide for firms , 2016 .

[9] Jae Choi,et al. A system dynamics model for information security management , 2015, Inf. Manag..

[10] K. Ridgway,et al. Modelling industrial ecosystems and the "problem" of evolution , 2004 .

[11] David F. Batten,et al. Fostering Industrial Symbiosis With Agent‐Based Simulation and Participatory Modeling , 2009 .

[12] Ari Nissinen,et al. Analyzing the Environmental Benefits of Industrial Symbiosis , 2011 .

[13] Murat Mirata,et al. Experiences from early stages of a national industrial symbiosis programme in the UK: determinants and coordination challenges , 2004 .

[14] Ari Nissinen,et al. Sustainability and industrial symbiosis—The evolution of a Finnish forest industry complex , 2010 .

[15] N. Jacobsen. Industrial Symbiosis in Kalundborg, Denmark: A Quantitative Assessment of Economic and Environmental Aspects , 2006 .

[16] Yuzuru Matsuoka,et al. Determinant factors of industrial symbiosis: greening Pasir Gudang industrial park , 2014 .

[17] F. Boons,et al. The dynamics of industrial symbiosis: A proposal for a conceptual framework based upon a comprehensive literature review , 2011 .

[18] Laura Sokka,et al. Industrial symbiosis contributing to more sustainable energy use – an example from the forest industry in Kymenlaakso, Finland , 2011 .

[19] Robin Branson,et al. Re-constructing Kalundborg: the reality of bilateral symbiosis and other insights , 2016 .

[20] T. Domenech,et al. The role of Embeddedness in Industrial Symbiosis Networks: Phases in the Evolution of Industrial Symbiosis Networks , 2011 .

[21] Noel Brings Jacobsen,et al. Understanding the evolution of industrial symbiotic networks - the case of Kalundborg. , 2004 .

[22] Wout Dullaert,et al. Designing continuous safety improvement within chemical industrial areas , 2009 .

[23] Thomas Ott,et al. The industrial region as a promising unit for eco-industrial development—reflections, practical experience and establishment of innovative instruments to support industrial ecology , 2004 .

[24] J. Ehrenfeld,et al. Organizing Self‐Organizing Systems , 2012 .

[25] Timo Busch,et al. Creating Economic and Environmental Value through Industrial Symbiosis , 2015 .

[26] Chang Yu,et al. Process analysis of eco-industrial park development - the case of Tianjin, China , 2014 .

[27] Raymond P. Côté,et al. Supporting pillars for industrial ecosystems , 1997 .

[28] M. Eklund,et al. Who gets the benefits? : An approach for assessing the environmentalperformance of industrial symbiosis , 2015 .

[29] I. Giannoccaro,et al. Efficacy of landfill tax and subsidy policies for the emergence of industrial symbiosis networks: An agent-based simulation study , 2017 .

[30] J. Korhonen,et al. Industrial ecosystem evolution of North Karelia heating energy system , 2003 .

[31] Daniel Capaldo Amaral,et al. Industrial symbiosis indicators to manage eco-industrial parks as dynamic systems , 2016 .

[32] Leo Baas,et al. Cleaner production and industrial ecosystems, a Dutch experience , 1998 .

[33] P. Laybourn,et al. Redefining Industrial Symbiosis , 2012 .

[34] Weslynne Ashton,et al. Industrial symbiosis and waste recovery in an Indian industrial area , 2010 .

[35] M. Chertow,et al. From Refining Sugar to Growing Tomatoes , 2014 .

[36] Wouter Spekkink,et al. Institutional capacity building for industrial symbiosis in the Canal Zone of Zeeland in the Netherlands: a process analysis , 2013 .

[37] W. Vermeulen,et al. Eco-industrial park initiatives in the USA and the Netherlands: first lessons , 2004 .

[38] Changshi Xiao,et al. Establishment of the Sustainable Ecosystem for the Regional Shipping Industry Based on System Dynamics , 2017 .

[39] Marian Chertow,et al. INDUSTRIAL SYMBIOSIS: Literature and Taxonomy , 2000 .

[40] John Bowers,et al. The role of system dynamics in project management , 1996 .

[41] Marian Chertow,et al. Organizational Boundary Change in Industrial Symbiosis: Revisiting the Guitang Group in China , 2017 .

[42] Paulo Ferrão,et al. A case study of industrial symbiosis development using a middle-out approach , 2010 .

[43] Yong Geng,et al. Scavengers and decomposers in an eco-industrial park , 2002 .

[44] J. Korhonen,et al. Analysing the evolution of industrial ecosystems: concepts and application , 2005 .

[45] Ari Nissinen,et al. Industrial symbiosis and the policy instruments of sustainable consumption and production , 2011 .

[46] W. Fichtner,et al. Barriers of interorganisational environmental management: two case studies on industrial symbiosis , 2005 .

[47] Li He Chai,et al. Physical principles and simulations on the structural evolution of eco-industrial systems , 2008 .

[48] Shauhrat S. Chopra,et al. Life and Death of Industrial Ecosystems , 2017 .

[49] Qinghua Zhu,et al. Industrial Symbiosis in China: A Case Study of the Guitang Group , 2007 .

[50] Sangwon Suh,et al. Evolution of 'designed' industrial symbiosis networks in the Ulsan Eco-industrial Park: 'research and development into business' as the enabling framework , 2012 .

[51] Kai Zhang,et al. Industrial ecology and water utilization of the marine chemical industry: A case study of Hai Hua Group (HHG), China , 2013 .

[52] Perry Pei-Ju Yang,et al. Applying ecosystem concepts to the planning of industrial areas: a case study of Singapore’s Jurong Island , 2004 .

[53] José Javier Dolado. Qualitative simulation and system dynamics , 1992 .

[54] Soo-Mi Choi,et al. Strategies for sustainable development of industrial park in Ulsan, South Korea--from spontaneous evolution to systematic expansion of industrial symbiosis. , 2008, Journal of environmental management.

[55] T. Tudor,et al. Drivers and limitations for the successful development and functioning of EIPs (eco-industrial parks): A literature review , 2007 .

[56] Qinghua Zhu,et al. Integrating green supply chain management into an embryonic eco-industrial development: a case study of the Guitang Group , 2004 .

[57] Chunyuan Ma,et al. Going beyond the sectoral boundary: a key stage in the development of a regional industrial ecosystem , 2012 .

[58] Judith L. Walls,et al. Organizational Perspectives of Industrial Symbiosis , 2015 .

[59] I. Costa,et al. Waste management policies for industrial symbiosis development: case studies in European countries. , 2010 .

[60] D. V. Beers,et al. Industrial Symbiosis in the Australian Minerals Industry: The Cases of Kwinana and Gladstone , 2007 .

[61] Jennifer A. Howard-Grenville,et al. The Evolution of Facilitated Industrial Symbiosis , 2012 .

[62] Feng Han,et al. Evolution of industrial symbiosis in an eco-industrial park in China , 2015 .

[63] Y. Barlas,et al. Environmental sustainability in an agricultural development project: a system dynamics approach. , 2002, Journal of environmental management.

[64] T E Graedel,et al. Industrial ecology: concepts and approaches. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[65] W. Ashton. Understanding the Organization of Industrial Ecosystems , 2008 .

[66] Gaspar J. Machado,et al. Modelling water resources using Vensim PLE , 2011 .

[67] J.D. Sterman,et al. System Dynamics Modeling: Tools for Learning in a Complex World , 2001, IEEE Engineering Management Review.

[68] Gary Brierley,et al. The Use of System Dynamics Simulation in Water Resources Management , 2009 .

[69] Vito Albino,et al. The design of industrial symbiosis: an input–output approach , 2016 .

[70] Patroklos Georgiadis,et al. A system dynamics model for dynamic capacity planning of remanufacturing in closed-loop supply chains , 2007, Comput. Oper. Res..

[71] Jun Bi,et al. Eco-industrial parks: national pilot practices in China , 2010 .

[72] Kai Zhang,et al. Implementing a three-level approach in industrial symbiosis , 2015 .

[73] David Gibbs,et al. Reflections on implementing industrial ecology through eco-industrial park development , 2007 .

[74] Xiao Feng,et al. Applying agent-based modeling to the evolution of eco-industrial systems , 2009 .

[75] F. Boons,et al. A Process Perspective on Industrial Symbiosis , 2014 .