%0 Journal Article
%T An approach for analyzing resources metabolism of industrial ecosystems
产业生态系统资源代谢分析方法
%A SHI Xiaoqing
%A YANG Jianxin
%A WANG Rusong
%A ZHAO Linjia
%A
施晓清
%A 杨建新
%A 王如松
%A 赵吝加
%J 生态学报
%D 2012
%I
%X Industrial ecosystems are complex social-economic-environmental systems that are comprised of industrial communities (a group of industrial enterprises), resources and environment. Resources metabolism is an important support for industrial ecosystem function. Resource depletion and metabolism blocking on both temporal and spatial scale is the major causes of eco-environmental stress. Based on the ecological principles and MFA methodology, this paper analyzed the structure of industrial ecosystems' material flow, energy flow and money flow, and suggested the framework model of resources metabolism for industrial ecosystems. This model consists of six sub-modules including a resources exploitation module, a raw material production module, a product exchange center module, a consumption module, a waste collection and control module. To complement this model, an analysis indicator system based on input-use-output-circular symbiosis for resources metabolism was also proposed. The indicator system includes four categories of indicators: resource input, resource use, environmental stress and circular-symbiosis. Resource input indicators include raw material input, water resource input and energy input; resource use indicators include raw material use, water resource use, energy use and product use; environmental stress indicators include waste discharge and specific material discharge; circular symbiosis indicators include cleaner production, waste control and sustainable use of resources and symbiosis potential. Based on the indicator system, an assessment method by using Fuzzy Analysis and Problems Tree tool for resources metabolism analysis was explored. In addition, an ecological management model was established based on a circular-symbiosis network consisting four modules: a main community module including associated factories; an upstream community module including the factories associated with the main community; a downstream community module including the factories and consumers associated with the main community; a reuse community module including collection, category, process and control factories. The four modules are connected by material flow so that the entire system forms a singular network. By implementing metabolism analysis, the major issues occurring at individual modules or connections can be identified. In turn, the network structure may be optimized through industrial symbiosis management. The following conclusions were drawn: (1) Circular function is weak in traditional industrial ecosystem in comparison to natural ecosystems. Environmental stress comes from resource overuse and excessive waste emissions. (2) Based on the material flow process, the indicator system can effectively reflect the characteristics of resources metabolism. Thus this system can be used as a guide for improving the efficiency of resources use and reducing environmental stress. (3) The method analyzing metabolism effectiveness based on the indicator system
%K industry
%K ecosystem
%K resources flow
%K metabolism analysis
产业
%K 生态系统
%K 资源流
%K 代谢分析
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=90BA3D13E7F3BC869AC96FB3DA594E3FE34FBF7B8BC0E591&jid=FE163E5DB2274E5937319DE98913EC37&aid=7B98DB109FC41599A71670948EA387BE&yid=99E9153A83D4CB11&vid=9971A5E270697F23&iid=DF92D298D3FF1E6E&sid=99E9153A83D4CB11&eid=B80136CCD8DCBAA1&journal_id=1000-0933&journal_name=生态学报&referenced_num=0&reference_num=40