| EIP (Eco-Industrial) Park is a new style of industrial development, the essence of which lies in the cooperation between each member and the integration with surrounding environmental resources. By means of these integrations, EIP significantly enhancing the utilization rate of material and energy of the members in the zone, thus improves their eco-economic benefits, as well as mitigating the negative effect to environment. The sustainable development feature of ecological industrial park makes it a trend for future industrial park. Modeling lies in the key position of EIP design and operation. The mathematical programming methods can be used on EIP system integration design to achieve benefit maximization. As enterprises within the park are individuals whose goal is to maximizing their own profits, a prominent problem is the conflict between the individual and the whole. Simulation of EIP can provide results with qualitative and quantitative analysis, which can help to find out the problems and then take appropriate solutions. The main content of this thesis is modeling and simulation of EIP.(1) The model used to describe the EIP is the foundation of simulation. This paper analyzes the characteristics of EIP, take logistics, water networks and by-products exchange as modeling objects, considering their interactions, established the appropriate model.(2) Agent-based modeling and simulation methods is applied in this thesis to establish a bottom-up modeling and simulation framework of EIP which composed by" element-flow-Agent-Park".(3) A general EIP simulation platform is developed. Then a simulation case based on Yunan is presented, by display and analysis the economic, environmental and other indicators of the EIP, a direction of park performance improving has been found out. |
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