Thermodynamic Frameworks Of Cleaner Production And Optimized Energy Distributions Of Ecology Industry Systems

Cleaner production emerges as the successful experience to solve the environmental problems and is becoming the mainstream of environment and development in many countries. Cleaner production technology is recognized as a key element to lead the way of indoctrinating the strategies of cleaner production, enables the implement and performance of cleaner production. Despite partial cleaner production technologies have developed to maturity step by step, little work has been done to establish an integral technological framework. Because of the complexity of production operations and the differences between the various industries, the existing clean production technologies emphasize and measure rather differently in the diverse fields, and are independent on each other. The scarce use of systematic techniques and tools strongly suggests a need to establish an effective and integral technological framework that can be a guide of completely integrating these partial cleaner production technologies.The purpose of this paper is to outline the complex processes of cleaner production by mathematical language basing on thermodynamic theories and set up the technical framework for cleaner production. Basing on the framework, the feasibility and implication of cleaner production technologies are deeply investigated. The adoption of cleaner production technologies is penetrated through the entire life cycle of a product and the assessment of clean production is analyzed. Moreover we analyzed a typical example of enterprise adopted cleaner production in terms of specific technologies or processes under the framework.In the second section of the paper we discussed the optimized configurations of resources and energy of ecology industry systems. Cleaner production and reduction at sources should be adopted in the whole processes of the industry ecology systems. Rational exchange of resources between companies should be implemented to realize the optimized industrial symbiosis chain and net structures. Different from traditional linear methods, our work explained the dynamic aspects of optimized functions and congifurations basing on the cooperation and competition among the agents from the view of the complex open systems, and provided a completely new guide and instruction for the building of ecology industry parks.