热集成水网络优化设计的最新进展

It is well known that the process industry is an energy-intense and water-consuming industry and is the main source of industrial water consumption and energy in China. Energy integration and mass integration are important approaches to achieve energy saving and emission reduction in the process industry. Generally, the methods can be classified into two groups: conceptual design methods and mathematical programming methods. The former includes mainly graphical methods based on pinch technology that is operated easily. A feasible solution can be quickly obtained. Conceptual design methods are sequential in nature including targeting and design two steps. The latter is based on superstructure optimization and corresponding algorithm is adopted to solve the model. The trade-offs and connections among the entire network can be established and explored. Multiple factors can be considered and optimized simultaneously by mathematical programming methods. This paper describes the synthesis of heat integrated water allocation networks (HIWAN) based on both conceptual design methods and mathematical programming methods systematically. In addition, the characteristics and shortcomings of the existing research methods are summarized, and the future research direction is prospected.

Recent Progresses on Optimal Design of Heat integrated water allocation network

It is well known that the process industry is an energy-intense and water-consuming industry and is the main source of industrial water consumption and energy in China. Energy integration and mass integration are important approaches to achieve energy saving and emission reduction in the process industry. Generally, the methods can be classified into two groups: conceptual design methods and mathematical programming methods. The former includes mainly graphical methods based on pinch technology that is operated easily. A feasible solution can be quickly obtained. Conceptual design methods are sequential in nature including targeting and design two steps. The latter is based on superstructure optimization and corresponding algorithm is adopted to solve the model. The trade-offs and connections among the entire network can be established and explored. Multiple factors can be considered and optimized simultaneously by mathematical programming methods. This paper describes the synthesis of heat integrated water allocation networks (HIWAN) based on both conceptual design methods and mathematical programming methods systematically. In addition, the characteristics and shortcomings of the existing research methods are summarized, and the future research direction is prospected.