论文信息 - Optimal design of crystallization-based separation schemes

Optimal design of crystallization-based separation schemes

A network flow model is presented for synthesizing crystallization-based separations for multicomponent systems. The construction of the network flow is based on the identification of feasible thermodynamic states. The method allows consideration of several operation temperatures, complex solid–liquid equilibrium behavior, and several multicomponent feeds and products. For systems with two solutes a linear programming model is obtained, while for systems with three or more solutes a nonlinear programming model is obtained. The relative composition diagram is proposed to determine feasible operation points. For a small problem the relative composition diagram can be used to recognize flowsheet alternatives. For large problems, the relative composition diagram allows one to decrease the nodes in the network, thus decreasing the execution time. The technique is illustrated with three example problems.

Luis A. Cisternas | L. Cisternas

[1] B. Fitch,et al. How to Design Fractional Crystallization Processes , 1970 .

[2] Christodoulos A. Floudas. Separation synthesis of multicomponent feed streams into multicomponent product streams , 1987 .

[3] Ka Ming Ng,et al. Design of solids processes: production of potash , 1988 .

[4] K. Ng,et al. Systematic separation of a multicomponent mixture of solids based on selective crystallization and dissolution , 1991 .

[5] Luis A. Cisternas,et al. Process designs for fractional crystallization from solution , 1993 .

[6] Ka Ming Ng,et al. Bypassing eutectics with extractive crystallization: Design alternatives and tradeoffs , 1995 .

[7] Ka Ming Ng,et al. Separation of quaternary conjugate salt systems by fractional crystallization , 1996 .

[8] Ka Ming Ng,et al. Synthesis of reactive crystallization processes , 1997 .

[9] Luis A. Cisternas,et al. Separation system synthesis for fractional crystallization from solution using a network flow model , 1998 .