论文信息 - Modeling and simulation of high-pressure urea synthesis loop

Modeling and simulation of high-pressure urea synthesis loop

In this paper, modeling and simulation of high-pressure urea synthesis loop has been studied. The extended electrolytic UNIQUAC equation has been used to describe the nonideality of liquid phase of NH3-CO2-H2O-urea system under high pressure and high temperature, and the perturbed-hard-sphere (PHS) equation of state has been used to predict the vapor fugacity coefficients. The vapor-liquid equilibrium has been treated simultaneously with chemical reactions due to the complex features of the urea synthesis system. A concrete procedure for simulation of the key units and flowsheet of the high-pressure urea synthesis loop has been developed. The equilibrium-stage model has been applied to modeling and simulation of the urea reactor, CO2 stripper and other key units in the high-pressure loop for urea synthesis, and the simultaneous-modular approach has been adopted to simulate the flowsheet. The simulation results have been found to be in good agreement with the design data from the industry-scale plant. This work provides an effective tool and significant guidance for design or retrofit of urea synthesis process. (c) 2004 Elsevier Ltd. All rights reserved.

[1] Aage Fredenslund,et al. Calculation of solid-liquid equilibria in aqueous solutions of nitrate salts using an extended UNIQUAC equation , 1986 .

[2] Aage Fredenslund,et al. Calculation of vapour-liquid equilibria in mixed solvent/salt systems using an extended UNIQUAC equation , 1986 .

[3] H. Irazoqui,et al. Simulation of a urea synthesis reactor. 2. Reactor model , 1993 .

[4] G. Bozzano,et al. Gas-liquid reactor in the synthesis of urea , 1992 .

[5] Mark A. Stadtherr,et al. A simultaneous‐modular approach to process flowsheeting and optimization. Part I: Theory and implementation , 1985 .

[6] Mario Dente,et al. Simulation program for urea plants , 1988 .

[7] H. Irazoqui,et al. Simulation of a urea synthesis reactor. 1. Thermodynamic framework , 1993 .

[8] Mark A. Stadtherr,et al. A simultaneous‐modular approach to process flowsheeting and optimization. Part II: Performance on simulation problems , 1985 .

[9] G. Carvoli,et al. UREA-NH3-CO2-H2O: VLE Calculations using an extended uniquac equation , 1989 .

[10] John Newman,et al. Vapor‐liquid equilibria in multicomponent aqueous solutions of volatile weak electrolytes , 1978 .

[11] J. Prausnitz,et al. Thermodynamic Properties of Gas Mixtures Containing Common Polar and Nonpolar Components , 1976 .

[12] P. Rasmussen,et al. Calculation of vapour-liquid equilibria in nitric acid-water-nitrate salt systems using an extended UNIQUAC equation , 1986 .