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本文完成了流化催化裂化(FluidizedCatalyticCracking,简称FCC)动态系统结构描述、模型构造和仿真分析这三部分工作。作者首次将面向对象程序设计方法中的面向对象机制应用于FCC动态系统仿真问题中,并为之建立了一个抽象通用的类层次。使用当今最为流行的TurboC++面向对象语言开发了FCC动态系统仿真程序。该程序设计过程直观清晰、层次分明,具有易阅读、易维护、易扩充和通用性强的特点。仿真分析结果表明本文作者在FCC动态系统仿真程序开发过程中引入面向对象机制是有效、成功的。文章前一部分给出FCC动态系统的结构描述和数学模型;文章后一部分应用面向对象方法求解FCC动态系统仿真问题并给出仿真实例。
This paper has completed the fluidized catalytic cracking (FluidizedCatalyticCracking, referred to as FCC) dynamic system structure description, model construction and simulation analysis of these three parts. For the first time, the author applies the object-oriented mechanism in the object-oriented programming method to the FCC dynamic system simulation problem, and establishes an abstract generic class hierarchy for it. The FCC dynamic system simulation program was developed using the most popular TurboC ++ object-oriented language today. The program design process is intuitive and clear, structured, easy to read, easy to maintain, easy to expand and versatile features. The simulation results show that the author of this paper introduced the object-oriented mechanism in the development of FCC dynamic system simulation program is effective and successful. The first part of the article gives the structural description and mathematical model of the FCC dynamic system. The latter part of the article applies the object-oriented method to solve the FCC dynamic system simulation problem and gives a simulation example.