Abstract

A new approach is proposed to the computer-aided design of optimally organized systems in chemical production. This approach is based on information theory, which is an applied aspect of general systems theory. A general methodology for the creation of complex technological objects is employed, in accordance with Roullier’s evolutionary law of increasing system complexity (system organization). An objective basis for organization is optimal differentiation (distribution) of the functions of a chemical-engineering system among its components and subsystems. That leads a priori to a macroscopic system with improved integrity, autonomy, stability, and controllability and also permits improvements in system efficiency through synergy. Options for differentiation of functions among the components of a chemical-engineering system are considered. Optimal conditions and optimization criteria are identified; these form the basis for the design of optimally organized processes in chemical engineering.

中文翻译：

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化学工业中最佳组织系统的计算机辅助设计

摘要

针对化学生产中最佳组织系统的计算机辅助设计，提出了一种新方法。这种方法基于信息理论，这是一般系统理论的应用方面。根据Roullier不断增加的系统复杂性（系统组织）的进化定律，采用了创建复杂技术对象的通用方法。组织的客观基础是化学工程系统在其组件和子系统之间的功能的最佳区分（分布）。这使得先验的宏观系统具有更高的完整性，自治性，稳定性和可控制性，并且还可以通过协同作用提高系统效率。考虑了在化学工程系统的各个组件之间区分功能的选项。确定最佳条件和优化标准；这些构成了化学工程中最佳组织过程设计的基础。