A hybrid algorithm framework for heat exchanger networks synthesis considering the optimal locations of multiple utilities

IF 4.1 2区工程技术 Q2 ENGINEERING, CHEMICAL Chemical Engineering Science Pub Date : 2024-09-14 DOI:10.1016/j.ces.2024.120732

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Abstract

This work focuses on heat exchanger networks (HENs) synthesis (HENS) considering the optimal locations of multiple utilities. Based on an extended stage-wise superstructure where available heaters and coolers are placed at all stages, HENS is modeled as a computationally-hard mixed integer nonlinear programming (MINLP) problem. To obtain high-quality solutions, we propose a new hybrid algorithm framework that combines deterministic algorithm (commercial solver) and genetic algorithm (GA) without the use of penalty functions. In the outer level of the framework, GA is employed to optimize the integer variables which represent the existences of matches between process streams as well as the available heaters and coolers at intermediate stages. In the inner level, a reduced-size MINLP model is built to minimize the total annualized costs (TACs) of HENs generated in the outer level. We also propose three new sets to exclude infeasible stream matches, thereby the HENs generated in the outer level are all feasible and our GA does not need any penalty terms. Four literature examples are tested and optimal solutions with lower TACs are obtained within acceptable computing time compared to solutions reported in literature.

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考虑多个公用设施最佳位置的热交换器网络合成混合算法框架

这项工作的重点是考虑多个公用设施的最佳位置的热交换器网络（HENs）合成（HENS）。基于一个扩展的分阶段上层结构，即在所有阶段都放置可用的加热器和冷却器，HENS 被模拟为一个计算困难的混合整数非线性编程（MINLP）问题。为了获得高质量的解决方案，我们提出了一种新的混合算法框架，该框架结合了确定性算法（商业求解器）和遗传算法（GA），且不使用惩罚函数。在该框架的外层，采用遗传算法来优化整数变量，这些变量表示工艺流之间是否存在匹配，以及中间阶段是否存在可用的加热器和冷却器。在内层，我们建立了一个缩小的 MINLP 模型，以最小化外层生成的 HEN 的总年化成本 (TAC)。我们还提出了三个新的集合来排除不可行的流匹配，因此外层生成的 HEN 都是可行的，而我们的 GA 不需要任何惩罚项。我们对四个文献实例进行了测试，与文献报道的解决方案相比，我们在可接受的计算时间内获得了具有较低 TAC 的最优解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemical Engineering Science 工程技术-工程：化工

CiteScore

7.50

自引率

8.50%

发文量

1025

审稿时长

50 days

期刊介绍： Chemical engineering enables the transformation of natural resources and energy into useful products for society. It draws on and applies natural sciences, mathematics and economics, and has developed fundamental engineering science that underpins the discipline. Chemical Engineering Science (CES) has been publishing papers on the fundamentals of chemical engineering since 1951. CES is the platform where the most significant advances in the discipline have ever since been published. Chemical Engineering Science has accompanied and sustained chemical engineering through its development into the vibrant and broad scientific discipline it is today.