Simultaneous synthesis of waste interception and material reuse networks: Problem reformulation for global optimization

F. Gabriel, M. El‐Halwagi
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引用次数: 80

Abstract

Recycling and reuse of materials are among the most important pollution prevention strategies. In many cases, direct recycling/reuse of process and waste streams may not be feasible because of the intolerable levels of contaminants that can be detrimental to the process performance or can build up to unacceptable levels. Therefore, interception may be used to selectively remove pollutants from the process streams using separation devices or interceptors. In this work, we develop a systematic procedure for the simultaneous synthesis of material reuse and interception networks. A structural representation of the solution alternatives is first presented using a source-interception-sink framework. Then, a generally applicable mathematical formulation is developed. Because of the nonconvexities associated with the general mathematical program, we invoke a number of simplifying assumptions to facilitate reformulation of the problem into a linear program. The concepts of source substreams and interceptor decomposition were used to facilitate the problem reformulation. Additionally, the tasks of assessing interceptor performance and cost were transformed into presynthesis calculations that can be conducted a priori without compromising the accuracy of the models. The problem reformulation yields a linear program that can be solved globally. A case study is solved to illustrate the developed procedure.
同时合成的废物拦截和材料再利用网络:问题的重新表述为全局优化
材料的回收和再利用是最重要的污染预防战略之一。在许多情况下,直接回收/再利用过程和废物流可能是不可行的,因为污染物的水平可能对过程性能有害,或者可能累积到不可接受的水平。因此,拦截可用于使用分离装置或拦截器选择性地从工艺流中去除污染物。在这项工作中,我们开发了一个系统的程序,用于同时合成材料再利用和拦截网络。解决方案备选方案的结构表示首先使用源-拦截-接收框架。然后,给出了一个普遍适用的数学公式。由于与一般数学程序相关的非凸性,我们调用了一些简化假设,以方便将问题重新表述为线性程序。采用了源子流和拦截器分解的概念,便于问题的重新表述。此外,评估拦截弹性能和成本的任务被转化为预合成计算,可以在不影响模型准确性的前提下进行先验计算。问题的重新表述产生了一个可以全局解决的线性规划。最后通过一个案例来说明所开发的程序。
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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