A two-stage approach for the synthesis of inter-plant water networks involving continuous and batch units

Jui Yuan Lee; Cheng Liang Chen; Chun Yen Lin; Dominic Chwan Yee Foo

doi:10.1016/j.cherd.2013.08.008

A two-stage approach for the synthesis of inter-plant water networks involving continuous and batch units

Jui Yuan Lee, Cheng Liang Chen, Chun Yen Lin, Dominic Chwan Yee Foo

Department of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

This paper presents a mathematical optimization model for inter-plant water network (IPWN) synthesis, where process units operate in mixed continuous and batch modes. The current developed model consists of a two-stage approach, and is dedicated to the special case where there are more continuous than batch units. In the first stage, all batch units are treated as continuous units by using auxiliary water storage tanks, and a continuously operated IPWN is synthesized to minimize the fresh water consumption. Subject to the determined IPWN flow rates, the water storage policy for the batch units is determined in the second stage to minimize the total storage capacity. Alternatively, the formulations of both stages can be combined and solved simultaneously to minimize the IPWN cost. Two modified literature examples are used to illustrate the proposed approach.

Original language	English
Pages (from-to)	941-953
Number of pages	13
Journal	Chemical Engineering Research and Design
Volume	92
Issue number	5
DOIs	https://doi.org/10.1016/j.cherd.2013.08.008
Publication status	Published - 2014 May

All Science Journal Classification (ASJC) codes

General Chemistry
General Chemical Engineering

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10.1016/j.cherd.2013.08.008

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abstract = "This paper presents a mathematical optimization model for inter-plant water network (IPWN) synthesis, where process units operate in mixed continuous and batch modes. The current developed model consists of a two-stage approach, and is dedicated to the special case where there are more continuous than batch units. In the first stage, all batch units are treated as continuous units by using auxiliary water storage tanks, and a continuously operated IPWN is synthesized to minimize the fresh water consumption. Subject to the determined IPWN flow rates, the water storage policy for the batch units is determined in the second stage to minimize the total storage capacity. Alternatively, the formulations of both stages can be combined and solved simultaneously to minimize the IPWN cost. Two modified literature examples are used to illustrate the proposed approach.",

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AB - This paper presents a mathematical optimization model for inter-plant water network (IPWN) synthesis, where process units operate in mixed continuous and batch modes. The current developed model consists of a two-stage approach, and is dedicated to the special case where there are more continuous than batch units. In the first stage, all batch units are treated as continuous units by using auxiliary water storage tanks, and a continuously operated IPWN is synthesized to minimize the fresh water consumption. Subject to the determined IPWN flow rates, the water storage policy for the batch units is determined in the second stage to minimize the total storage capacity. Alternatively, the formulations of both stages can be combined and solved simultaneously to minimize the IPWN cost. Two modified literature examples are used to illustrate the proposed approach.

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A two-stage approach for the synthesis of inter-plant water networks involving continuous and batch units

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