A P-Graph approach for the synthesis of hydrogen networks with pressure and impurity constraints

Tan Jian Xiang; Tan Hong Sheng; Affery Amelie Peter; Ong Ian Yan Beng; Foo Dominic C. Y.; Aviso Kathleen B.; Tan Raymond R.; Yoo ChangKyoo

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A P-Graph approach for the synthesis of hydrogen networks with pressure and impurity constraints

机译：具有压力和杂质约束的氢网络合成的p曲线图方法

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The increasing demand for hydrogen in refineries and petrochemical plants is challenging these facilities to minimise their hydrogen utility without incurring high capital and operating costs. As environment-related fuel specifications become more stringent, the demand for hydrogen increases, especially for the operation of hydrodesulphurisation in refineries. A P-graph model is developed in this paper for the synthesis of hydrogen networks. The model is capable of generating optimal and near-optimal solutions for the hydrogen network. The proposed methodology is computationally efficient and require minimal understanding of programming language. The developed model includes both direct recycle/reuse and regeneration schemes; and accounts for pressure and impurity constraints in the hydrogen network. In addition, the application of hydrogen header can also be handled by the P-graph model. The methodology is illustrated with three literature examples and the results obtained match those reported in literature. (c) 2020 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

机译：在炼油厂和石化工厂中对氢的需求不断增加是挑战这些设施，以最大限度地减少其氢效用，而不会产生高资本和运营成本。随着环境相关的燃料规格变得更加严格，对氢的需求增加，特别是在炼油厂中加氢硫化的运作。本文开发了P图模型，用于合成氢网络。该模型能够为氢网络发电最佳和近最优解。所提出的方法是计算上有效的，需要最小的编程语言的理解。开发的模型包括直接回收/再利用和再生方案;并考虑氢网络中的压力和杂质约束。此外，氢报头的应用也可以由P图模型处理。该方法用三个文献实例说明，结果与文学中报告的结果相匹配。（c）2020氢能量出版物LLC。 elsevier有限公司出版。保留所有权利。

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来源
《International journal of hydrogen energy》 |2021年第57期|29198-29215|共18页
作者
Tan Jian Xiang; Tan Hong Sheng; Affery Amelie Peter; Ong Ian Yan Beng; Foo Dominic C. Y.; Aviso Kathleen B.; Tan Raymond R.; Yoo ChangKyoo;
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作者单位

Univ Nottingham Malaysia Dept Chem & Environm Engn Jalan Broga Semenyih 43500 Selangor Malaysia;

Univ Nottingham Malaysia Dept Chem & Environm Engn Jalan Broga Semenyih 43500 Selangor Malaysia;

Univ Nottingham Malaysia Dept Chem & Environm Engn Jalan Broga Semenyih 43500 Selangor Malaysia;

Univ Nottingham Malaysia Dept Chem & Environm Engn Jalan Broga Semenyih 43500 Selangor Malaysia;

Univ Nottingham Malaysia Dept Chem & Environm Engn Jalan Broga Semenyih 43500 Selangor Malaysia|Kyung Hee Univ Ctr Environm Studies Dept Environm Sci & Engn Yongin 446701 South Korea;

De La Salle Univ Dept Chem Engn 2401 Taft Ave Manila 0922 Philippines;

De La Salle Univ Dept Chem Engn 2401 Taft Ave Manila 0922 Philippines;

Kyung Hee Univ Ctr Environm Studies Dept Environm Sci & Engn Yongin 446701 South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Hydrogen header; Direct reuse; recycle; Regeneration; Process optimisation; Near-optimal solution; Resource conservation;

机译：氢气头;直接重用;回收;再生;过程优化;近最优的解决方案;资源保护;

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机译：棕榈油磨流出物合成全全治生物氢网的P平面方法
2. An extended P-graph approach to process network synthesis for multi-period operations [J] . Raymond R. Tan, Kathleen B. Aviso Computers & Chemical Engineering . 2016,第Feba2期

机译：一种扩展的P图方法，用于多周期操作的过程网络综合
3. An extended evolutionary design method for the optimization of hydrogen networks with pressure constraint [J] . Jia Xuexue, Li Li, Liu Guilian, The Canadian Journal of Chemical Engineering . 2015,第8期

机译：具有压力约束的氢网络优化的扩展进化设计方法
4. Hydrogen Network Integration with both Pressure and Impurity Constraints [C] . Qiao Zhang, Xiao Feng International Symposium on Process Systems Engineering . 2012

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7. PROCESS NETWORK SYNTHESIS FOR ENERGY AND COST MINIMIZATION USING THE P-GRAPH APPROACH [O] . O Arsenyeva, F Friedler, A Orosz, 2019

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A P-Graph approach for the synthesis of hydrogen networks with pressure and impurity constraints

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