Hydrogen network retrofit via flexibility analysis: The steady-state flexibility index

•A systematic approach has been presented to retrofit design of hydrogen distribution network.•The hydrogen production of utilities and hydrogen consumption of resources have been reduced.•The hydrogen network operation has been improved by the optimal solution of the flexibility index model.•The to...

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Veröffentlicht in:	Chemical engineering research & design 2017-01, Vol.117, p.83-94
Hauptverfasser:	Sardashti Birjandi, Mohammad Reza, Shahraki, Farhad, Razzaghi, Kiyanoosh
Format:	Artikel
Sprache:	eng
Schlagworte:	Distribution management Flexibility Flexibility analysis Hydrogen Hydrogen network Mixed-integer nonlinear programming Nonlinear programming Steady state Uncertainty
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container_title	Chemical engineering research & design
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creator	Sardashti Birjandi, Mohammad Reza Shahraki, Farhad Razzaghi, Kiyanoosh
description	•A systematic approach has been presented to retrofit design of hydrogen distribution network.•The hydrogen production of utilities and hydrogen consumption of resources have been reduced.•The hydrogen network operation has been improved by the optimal solution of the flexibility index model.•The total annual cost of the refinery hydrogen network has been reduced. A systematic approach is presented to retrofit design of a hydrogen distribution network. A methodology is based on the steady-state flexibility index (FIs) for optimizing network and enhancing the efficiency of purifiers. The main object of this technique is to investigate hydrogen network flexibility under severe operation uncertainty and to reduce streams to purifiers by consideration inlet feed purity of purifiers. The presented approach is applied to the hydrogen network of a real installation.
doi_str_mv	10.1016/j.cherd.2016.10.017
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A systematic approach is presented to retrofit design of a hydrogen distribution network. A methodology is based on the steady-state flexibility index (FIs) for optimizing network and enhancing the efficiency of purifiers. The main object of this technique is to investigate hydrogen network flexibility under severe operation uncertainty and to reduce streams to purifiers by consideration inlet feed purity of purifiers. 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subjects	Distribution management Flexibility Flexibility analysis Hydrogen Hydrogen network Mixed-integer nonlinear programming Nonlinear programming Steady state Uncertainty
title	Hydrogen network retrofit via flexibility analysis: The steady-state flexibility index
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