Efficient hybrid strategy for simultaneous design of refinery hydrogen networks and pressure swing adsorption unit

Refineries face increasing hydrogen demand due to the consumption of heavy and sour crude oil. This study presents a novel hybrid method to optimize hydrogen network configurations with a rigorous pressure swing adsorption (PSA) process model. This method utilizes Bayesian optimization to address th...

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Veröffentlicht in:	Journal of cleaner production 2024-08, Vol.466, p.142858, Article 142858
Hauptverfasser:	Huang, Lingjun, Hong, Xiaodong, Liao, Zuwei, Yang, Yao, Wang, Jingdai, Yang, Yongrong
Format:	Artikel
Sprache:	eng
Schlagworte:	adsorption Bayesian optimization Bayesian theory Constrained black-box optimization Hybrid strategy hydrogen Hydrogen network kriging petroleum Pressure swing adsorption streams system optimization
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container_title	Journal of cleaner production
container_volume	466
creator	Huang, Lingjun Hong, Xiaodong Liao, Zuwei Yang, Yao Wang, Jingdai Yang, Yongrong
description	Refineries face increasing hydrogen demand due to the consumption of heavy and sour crude oil. This study presents a novel hybrid method to optimize hydrogen network configurations with a rigorous pressure swing adsorption (PSA) process model. This method utilizes Bayesian optimization to address the upper-level unknown constraints black-box optimization problem while employing deterministic algorithms to manage the lower-level nonlinear programming problem. Furthermore, infeasible regions are transformed into feasible ones by introducing a dummy stream, and the costs incurred during the transformation process are accurately calculated. The proposed method is validated using two literature cases. In Case 1, Bayesian optimization outperformed the Kriging model, resulting in a 7.84% reduction in total annual cost (TAC). In Case 2, a comparison of four search strategies revealed the developed two-phase strategy as the most effective one. This method offers a powerful and practical tool for optimizing real-world hydrogen networks with PSA processes. [Display omitted] •A hybrid method for simultaneous design of hydrogen network and PSA unit is proposed.•A constrained black-box optimization problem is addressed by Bayesian Optimization.•Infeasible solutions are converted into feasible ones, reflecting their deviation.•A two-phase strategy of Bayesian Optimization is developed and approved efficient.•Solutions with smaller cost is obtained, compared to the ones using surrogate models.
doi_str_mv	10.1016/j.jclepro.2024.142858
format	Article
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This study presents a novel hybrid method to optimize hydrogen network configurations with a rigorous pressure swing adsorption (PSA) process model. This method utilizes Bayesian optimization to address the upper-level unknown constraints black-box optimization problem while employing deterministic algorithms to manage the lower-level nonlinear programming problem. Furthermore, infeasible regions are transformed into feasible ones by introducing a dummy stream, and the costs incurred during the transformation process are accurately calculated. The proposed method is validated using two literature cases. In Case 1, Bayesian optimization outperformed the Kriging model, resulting in a 7.84% reduction in total annual cost (TAC). In Case 2, a comparison of four search strategies revealed the developed two-phase strategy as the most effective one. This method offers a powerful and practical tool for optimizing real-world hydrogen networks with PSA processes. 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This study presents a novel hybrid method to optimize hydrogen network configurations with a rigorous pressure swing adsorption (PSA) process model. This method utilizes Bayesian optimization to address the upper-level unknown constraints black-box optimization problem while employing deterministic algorithms to manage the lower-level nonlinear programming problem. Furthermore, infeasible regions are transformed into feasible ones by introducing a dummy stream, and the costs incurred during the transformation process are accurately calculated. The proposed method is validated using two literature cases. In Case 1, Bayesian optimization outperformed the Kriging model, resulting in a 7.84% reduction in total annual cost (TAC). In Case 2, a comparison of four search strategies revealed the developed two-phase strategy as the most effective one. This method offers a powerful and practical tool for optimizing real-world hydrogen networks with PSA processes. 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subjects	adsorption Bayesian optimization Bayesian theory Constrained black-box optimization Hybrid strategy hydrogen Hydrogen network kriging petroleum Pressure swing adsorption streams system optimization
title	Efficient hybrid strategy for simultaneous design of refinery hydrogen networks and pressure swing adsorption unit
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