Flexible and low-carbon retrofit planning for wind-solar-thermal system: a distributionally robust Lipschitz dynamic programming approach

Increasing penetration of renewable energy sources poses serious issues to the power balance. Retrofitting a thermal unit effectively improves flexibility and reduces carbon emissions. However, existing two-stage retrofit planning models determined the retrofit schedules before the uncertainties wer...

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Veröffentlicht in:Energy (Oxford) Jg. 336; S. 138438
Hauptverfasser: Li, Zhuangzhuang, Liang, Minbo, Han, Bin, Wu, Thomas
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 01.11.2025
Schlagworte:
Distributionally robust optimization
Mixed-integer nonlinear programming
Retrofit planning
Wind-solar-thermal systems
Wind-solar-thermal systems
Mixed-integer nonlinear programming
Retrofit planning
Distributionally robust optimization
ISSN:0360-5442
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Abstract Increasing penetration of renewable energy sources poses serious issues to the power balance. Retrofitting a thermal unit effectively improves flexibility and reduces carbon emissions. However, existing two-stage retrofit planning models determined the retrofit schedules before the uncertainties were realized. To this end, this study proposes a distributionally robust multi-stage retrofit planning model where the retrofit schedules are decided, with uncertainties gradually revealed. Mixed-integer nonlinear flexibility, carbon capture and storage retrofit, and unit commitment constraints are formulated and embedded into the retrofit planning model. To consider the probability distribution uncertainties, the retrofit planning model is expanded to the multi-stage distributionally robust form, which is solved by the distributionally robust Lipschitz dynamic programming algorithm. The numerical results based on the Shantou system, IEEE 39-bus, and 118-bus test systems showed that the proposed multi-stage model outperformed the two-stage one in terms of lower cost (−9.7 %) and better out-of-sample performances. Compared with the existing solution method, the average solution time and final gap of the proposed solution method were decreased by 24.4 % and 10.1 %. The numerical results proved that the proposed approach could effectively improve system flexibility and reduce carbon emissions. •Propose a distributionally robust multi-stage retrofit planning model for wind-solar-thermal systems.•Propose a modified flexibility evaluation method using mixed-integer nonlinear formulations.•A modified mathematical model for flexible operation of solvent-storage carbon capture and storage is proposed.•Modified reformulation and linearization methods are proposed to convert the retrofit planning model.•Propose a distributionally robust Lipschitz dynamic programming algorithm to solve the retrofit planning model.
AbstractList Increasing penetration of renewable energy sources poses serious issues to the power balance. Retrofitting a thermal unit effectively improves flexibility and reduces carbon emissions. However, existing two-stage retrofit planning models determined the retrofit schedules before the uncertainties were realized. To this end, this study proposes a distributionally robust multi-stage retrofit planning model where the retrofit schedules are decided, with uncertainties gradually revealed. Mixed-integer nonlinear flexibility, carbon capture and storage retrofit, and unit commitment constraints are formulated and embedded into the retrofit planning model. To consider the probability distribution uncertainties, the retrofit planning model is expanded to the multi-stage distributionally robust form, which is solved by the distributionally robust Lipschitz dynamic programming algorithm. The numerical results based on the Shantou system, IEEE 39-bus, and 118-bus test systems showed that the proposed multi-stage model outperformed the two-stage one in terms of lower cost (−9.7 %) and better out-of-sample performances. Compared with the existing solution method, the average solution time and final gap of the proposed solution method were decreased by 24.4 % and 10.1 %. The numerical results proved that the proposed approach could effectively improve system flexibility and reduce carbon emissions. •Propose a distributionally robust multi-stage retrofit planning model for wind-solar-thermal systems.•Propose a modified flexibility evaluation method using mixed-integer nonlinear formulations.•A modified mathematical model for flexible operation of solvent-storage carbon capture and storage is proposed.•Modified reformulation and linearization methods are proposed to convert the retrofit planning model.•Propose a distributionally robust Lipschitz dynamic programming algorithm to solve the retrofit planning model.
ArticleNumber 138438
Author Wu, Thomas
Liang, Minbo
Li, Zhuangzhuang
Han, Bin
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  email: xwu@gxu.edu.cn
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Keywords Wind-solar-thermal systems
Mixed-integer nonlinear programming
Retrofit planning
Distributionally robust optimization
Language English
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Snippet Increasing penetration of renewable energy sources poses serious issues to the power balance. Retrofitting a thermal unit effectively improves flexibility and...
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SubjectTerms Distributionally robust optimization
Mixed-integer nonlinear programming
Retrofit planning
Wind-solar-thermal systems
Title Flexible and low-carbon retrofit planning for wind-solar-thermal system: a distributionally robust Lipschitz dynamic programming approach
URI https://dx.doi.org/10.1016/j.energy.2025.138438
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