Where to deploy hybrid offshore wind-photovoltaic-wave-hydrogen energy system?Finally, a case study is conducted on Hainan Island, China. The results show that the western sea area of Dongfang City is the optimal location to deploy the hybrid offshore wind-photovoltaic-wave-hydrogen energy system. The proposed framework offers a reference for practical offshore renewable energy project implementation. 1. Introduction.
Can hydrogen improve the transmission capacity of offshore power generation?Goran et al.constructed a multi-faceted capacity expansion model to verify that the integration of hydrogen can significantly improve the total generation capacity and enhance the transmission capacity of offshore power generation.
How can offshore energy systems be converted into hydrogen?Hard-to-consume electricity from offshore HOWPWH energy systems could thus be converted into hydrogen, which could subsequently be transported to the coast by ship or hydrogen pipelines for use as terminal energy sources in the transportation, power, and heating sectors .
How to select a site for hybrid offshore energy system?Develop a three-stage site selection framework for hybrid offshore energy system. Combining Geographic Information System and Multi-Criteria Decision-Making. The optimal site is determined from the macroscale and the microscale. Rough-fuzzy theory is used to deal with the double uncertainty in decision making.
Could a hybrid offshore wind-PV-WAVE-hydrogen energy system be built?A hybrid offshore wind-PV-wave-hydrogen (HOWPWH) energy system could be constructed by combining offshore hybrid renewable energy generation sectors with electrolyser infrastructure.
Which site is more suitable for the howpwh energy system development?Distance from shore (C31): Sites closer to shore are considered more suitable for the HOWPWH energy system development, not only because they lower construction costs but also because they can respond more quickly when risks occ
It not only fills a research gap in WPCHP site selection but also lays the foundation for future studies on integrated energy systems involving wind-solar-hydrogen coupling. The
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Semantic Scholar extracted view of "Geospatial simulation and decision optimization towards identifying the layout suitability and priority for wind-photovoltaic
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This study presents peer energy trading management approaches in a net-zero energy community with fundamental units of university campus, commercial office and high
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The HOWPWH energy system suppresses the intermittency and volatility existing in stand-alone offshore renewable power plants by combining offshore wind, PV, wave, and
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The facility, located on tidal flats in the Yudong Reclamation Area, is China''s first offshore site integrating solar energy production, hydrogen generation, and storage
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By leveraging coastal tidal flat resources and employing advanced PV technologies and intelligent control systems, the project maximises energy
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Zhijun Zhou''s 104 research works with 1,561 citations and 4,041 reads, including: New coefficients of the weighted-sum-of-gray-gases model for gas radiation characteristics of hydrogen/natural
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Since 2010, the company has been mainly engaged in the design of new energy, energy storage and microgrid systems, the development of control systems, and the provision of cost-effective
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This is the country''s first integrated offshore facility that combines PV power generation, hydrogen production, refueling and energy storage, all within a framework of
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A unit of CHN Energy Investment Group Co Ltd has successfully connected to the grid China''s first integrated offshore facility combining solar
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Existing literature demonstrates extensive research on site selection for wind power, photovoltaic, and hydrogen production projects, as well as economic analyses of wind
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This paper proposes a two-stage location decision-making framework to study the site selection of distributed wind power coupled hydrogen storage (DWP
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In this paper, a novel cascading solar photovoltaic system with concentrating spectrum splitting and reshaping for combined heat and power generation is proposed for the first time to break...
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The integration of offshore wind-photovoltaic-wave-hydrogen production is a sustainable energy development concept that could smooth the intermittency of renewable
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"China''s largest" integrated offshore photovoltaic (PV) demonstration project, combining solar power, hydrogen production and refueling, and energy storage, has been
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Zhou, Keliang, EPP, Faculty of EWI, Delft University of Technology, Mekelweg 4, 2628 CD Delft (Netherlands)], Ferreira, J A, and Haan, S W.H. de. Optimal energy management strategy and
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Download Citation | On Nov 1, 2023, Ying Huang and others published Hydrogen energy development in China: Potential assessment and policy implications | Find, read and cite all
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This marks the launch of China''s first comprehensive energy utilization and coastal ecological management project, integrating photovoltaic power generation, hydrogen
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Download Citation | On Apr 1, 2025, Qiang Yang and others published Stable Photovoltaic-Wind Hydrogen Production with Comprehensive Energy Management Strategy and Technical
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A comprehensive life cycle assessment (LCA) is carried out for three methods of hydrogen production by solar energy: hydrogen production by PEM water electrolysis coupling
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The main contribution of this study can be briefly described as follows: The contribution of this paper is to provide an optimal sizing approach for an HRS with grid
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By leveraging coastal tidal flat resources and employing advanced PV technologies and intelligent control systems, the project maximises energy conversion and storage
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A unit of CHN Energy Investment Group Co Ltd has successfully connected to the grid China''s first integrated offshore facility combining solar photovoltaic (PV) generation,
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Request PDF | Modelling and analysis of a novel hydrogen production approach by full spectrum solar energy | For the development of hydrogen energy, it is very important to
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Finally, a case study is conducted on Hainan Island, China. The results show that the western sea area of Dongfang City is the optimal location to deploy the hybrid offshore wind-photovoltaic-wave-hydrogen energy system. The proposed framework offers a reference for practical offshore renewable energy project implementation. 1. Introduction
Goran et al. constructed a multi-faceted capacity expansion model to verify that the integration of hydrogen can significantly improve the total generation capacity and enhance the transmission capacity of offshore power generation.
Hard-to-consume electricity from offshore HOWPWH energy systems could thus be converted into hydrogen, which could subsequently be transported to the coast by ship or hydrogen pipelines for use as terminal energy sources in the transportation, power, and heating sectors .
Develop a three-stage site selection framework for hybrid offshore energy system. Combining Geographic Information System and Multi-Criteria Decision-Making. The optimal site is determined from the macroscale and the microscale. Rough-fuzzy theory is used to deal with the double uncertainty in decision making.
A hybrid offshore wind-PV-wave-hydrogen (HOWPWH) energy system could be constructed by combining offshore hybrid renewable energy generation sectors with electrolyser infrastructure.
Distance from shore (C31): Sites closer to shore are considered more suitable for the HOWPWH energy system development, not only because they lower construction costs but also because they can respond more quickly when risks occur.
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