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Hydrogen economy driven by offshore wind in regional comprehensive economic partnership members

Zhuang, Wennan ; Pan, Guangsheng ; Gu, Wei ; [et al.]

Royal Society of Chemistry (RSC) ; 2023

In: Energy & Environmental Science Vol. 16, No. 5 ( 2023), p. 2014-2029

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In: Energy & Environmental Science, Royal Society of Chemistry (RSC), Vol. 16, No. 5 ( 2023), p. 2014-2029

Abstract: Hydrogen is expected to be an essential part of the global energy trade. Herein, we explore the offshore wind-based hydrogen (OWH) in the Regional Comprehensive Economic Partnership (RCEP) members. The results show that the OWH production potential in the RCEP members can reach approximately 1200 megatons, which will be reduced to a tenth when facing the 2050 cost-competitive onshore renewable hydrogen from RCEP members. A co-development optimisation model of all the RCEP members shows that low-cost OWH in Australia, New Zealand, and China can be exported to the Association of Southeast Asian Nations (ASEAN), the Republic of Korea, and Japan on a large scale. In 2050, compared with the non-trade scenario, the average levelized cost of used hydrogen (LCOH U ) in RCEP members will be reduced by 0.29 $ per kg, bringing an economic benefit of $33.3 billion. Two key parameters, i.e. , onshore renewable hydrogen cost and forecasted hydrogen demands, are used to verify the stability of the import and export roles of RCEP members. Consequently, it is concluded that OWH can contribute to offshore wind exploitation and the hydrogen economy among RCEP members.

Type of Medium: Online Resource

ISSN: 1754-5692 , 1754-5706

URL: Article

DOI: 10.1039/D2EE02332F

Language: English

Publisher: Royal Society of Chemistry (RSC)

Publication Date: 2023

detail.hit.zdb_id: 2439879-2

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Assessment of plum rain’s impact on power system emissions in Yangtze-Huaihe River basin of China

Pan, Guangsheng ; Hu, Qinran ; Gu, Wei ; [et al.]

Springer Science and Business Media LLC ; 2021

In: Nature Communications Vol. 12, No. 1 ( 2021-10-25)

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In: Nature Communications, Springer Science and Business Media LLC, Vol. 12, No. 1 ( 2021-10-25)

Abstract: As a typical climate that occurs in the Yangtze-Huaihe River basin of China with a size of 500,000 km 2 , plum rain can reduce the photovoltaic (PV) potential by lowering the surface irradiance (SI) in the affected region. Based on hourly meteorological data from 1980 to 2020, we find that plum rain can lower the SI in the affected region with a weekly peak drop of more than 20% at the most affected locations. This SI drop, coupled with a large number of deployed PV systems, can cause incremental CO 2 emissions (ICEs) of local power systems by increasing the additional thermal power. Using a cost optimization model, we demonstrate that the ICEs in 2020 already reached 1.22 megatons and could range from 2.21 to 4.73 megatons, 3.47 to 7.19 megatons, and 2.97 to 7.43 megatons in 2030, 2040, and 2050, respectively, considering a change trend interval of a ±25% fluctuation in power generation and demand in the different years. To offset these ICEs, we compare four pathways integrated with promising technologies. This analysis reveals that the advanced deployment of complementary technologies can improve the PV utilization level to address climate impacts.

Type of Medium: Online Resource

ISSN: 2041-1723

URL: Article

DOI: 10.1038/s41467-021-26358-w

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2021

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