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Evaluation of future renewable energy drought risk in China based on CMIP6

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  • Zuo, Jingping
  • Qian, Cuncun
  • Su, Bing
  • Ji, Hao
  • Xu, Yang
  • Peng, Zhipeng

Abstract

With the growing share of the climate-sensitive renewable energy market supply in China, estimating future energy drought risk (ED) is essential. In this paper, based on CMIP6, energy demand and power generation are estimated from 2023 to 2100 under SSP2-4.5 and SSP5-8.5 climate scenarios, and ED is defined from high demand (HD), low wind-solar generation (LWS), and residual load (RL). The results show that the ED exacerbation is relatively high under the SSP5-8.5. Between 2023 and 2100, the duration and severity of HD and RL notably increase, while LWS changes are relatively weak. We find that HD and RL exhibit high summer risks in the south and high winter risk in the north. The return periods vary significantly and extends over time in most regions. Moreover, there are few ED when the installed power generation capacity (IPGC) is increased. When the IPGC increases by 2%–5%, the LWS will decrease at least 20%–72%. With a 10% increase, the LWS will be mitigated by at least 80%, whereas the mitigation for RL is limited, approximately 3–17% at different rates. This work performs the first evaluation of future ED and provides the useful references for risk mitigation in China based on CMIP6.

Suggested Citation

  • Zuo, Jingping & Qian, Cuncun & Su, Bing & Ji, Hao & Xu, Yang & Peng, Zhipeng, 2024. "Evaluation of future renewable energy drought risk in China based on CMIP6," Renewable Energy, Elsevier, vol. 225(C).
    • Handle: RePEc:eee:renene:v:225:y:2024:i:c:s0960148124003732
    DOI: 10.1016/j.renene.2024.120308
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