Assessing climate change impact on the hydropower potential of the Bamboi catchment (Black Volta, West Africa)

Q3 Earth and Planetary Sciences
Yacouba Yira, T. C. Mutsindikwa, A. Bossa, Jean Hounkpè, S. Salack
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引用次数: 1

Abstract

Abstract. This study evaluates the impact of future climate change (CC) on the hydropower generation potential of the Bamboi catchment (Black Volta) in West Africa using a conceptual rainfall-runoff model (HBV light) and regional climate models (RCMs)–global climate models (GCMs). Two climate simulation datasets MPI-ESM-REMO (CORDEX) and GFDL-ESM2M-WRF (WASCAL) under RCP4.5 were applied to the validated hydrological model to simulate the catchment runoff. Based on reference and future simulated discharges, a theoretical 1.3 MW run of river hydro power plant was designed to evaluate the hydropower generation. Hydrological and hydropower generation changes were expressed as the relative difference between two future periods (2020–2049 and 2070–2099) and a reference period (1983–2005). The climate models' ensemble projected a mean annual precipitation increase by 8.8 % and 7.3 % and discharge increase by 11.4 % and 9.735 % for the 2020–2049 and 2070–2099 periods respectively (for bias corrected data). On the contrary an overall decrease of hydropower generation by −9.1 % and −8.4% for the 2020–2049 and 2070–2099 periods was projected respectively. The results indicate that projected increases in discharge should not solely be considered as leading to an increase in hydropower potential when prospecting climate change impact on hydropower.
评估气候变化对Bamboi流域水电潜力的影响(西非Black Volta)
摘要本研究利用概念降雨-径流模型(HBV light)和区域气候模型(RCMs) -全球气候模型(GCMs)评估了未来气候变化(CC)对西非Bamboi流域(Black Volta)水力发电潜力的影响。将MPI-ESM-REMO (CORDEX)和GFDL-ESM2M-WRF (WASCAL)两个气候模拟数据集应用于rcp4.5下验证的水文模型,模拟流域径流。在参考文献和未来模拟流量的基础上,设计了一个1.3 MW的河川水电站理论运行,对水力发电进行了评价。水文和水力发电变化表示为两个未来期(2020-2049年和2070-2099年)与参考期(1983-2005年)之间的相对差值。气候模式综合预测2020 - 2049年和2070-2099年期间年均降水量分别增加8.8%和7.3%,流量分别增加11.4%和9.735%(偏差校正数据)。相反,预计2020-2049年和2070-2099年期间水电发电量将分别下降9.1%和8.4%。结果表明,在研究气候变化对水电的影响时,不应将预测流量的增加视为导致水电潜力增加的唯一因素。
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来源期刊
Proceedings of the International Association of Hydrological Sciences
Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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