Quantification of run-of-river hydropower potential in the Upper Indus basin under climate change

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-12-19 DOI:10.3389/frwa.2023.1256249
S. Dhaubanjar, A. Lutz, W. Smolenaars, S. Khanal, M. K. Jamil, H. Biemans, Fulco Ludwig, Arun Bhakta Shrestha, W. Immerzeel
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Abstract

Despite ambitious plans to quadruple hydropower generation in the Indus basin, a quantitative assessment of the impact of climate change on hydropower availability in the basin is missing. To address this gap, we combine downscaled CMIP6 projections with the Hydropower Potential Exploration (HyPE) model to quantify future hydropower potential available in the upper Indus basin.HyPE uses a spatial cost-minimization framework to evaluate four classes of hydropower potential, namely theoretical, technical, financial and sustainable, considering various constraints on the siting and sizing of two run-of-river hydropower plant configurations.Under future discharge projections, all classes of potential increase while subbasin changes align with the spatial patterns projected in hydro-climatology. Theoretical potential changes by 3.9–56 %, technical potential by −2.3–46.8 %, financial potential by −8.8–50.4 % and sustainable potential by −6.1–49.7 %. A small decline is observed in the northwestern subbasins where increase in potential is lower than in the southeast. In contrast, with increasing variability in the Indian Summer Monsoon in the future, the southeastern subbasins have the strongest increase in sustainable potential accompanied by higher increase in plant size, decrease in costs and higher variability. The southeastern Satluj subbasin is the hotspot where sustainable potential has the highest increase of up to 145 %. The northwestern Kabul subbasin has the highest decrease of up to −27 %. The Swat subbasin has the lowest variability in sustainable potential while the Jhelum and Indus main subbasins remain the subbasins with the cheapest potential into the future. The performance of future sustainable portfolios differ from the performance of historical portfolios by −11.1–39.9 %.Hence, considering future climate in the present-day planning of hydropower will lead to improved performance under a majority of scenarios. The sufficiency of hydropower potential to fulfill energy security depends on future population growth. Energy availability is projected to decline in the northwest as population increases faster than hydropower potential. The per capita sustainable potential In the Kabul subbasin reduces to a third of the historical value. A socio-hydrological approach is necessary to address the complexity of achieving sustainable and equitable hydropower development in the Indus basin under such spatial mismatch between hydropower availability and energy demand in a resource-limited world.
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气候变化下上印度河流域径流水力发电潜力的量化
尽管印度河流域雄心勃勃地计划将水力发电量翻两番,但对气候变化对该流域水力发电可用性的影响却缺乏定量评估。为了弥补这一空白,我们将 CMIP6 的降尺度预测与水力发电潜力探索 (HyPE) 模型相结合,对印度河上游流域未来的水力发电潜力进行了量化评估。HyPE 采用空间成本最小化框架评估了四类水力发电潜力,即理论潜力、技术潜力、财务潜力和可持续潜力,并考虑了两种径流式水电站配置的选址和规模的各种限制因素。理论潜力变化了 3.9-56%,技术潜力变化了 -2.3-46.8%,财务潜力变化了 -8.8-50.4%,可持续潜力变化了 -6.1-49.7%。西北部子流域的潜力略有下降,其增长幅度低于东南部。相反,随着未来印度夏季季风变化的增加,东南部子流域的可持续潜力增长最快,同时植株面积增加、成本下降和变化增加。东南部的 Satluj 子流域是热点地区,其可持续发展潜力增幅最大,高达 145%。喀布尔分流域西北部的降幅最大,高达 -27%。斯瓦特流域的可持续发展潜力变化最小,而杰赫勒姆流域和印度河干流流域仍是未来发展潜力最小的流域。未来可持续组合的性能与历史组合的性能相差 -11.1-39.9 %。因此,在目前的水电规划中考虑未来气候将在大多数情况下提高性能。水电潜力是否足以保障能源安全取决于未来的人口增长。由于人口增长速度快于水电潜力,预计西北地区的能源供应将下降。喀布尔分流域的人均可持续潜力下降到历史值的三分之一。在一个资源有限的世界中,水电供应与能源需求在空间上不匹配,在这种情况下实现印度河流域可持续和公平的水电开发十分复杂,有必要采用社会水文方法来解决这一问题。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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