Evaluating hydroelectric potential in Alaknanda basin, Uttarakhand using the snowmelt runoff model (SRM)

IF 2.7 4区 环境科学与生态学 Q2 WATER RESOURCES
Kuldeep Singh Rautela, Dilip Kumar, Bandaru Goutham Rajeev Gandhi, Ajay Kumar, Amit Kumar Dubey, Bhishm Singh Khati
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引用次数: 0

Abstract

Abstract Hydropower is one of the best renewable energy sources to meet India's rapidly growing energy demand. The Remote Sensing and GIS tools provide reliable information for assessing the available water of the Himalayan rivers. In this study, the basin is divided into 12 elevation zones, and temperature and precipitation were extrapolated within these zones. The MODIS (Terra&Aqua) cloud-free images have been used for mapping the Snow Cover Area and it was found that the SCA will vary from 18–72 % during the simulation period. The model simulation period is divided into calibration (2003–2015) and validation (2016–2019). During the study, it was observed that the model efficiency parameters significantly exceeded the acceptable range. In this study, the snowmelt's contribution increases until zone 8; after this, the snowmelt contribution decreases, and the snow accumulation increases. Also, the Hydro-Electric Power (HEP) generation of the basin is modeled with the help of a power equation for a turbine efficiency of 0.8. The simulation of daily streamflow and generated HEP are compared with the measured values, and both tracked the observed pattern very precisely. The findings of the present study will be implemented on the other ungauged basins and could help us to identify the potential sites for HEP with the help of RS and GIS tools.
利用融雪径流模型(SRM)评估北阿坎德邦Alaknanda盆地的水电潜力
水电是满足印度快速增长的能源需求的最佳可再生能源之一。遥感和地理信息系统工具为评估喜马拉雅河流的可用水量提供了可靠的信息。本研究将流域划分为12个高程带,并在这些高程带内外推温度和降水。MODIS (terra&aqua)无云图像已用于绘制积雪面积,发现在模拟期间SCA将在18 - 72%之间变化。模型模拟期分为定标期(2003-2015年)和验证期(2016-2019年)。在研究过程中,观察到模型效率参数明显超出可接受范围。在本研究中,融雪的贡献增加到第8区;在此之后,融雪贡献减小,积雪量增加。同时,利用水轮机效率为0.8时的功率方程对流域的水力发电进行了建模。模拟的日流量和生成的HEP与实测值进行了比较,两者都非常精确地跟踪了观测到的模式。本研究的结果将在其他未测量的流域实施,并可以帮助我们在RS和GIS工具的帮助下确定HEP的潜在地点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.80
自引率
10.70%
发文量
168
审稿时长
>12 weeks
期刊介绍: Journal of Water and Climate Change publishes refereed research and practitioner papers on all aspects of water science, technology, management and innovation in response to climate change, with emphasis on reduction of energy usage.
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