不丹punatshangchu冰川盆地半分布式水文模型的建立

Q4 Engineering

Journal of Technology, Management, and Applied Engineering Pub Date : 2021-06-30 DOI:10.54417/jaetm.v1i1.19

V. Sharma, Jessica Jorden, P. Manso, G. D. Cesare

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引用次数: 0

摘要

水力发电在不丹的社会经济发展中起着关键作用，不丹的水资源丰富，因此正在规划几个水电站，并正在建设几个水电站。然而，由于在高海拔地区存在几个潜在危险的冰川湖，该国总是面临冰湖溃决洪水(GLOF)和气候变化的风险，这给水电站水库的长期可持续性带来了更高的不确定性。为了了解即将安装新水电站的流域的水文响应，使用RS MINERVE为Punatshangchu流域准备了复杂的半分布式水文模型。通过对模型的标定和验证，发现该模型具有较低的相对体积偏差(-0.196 ~ 0.050)和较高的纳什效率(0.540 ~ 0.990)，这是任何水电站大坝及其运行方案都应考虑的重要方面。这种模型是一种可行的工具，可以很好地适用于实际的洪水预报系统和管理。RS Minerve内置水电、水库、规划器和涡轮机方案，可用于了解规划和操作的一系列场景。

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DEVELOPMENT OF A SEMI-DISTRIBUTED HYDROLOGICAL MODEL FOR GLACIATED PUNATSHANGCHU BASIN IN BHUTAN

Hydropower plays a pivotal role in the socio-economic development of Bhutan where water resource is abundantly available and therefore several hydropower plants are being planned and a few under construction. However, with the presence of several potentially dangerous glacier lakes within the higher elevations, the country is always at the risk of Glacial Lake Outburst Flood (GLOF) and climate change which poses higher uncertainty regarding the sustainability of hydropower reservoirs in the long run. To understand the hydrological response of the basin, where new hydropower plants are going to be installed soon, a complex semi-distributed hydrological model has been prepared for the Punatshangchu basin using RS MINERVE. After calibration and validation of the model, it is observed that the model reflects low relative volume bias (-0.196 - 0.050) and high Nash efficiency (0.540 - 0.990) which is an important aspect to be considered for any hydropower dam and its operational schemes. Such a model is a viable tool well adapted to an operational flood forecasting system and management. With the built-in scheme for hydropower, reservoir, planner, and turbines within RS Minerve, it could be used to understand the array of scenarios for planning and operations.

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来源期刊

Journal of Technology, Management, and Applied Engineering Engineering-Engineering (all)

CiteScore

0.60

自引率

0.00%

发文量