Publication: Impact of Climate Change on Reservoir Reliability: A Case of Bhumibol Dam in Ping River Basin, Thailand
Issued Date
2561
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eng
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Mahidol University
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Faculty of Environment and Resource Studies Mahidol University
Bibliographic Citation
Environment and Natural Resources Journal. Vol. 19, No. 4 (Jul-Aug 2021), 266-281
Suggested Citation
Allan Sriratana Tabucanon, Areeya Rittima, Detchasit Raveephinit, Yutthana Phankamolsil, Wudhichart Sawangphol, Jidapa Kraisangka, Yutthana Talaluxmana, Varawoot Vudhivanich, Wenchao Xue Impact of Climate Change on Reservoir Reliability: A Case of Bhumibol Dam in Ping River Basin, Thailand. Environment and Natural Resources Journal. Vol. 19, No. 4 (Jul-Aug 2021), 266-281. Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/63219
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Title
Impact of Climate Change on Reservoir Reliability: A Case of Bhumibol Dam in Ping River Basin, Thailand
Other Contributor(s)
Mahidol University. Faculty of Environment and Resource Studies
Mahidol University. Faculty of Engineering
Mahidol University. Faculty of Information and Communication Technology
Kasetsart University. Faculty of Engineering
Kasetsart University. Faculty of Engineering at Kamphaeng
Asian Institute of Technology. Department of Energy Environment and Climate Change
Mahidol University. Faculty of Engineering
Mahidol University. Faculty of Information and Communication Technology
Kasetsart University. Faculty of Engineering
Kasetsart University. Faculty of Engineering at Kamphaeng
Asian Institute of Technology. Department of Energy Environment and Climate Change
Abstract
Bhumibol Dam is the largest dam in the central region of Thailand and it serves as an important water resource. The dam’s operation relies on reservoir operating rules that were developed on the basis of the relationships among rainfall-inflow, water balance, and downstream water demand. However, due to climate change, changing rainfall variability is expected to render the reliability of the rule curves insecure. Therefore, this study investigated the impact of climate change on the reliability of the current reservoir operation rules of Bhumibol Dam. The future scenarios from 2000 to 2099 are based on EC-EARTH under RCP4.5 and RCP8.5 scenarios downscaled by RegCM4. MIKE11 HD was developed for the inflow simulation. The model generates the inflow well (R2=0.70). Generally, the trend of increasing inflow amounts is expected to continue in the dry seasons from 2000-2099, while large fluctuations of inflow are expected to be found in the wet seasons, reflecting high uncertainties. In the case of standard deviations, a larger deviation is predicted under the RCP8.5 scenario. For the reservoir’s operation in a climate change study, standard operating procedures were applied using historical release records to estimate daily reservoir release needed to serve downstream water demand in the future. It can be concluded that there is high risk of current reservoir operating rules towards the operation reliability under RCP4.5 (80% reliability), but the risk is lower under RCP8.5 (87% reliability) due to increased inflow amounts. The unmanageability occurs in the wet season, cautioning the need to redesign the rules.