Impacts of the 2011 Thailand Flood on Groundwater Recharge Potential in Flood Retention Area in the Middle Reach of Tha Chin River
Issued Date
2022-07-01
Resource Type
eISSN
27304175
Scopus ID
2-s2.0-85189296792
Journal Title
Engineering Access
Volume
8
Issue
2
Start Page
186
End Page
191
Rights Holder(s)
SCOPUS
Bibliographic Citation
Engineering Access Vol.8 No.2 (2022) , 186-191
Suggested Citation
Rantasewee S., Teerapunyapong P., Rittima A., Surakit K., Phankamolsil Y., Tabucanon A.S., Sawangphol W., Kraisangka J., Talaluxmana Y. Impacts of the 2011 Thailand Flood on Groundwater Recharge Potential in Flood Retention Area in the Middle Reach of Tha Chin River. Engineering Access Vol.8 No.2 (2022) , 186-191. 191. doi:10.14456/mijet.2022.24 Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/97924
Title
Impacts of the 2011 Thailand Flood on Groundwater Recharge Potential in Flood Retention Area in the Middle Reach of Tha Chin River
Corresponding Author(s)
Other Contributor(s)
Abstract
The non–structural flood control measures under concept of “room for the river” were addressed and contained in the national master plan of flood management of Thailand due to unprecedented flooding occurrence in 2011. Some specific areas particularly in the upper and lower east of the Phanom Thuan, Song Phi Nong, and Bang Len Operation and Maintenance Projects in the middle reach of Tha Chin River were assigned as large flood retention area to retain excessive floodwater and reduce flood peak from the Chao Phraya and Tha Chin River Basins. Consequently, this study aims to explore the potential of groundwater recharge in the assigned flood retention area due to the 2011 Thailand flood. Groundwater flow modelling was then carried out and 4 scenarios of assigned flood stages of 0.50 m, 0.80 m, 1.50 m, and 2.00 m above the land surface were then simulated. The increase in hydraulic heads was investigated and compared with the spatial distribution of groundwater recharge rates done by WetSpass model in the same area. The results show that groundwater recharge potential in flood retention area along the right bank of the Tha Chin River is definitely low due to inappropriateness of hydro– geologic properties and high thickness of clay soil. In addition, the effects of downslope topography on local hydraulic gradient would influence the direction of groundwater flow discharging into the Tha Chin River and adjacent area. The simulated results performed by WetSpass model also show that average groundwater recharge rate in critical flood year in 2011 is 198.54 mm which is quantified as 19.43% of average annual rainfall. Moreover, the lowest value of average groundwater recharge rate is found especially in the lower east of Bang Len Operation and Maintenance Project which is considered as the assigned flood retention area.