Geotechnology has a significant role to play in recharging the groundwater by arresting the surface runoff , thereby, allowing the water to penetrate the ground. This paper highlights the importance of geotechnology in river rejuvenation and discusses geotechnical schemes for ground recharging. The artificial techniques can be used for groundwater recharge, which can be classified as surface methods and sub-surface methods. This paper briefly discusses artificial groundwater recharge techniques and geotechnical considerations associated along with the methods to reduce flow velocity of the surface and subsurface water. Groundwater hydrology, soil/rock characteristics, and permeability are the major factors governing the efficiency of groundwater recharge techniques. Surface methods enhance groundwater infiltration by providing more residence time with the help of structural and nonstructural measures. Subsurface structures enhance the infiltration of water into the aquifer. This paper also discusses the concept of the subsurface dike or underground dams and its applicability in storing a large amount of water underground to ensure base flow in streams. Different materials with significant applications in groundwater recharge through geotechnology are also discussed in brief.
Role of Geotechnology in Groundwater Recharge and River Rejuvenation Works
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Geotechnology has a significant role to play in recharging the groundwater by arresting the surface runoff , thereby, allowing the water to penetrate the ground. This paper highlights the importance of geotechnology in river rejuvenation and discusses geotechnical schemes for ground recharging. The artificial techniques can be used for groundwater recharge, which can be classified as surface methods and sub-surface methods. This paper briefly discusses artificial groundwater recharge techniques and geotechnical considerations associated along with the methods to reduce flow velocity of the surface and subsurface water. Groundwater hydrology, soil/rock characteristics, and permeability are the major factors governing the efficiency of groundwater recharge techniques. Surface methods enhance groundwater infiltration by providing more residence time with the help of structural and nonstructural measures. Subsurface structures enhance the infiltration of water into the aquifer. This paper also discusses the concept of the subsurface dike or underground dams and its applicability in storing a large amount of water underground to ensure base flow in streams. Different materials with significant applications in groundwater recharge through geotechnology are also discussed in brief.
Publication Mode |
Online |
---|---|
Publication Author |
T. G. Sitharam, Sreevalsa Kolathayar |
Publication Language |
English |
Publication Type |
Conference Paper |
Publication Year |
2020 |
DOI |
10.17491/cgsi/2020/156160 |
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