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Artificial recharge of groundwater

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Lakshmi K Suresh
Lakshmi K Suresh

ARTIFICIAL RECHARGE OF GROUNDWATER

Engineering
1 of 30
3 February 2017 1/30
OVERVIEW  What is Artificial Groundwater Recharge  Need for Artificial Recharge  Identification of Areas for Recharge  Water Sources  Factors Affecting Artificial Groundwater Recharge  Methods of Artificial Recharge  Case Studies  Advantages of Artificial Groundwater Recharge  Conclusion 3 February 2017 2/30
What is Artificial Recharge Artificial recharge is the process of induced replenishment of the ground water reservoir by human activities 3 February 2017 3/30
Need for Artificial Recharge  Improve quality of existing groundwater  Conservation and storage of excess water for future use  To enhance yield in areas where aquifer has depleted  To remove bacteriological and other impurities from waste water 3 February 2017 4/30
Identification of Areas for Recharge  Where groundwater levels are declining rapidly  Where an aquifer has already been de-saturated  Where availability of groundwater is inadequate in lean months  Where salinity ingress is taking place 3 February 2017 5/30
Scientific Studies  Hydrometeorological Studies - rainfall  Hydrological Studies - availability  Soil Infiltration Studies - soil type  Hydrogeological Studies - location  Geophysical Studies - site  Analysis of Source Water  Prevention of Clogging - surface layer 3 February 2017 6/30
Factors Affecting Artificial Groundwater Recharge  Quantity of Source water  Quality of Source water, Pretreatment required  Time for which water would be available  Clogging Potential  Transmission characteristics of Aquifer 3 February 2017 7/30
Methods of Artificial Recharge 1.Direct Methods 2.Indirect Methods A) Surface Methods • Flooding • Basins or Percolation Tanks • Stream Augmentation • Ditch and Furrow Method • Contour Bund B) Sub Surface Methods • Injection Wells, Subsurface Dykes • Recharge Shafts • Recharge Pits A) Induced Recharge B) Aquifer Modification • Bore blasting method • Hydro fracturing method • Jacket well Techniques • Fracture seal cementation 3 February 2017 8/30
Surface Method  Suitable for large area of basin  Aquifer unconfined without impervious layer above  Rate of infiltration depend on nature of top soil, quality of water used  Solid suspension in water decreases infiltration rate 3 February 2017 9/30
1.Flooding • For flat topography • Water spread as thin sheet • Embankments on both sides • Infiltration higher in sandy soil, undistributed vegetation 3 February 2017 10/30 Fig.1 Flooding
2.Basin and Percolation Tanks • Most common method • Water impounded in a series of basins or tanks • Parallel to intermittent stream channels 3 February 2017 11/30 Fig.2 Percolation Tank
3.Stream Augmentation • Seepage from natural stream increased • By series of check dams across stream • Site selected should have sufficient thickness of permeable bed 3 February 2017 12/30 Fig.3 Stream Augmentation
4.Ditch and Furrow Method • Areas with uneven terrain • Shallow flat bottomed closely spaced ditches • More percolation • Spacing as per soil permeability 3 February 2017 13/30 Fig.4 Ditch and Furrow Method
5.Contour Bund • Small embankment constructed along contour in hilly region • Retain surface runoff for long time • For low rainfall area 3 February 2017 14/30 Fig. 5 Contour Bund
Sub Surface Method  Aims at recharging deeper aquifers  Important structures commonly used are Injection Wells or Recharge Wells, Recharge Pits, Recharge Shafts and Subsurface Dykes 3 February 2017 15/30
1.Injection Wells • Similar to tube well • Pumping In treated surface water under pressure • Confined Aquifer • Little land required 3 February 2017 16/30 Fig.6 Injection Well
2.Recharge Pits • Similar to recharge basins • Excavated of variable dimensions-deep • Canal trench 3 February 2017 17/30 Fig.7 Recharge Pit
3.Recharge Shafts • Poorly permeable strata overlie water table aquifer • Similar to recharge pit • No practical water loss • Smaller in cross-section • Fast recharge 3 February 2017 18/30 Fig.8 Recharge Shaft
4.Subsurface Dyke • Barrier impermeable to water • Underground • PVC sheet • Location-well-defined, wide, greatly sloping valley • No evaporation loss 3 February 2017 19/30 Fig.9 Subsurface Dyke
Indirect Methods:1.Induced Recharge • Water pumped from aquifer hydraulically • Reverse gradient formed • When poor quality of surface water 3 February 2017 20/30 Fig.10 Induced Recharge
2.Aquifer Modification  Aquifer storage capacity increased  Common methods: i. Bore blasting method ii. Hydro-fracturing method iii. Jacket well techniques iv. Fracture seal cementation 3 February 2017 21/30
Hydro-fracturing method  Water injected at high pressure to widen existing fracture of rock  Removes clogging  Interconnection between fractures 3 February 2017 22/30 Fig.11 Hydro-fracturing Method
Case Study: Mazhapolima, Kerala  To enhance the water table  Improved the quality of water in open dug wells  Techniques: i. roof-top harvesting - sand filter ii. roof-top harvesting - ordinary nylon filter  Simple  Economical 3 February 2017
Case Study: Artificial Storage Recovery, United Kingdom  Augmenting ground water during winter season  Recovering this water during summer  Injection of water into the aquifer at high supply times  Test conducted as a series of injection and abstraction cycles 3 February 2017 24/30
Advantages of Artificial Recharge  Enhance yield of wells and hand pumps  Improves water quality  Structures required - small and cost effective  No adverse effects like inundation of large surface areas and loss of crops  No displacement of local population  Reduction in cost of energy for lifting water 3 February 2017 25/30
Conclusion  Artificial recharge projects are designed to replenish ground water resources  Proper storage and management of available groundwater resources is essential 3 February 2017 26/30
References  Bhalerao,S,A, Kelkar,T,S, (2013) “Artificial Recharge of Groundwater: A Novel Technique for Replenishment of an Aquifer with Water from Land Surface”, International Journal of Geology, 3(1), 165-183  Kavuri,M, Boddu,M and Annamdas,V,G,M, (2011) “New Methods of Artificial Recharge of Aquifers: A Review”, IPWE, Proceedings of 4th International Perspective on Water Resources & the Environment, National University of Singapore (NUS), Singapore. Poster on: Artificial Recharge of Aquifer  Mukharjee,D, (2016) “A Review on Artificial Groundwater Recharge in India”, SSRG International Journal of Civil Engineering,3(1),60- 65 3 February 2017 27/30
References Contd…  Ramireddy,P,V, Padma,G,V, Reddy,N,B, (2015) “Identification of Groundwater Recharge Zones and Artificial Recharge Structures for Part of Tamil Nadu, India-A Geospatial Approach”, International Journal of Engineering Sciences & Re-search Technology, 4(7), 999- 1009  Ravichandran,S, Kumar,S,S, Singh,L, (2011) “Selective Techniques in Artificial Groundwater Recharge through Dug well and Injection well methods”, International Journal of ChemTech Research, 3(3), 1050-1053  Singh,S,K,(2012) “Groundwater Mound due to Artificial Recharge from Rectangular Areas”, Journal of Irrigation and Drainage Engineering, ASCE, 138(5), 476-480 3 February 2017 28/30
References Contd…  http://blog.al.com/wire/2011/06/mississippi_river_flooding_mis.html, January 15, 2017  http://vikaspedia.in/energy/environment/percolation-tank, January 16, 2017  http://www.cmu.edu/bajaj/water-management/, January 15, 2017  https://www.reference.com/business-finance/furrow-irrigation- 35a1b13fe0b68c9c, January 17, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/2.html, January 16, 2017  http://www.ngwa.org/Fundamentals/hydrology/PublishingImages/injection_ well.gif, January 15, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/3.html, January 16, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/4.html, January 15, 2017  http://peoriapublicradio.org/post/debate-new-fracking-rules-continues, January 16, 2017 3 February 2017 29/30
3 February 2017 30/30

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Artificial recharge of groundwater

  • 2. OVERVIEW  What is Artificial Groundwater Recharge  Need for Artificial Recharge  Identification of Areas for Recharge  Water Sources  Factors Affecting Artificial Groundwater Recharge  Methods of Artificial Recharge  Case Studies  Advantages of Artificial Groundwater Recharge  Conclusion 3 February 2017 2/30
  • 3. What is Artificial Recharge Artificial recharge is the process of induced replenishment of the ground water reservoir by human activities 3 February 2017 3/30
  • 4. Need for Artificial Recharge  Improve quality of existing groundwater  Conservation and storage of excess water for future use  To enhance yield in areas where aquifer has depleted  To remove bacteriological and other impurities from waste water 3 February 2017 4/30
  • 5. Identification of Areas for Recharge  Where groundwater levels are declining rapidly  Where an aquifer has already been de-saturated  Where availability of groundwater is inadequate in lean months  Where salinity ingress is taking place 3 February 2017 5/30
  • 6. Scientific Studies  Hydrometeorological Studies - rainfall  Hydrological Studies - availability  Soil Infiltration Studies - soil type  Hydrogeological Studies - location  Geophysical Studies - site  Analysis of Source Water  Prevention of Clogging - surface layer 3 February 2017 6/30
  • 7. Factors Affecting Artificial Groundwater Recharge  Quantity of Source water  Quality of Source water, Pretreatment required  Time for which water would be available  Clogging Potential  Transmission characteristics of Aquifer 3 February 2017 7/30
  • 8. Methods of Artificial Recharge 1.Direct Methods 2.Indirect Methods A) Surface Methods • Flooding • Basins or Percolation Tanks • Stream Augmentation • Ditch and Furrow Method • Contour Bund B) Sub Surface Methods • Injection Wells, Subsurface Dykes • Recharge Shafts • Recharge Pits A) Induced Recharge B) Aquifer Modification • Bore blasting method • Hydro fracturing method • Jacket well Techniques • Fracture seal cementation 3 February 2017 8/30
  • 9. Surface Method  Suitable for large area of basin  Aquifer unconfined without impervious layer above  Rate of infiltration depend on nature of top soil, quality of water used  Solid suspension in water decreases infiltration rate 3 February 2017 9/30
  • 10. 1.Flooding • For flat topography • Water spread as thin sheet • Embankments on both sides • Infiltration higher in sandy soil, undistributed vegetation 3 February 2017 10/30 Fig.1 Flooding
  • 11. 2.Basin and Percolation Tanks • Most common method • Water impounded in a series of basins or tanks • Parallel to intermittent stream channels 3 February 2017 11/30 Fig.2 Percolation Tank
  • 12. 3.Stream Augmentation • Seepage from natural stream increased • By series of check dams across stream • Site selected should have sufficient thickness of permeable bed 3 February 2017 12/30 Fig.3 Stream Augmentation
  • 13. 4.Ditch and Furrow Method • Areas with uneven terrain • Shallow flat bottomed closely spaced ditches • More percolation • Spacing as per soil permeability 3 February 2017 13/30 Fig.4 Ditch and Furrow Method
  • 14. 5.Contour Bund • Small embankment constructed along contour in hilly region • Retain surface runoff for long time • For low rainfall area 3 February 2017 14/30 Fig. 5 Contour Bund
  • 15. Sub Surface Method  Aims at recharging deeper aquifers  Important structures commonly used are Injection Wells or Recharge Wells, Recharge Pits, Recharge Shafts and Subsurface Dykes 3 February 2017 15/30
  • 16. 1.Injection Wells • Similar to tube well • Pumping In treated surface water under pressure • Confined Aquifer • Little land required 3 February 2017 16/30 Fig.6 Injection Well
  • 17. 2.Recharge Pits • Similar to recharge basins • Excavated of variable dimensions-deep • Canal trench 3 February 2017 17/30 Fig.7 Recharge Pit
  • 18. 3.Recharge Shafts • Poorly permeable strata overlie water table aquifer • Similar to recharge pit • No practical water loss • Smaller in cross-section • Fast recharge 3 February 2017 18/30 Fig.8 Recharge Shaft
  • 19. 4.Subsurface Dyke • Barrier impermeable to water • Underground • PVC sheet • Location-well-defined, wide, greatly sloping valley • No evaporation loss 3 February 2017 19/30 Fig.9 Subsurface Dyke
  • 20. Indirect Methods:1.Induced Recharge • Water pumped from aquifer hydraulically • Reverse gradient formed • When poor quality of surface water 3 February 2017 20/30 Fig.10 Induced Recharge
  • 21. 2.Aquifer Modification  Aquifer storage capacity increased  Common methods: i. Bore blasting method ii. Hydro-fracturing method iii. Jacket well techniques iv. Fracture seal cementation 3 February 2017 21/30
  • 22. Hydro-fracturing method  Water injected at high pressure to widen existing fracture of rock  Removes clogging  Interconnection between fractures 3 February 2017 22/30 Fig.11 Hydro-fracturing Method
  • 23. Case Study: Mazhapolima, Kerala  To enhance the water table  Improved the quality of water in open dug wells  Techniques: i. roof-top harvesting - sand filter ii. roof-top harvesting - ordinary nylon filter  Simple  Economical 3 February 2017
  • 24. Case Study: Artificial Storage Recovery, United Kingdom  Augmenting ground water during winter season  Recovering this water during summer  Injection of water into the aquifer at high supply times  Test conducted as a series of injection and abstraction cycles 3 February 2017 24/30
  • 25. Advantages of Artificial Recharge  Enhance yield of wells and hand pumps  Improves water quality  Structures required - small and cost effective  No adverse effects like inundation of large surface areas and loss of crops  No displacement of local population  Reduction in cost of energy for lifting water 3 February 2017 25/30
  • 26. Conclusion  Artificial recharge projects are designed to replenish ground water resources  Proper storage and management of available groundwater resources is essential 3 February 2017 26/30
  • 27. References  Bhalerao,S,A, Kelkar,T,S, (2013) “Artificial Recharge of Groundwater: A Novel Technique for Replenishment of an Aquifer with Water from Land Surface”, International Journal of Geology, 3(1), 165-183  Kavuri,M, Boddu,M and Annamdas,V,G,M, (2011) “New Methods of Artificial Recharge of Aquifers: A Review”, IPWE, Proceedings of 4th International Perspective on Water Resources & the Environment, National University of Singapore (NUS), Singapore. Poster on: Artificial Recharge of Aquifer  Mukharjee,D, (2016) “A Review on Artificial Groundwater Recharge in India”, SSRG International Journal of Civil Engineering,3(1),60- 65 3 February 2017 27/30
  • 28. References Contd…  Ramireddy,P,V, Padma,G,V, Reddy,N,B, (2015) “Identification of Groundwater Recharge Zones and Artificial Recharge Structures for Part of Tamil Nadu, India-A Geospatial Approach”, International Journal of Engineering Sciences & Re-search Technology, 4(7), 999- 1009  Ravichandran,S, Kumar,S,S, Singh,L, (2011) “Selective Techniques in Artificial Groundwater Recharge through Dug well and Injection well methods”, International Journal of ChemTech Research, 3(3), 1050-1053  Singh,S,K,(2012) “Groundwater Mound due to Artificial Recharge from Rectangular Areas”, Journal of Irrigation and Drainage Engineering, ASCE, 138(5), 476-480 3 February 2017 28/30
  • 29. References Contd…  http://blog.al.com/wire/2011/06/mississippi_river_flooding_mis.html, January 15, 2017  http://vikaspedia.in/energy/environment/percolation-tank, January 16, 2017  http://www.cmu.edu/bajaj/water-management/, January 15, 2017  https://www.reference.com/business-finance/furrow-irrigation- 35a1b13fe0b68c9c, January 17, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/2.html, January 16, 2017  http://www.ngwa.org/Fundamentals/hydrology/PublishingImages/injection_ well.gif, January 15, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/3.html, January 16, 2017  http://nptel.ac.in/courses/105103026/module4/lec29/4.html, January 15, 2017  http://peoriapublicradio.org/post/debate-new-fracking-rules-continues, January 16, 2017 3 February 2017 29/30