RAIN WATER HARVESTING AND
ARTIFICIAL RECHARGE TO GROUND WATER
ARTIFICAL
RECHARGE TO GROUND WATER:
Artificial recharge to
ground water is a process by which the ground water reservoir is augmented at a
rate exceeding that obtaining under natural conditions or replenishment. Any
man-made scheme or facility that adds water to an aquifer may be considered to
be an artificial recharge system.
WHY
RAIN WATER HARVESTING?
Rain water harvesting
is essential because:-
Surface water is
inadequate to meet our demand and we have to depend on ground water. Due to
rapid urbanization, infiltration of rain water into the sub-soil has decreased
drastically and recharging of ground water has diminished.
As you read this guide,
seriously consider conserving water by harvesting and managing this natural
resource by artificially recharging the system. The examples covering several
dozen installations successfully operating in India constructed and maintained
by CGWB, provide an excellent snapshot of current systems.
RAIN
WATER HARVESTING TECHNIQUES:
There are two main
techniques of rain water harvestings.
1.
Storage of rainwater on surface for
future use
2.
Recharge to ground water.
The storage of rain
water on surface is a traditional techniques and structures used were underground
tanks, ponds, check dams, weirs etc. Recharge to ground water is a new concept
of rain water harvesting and the structures generally used are:-
1. Pits: -
Recharge pits are constructed for recharging the shallow aquifer. These are
constructed 1 to 2 m, wide and to 3 m. deep which are back filled with
boulders, gravels, coarse sand.
2. Trenches: -
These are constructed when the permeable stram is available at shallow depth.
Trench may be 0.5 to 1 m. wide, 1 to 1.5m. Deep and 10 to 20 m. long depending
up availability of water. These are back filled with filter materials.
3. Dug wells: -
Existing dug wells may be utilized as recharge structure and water should pass
through filter media before putting into dug well.
4. Hand pumps: -
The existing hand pumps may be used for recharging the shallow/deep aquifers,
if the availability of water is limited. Water should pass through filter media
before diverting it into hand pumps.
5. Recharge wells: -
Recharge wells of 100 to 300 mm. diameter are generally constructed for recharging
the deeper aquifers and water is passed through filter media to avoid choking
of recharge wells.
6. Recharge Shafts:
- For recharging the shallow aquifer which are located below clayey surface,
recharge shafts of 0.5 to 3 m. diameter and 10 to 15 m. deep are constructed
and back filled with boulders, gravels & coarse sand.
7. Lateral shafts with bore wells:
- For recharging the upper as well as deeper aquifers lateral shafts of 1.5 to
2 m. wide & 10 to 30 m. long depending upon availability of water with one
or two bore wells are constructed. The lateral shafts is back filled with
boulders, gravels & coarse sand.
8. Spreading techniques:
- When a permeable stratum starts from top then this technique is used. Spread
the water in streams/Nalas by making check dams, nala bunds, cement plugs,
gabion structures or a percolation pond may be constructed.
DIVERSION
OF RUN OFF INTO EXISTING SURFACE WATER BODIES
Construction activity
in and around the city is resulting in the drying up of water bodies and
reclamation of these tanks for conversion into plots for houses. Free flow of
storm run-off into these tanks and water bodies must be ensured. The storm
run-off may be diverted into the nearest tanks or depression, which will create
additional recharge.
Urbanization
effects on Groundwater Hydrology:
Increase in water
demand
More dependence on
ground water use
Over exploitation of
ground water
Increase in run-off,
decline in well yields and fall in water levels
Reduction in open soil
surface area
Reduction in
infiltration and deterioration in water quality
Methods of artificial
recharge in urban areas :
Water spreading
Recharge through pits,
trenches, wells, shafts
Rooftop collection of
rainwater
Roadtop collection of
rainwater
Induced recharge from
surface water bodies.
Computation of
artificial recharge from Roof top rainwater collection :
Factors taken for
computation :
Roof top area 100 sq.m.
for individual house and 500 sq.m. for multi-storied building.
Average annual monsoon
rainfall - 780 mm.
Effective annual
rainfall contributing to recharge 70% - 550 mm.
|
Individual
Houses |
Multistoried
building |
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Roof top area
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100 sq. m.
|
500 sq. m.
|
|
Total quantity available forrecharge
per annum
|
55 cu. m
|
275 cu. m.
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Water available for 5 member Family
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100 days
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500 days
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Benefits
of Artificial Recharge in Urban Areas:
 |
Improvement in infiltration and reduction in run-off.
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Improvement in
groundwater levels and yields.
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Reduces strain on Special Village
Panchayats/ Municipal / Municipal Corporation water supply
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Improvement in
groundwater quality
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Estimated quantity of additional
recharge from 100 sq. m. roof top area is 55.000 liters.
|
HARVESTING
RAINWATER HARNESSING LIFE:
A
NOBLE GOAL - A COMMON RESPONSIBILITY
Ground water
exploitation is inevitable is Urban areas. But the groundwater potential is
getting reduced due to urbanisation resulting in over exploitation. Hence, a
strategy to implement the groundwater recharge, in a major way need to be
launched with concerted efforts by various Governmental and Non-Governmental
Agencies and Public at large to build up the water table and make the
groundwater resource, a reliable and sustainable source for supplementing water
supply needs of the urban dwellers.
Recharge of groundwater
through storm run-off and roof top water collection, diversion and collection
of run off into dry tanks, play grounds, parks and other vacant places are to
be implemented by Special Village Panchayats/ Municipalities /Municipal
Corporations and other Government Establishments with special efforts.
The Special Village
Panchayats /Municipalities/Municipal Corporations will help the citizens and
builders to adopt suitable recharge method in one's own house or building
through demonstration and offering subsidies for materials and incentives, if
possible.
ATTRIBUTES
OF GROUNDWATER:
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There is more ground water than surface water
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Ground water is less
expensive and economic resource.
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Ground water is sustainable and
reliable source of water supply.
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Ground water is
relatively less vulnerable to pollution
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Ground water is usually of high
bacteriological purity.
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Ground water is free
of pathogenic organisms.
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Ground water needs little treatment
before use.
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Ground water has no
turbidity and colour.
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Ground water has distinct health
advantage as art alternative for lower sanitary quality surface water.
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Ground water is
usually universally available.
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Ground water resource can be instantly
developed and used.
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There is no
conveyance losses in ground water based supplies.
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Ground water has low vulnerability to
drought.
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Ground water is key
to life in arid and semi-arid regions.
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Ground water is source of dry weather
flow in rivers and streams.
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