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RAIN WATER RAIN WATER HARVESTINGHARVESTING
REASONS OF SHORTAGE OF WATER
• POPULATION INCREASE• INDUSTRIALIZATION• URBANIZATION
(A) INCREASE IN PER CAPITA UTILIZATION
(B) LESS PECULATION AREA• IN PLACES WHERE RAIN FED/ IRRIGATION BASED CROPS ARE
CULTIVATED THROUGH GROUND WATER• DECREASE IN SURFACE AREA OF LAKES, TALAB, TANKS ETC.1
REASONS OF SHOTRAGE OF WATER CONTINUED…..
• DEFORESTATION(I) LESS PRECIPITATION(II) ABSENCE OF BARRIERS
(A) RAIN DROPS CHECKED BY LEAVES OF TREE(B) WATER SLOWLY DESCENDS THROUGH TWIGS & TRUNK© HUMUS – ACTS AS RESERVOIR(D) TINY CREATURES – HELPS PERCOLATION
2 31 hectare of forest-6-7 Lac ton of water(after filtering) top layer can hold 1.2 Lac tons of water
WHAT IS THE SOLUTION ?• RAIN WATER IS THE ULTIMATE SOURCE OF FRESH WATER• POTENTIAL OF RAIN TO MEET WATER DEMAND IS
TREMENDOUS• RAIN WATER HARVESTING HELPS TO OVERCOME WATER
SCARCITY• TO CONSERVE GROUND WATER THE AQUIFERS MUST BE
RECHARGED WITH RAIN WATER• RAIN WATER HARVESTING IS THE ULTIMATE ANSWER
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WHY RAIN WATER BE HARVESTED
• TO CONSERVE & AUGMENT THE STORAGE OF GROUND WATER
• TO REDUCE WATER TABLE DEPLETION• TO IMPROVE THE QUALITY OF GROUND WATER • TO ARREST SEA WATER INTRUSION IN COASTAL
AREAS • TO AVOID FLOOD & WATER STAGNATION IN URBAN
AREAS
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WHAT IS RAIN WATER HARVESTING ?
• IT IS THE ACTIVITY OF DIRECT COLLECTION OF RAIN WATER
• RAIN WATER CAN BE STORED FOR DIRECT USE OR CAN BE RECHARGED INTO THE GROUND WATER AQUIFIER.
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THE ROOF CATCHMENT ARE SELECTIVELY CLEANER WHEN
COMPARED TO THE GROUND LEVEL CATCHMENT
• LOSSES FROM ROOF CATCHMENT ARE MINIMUM• BUILT & MAINTAINED BY LOCAL COMMUNITIES• NO CHEMICAL CONTAMINATION & ONLY REQUIRED FILTRATION• AVAILABLE AT DOOR STEP WITH LEAST COST
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THE TYPICAL ROOF TOP RAIN WATER HARVESTING SYSTEM
COMPRISES• ROOF CATCHMENT• GUTTERS• DOWN PIPE & FIRST FLUSHING PIPE• FILTER UNIT• STORAGE TANK
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ROOF CATCHMENTTHE ROOF OF THE HOUSE IS USED AS THE CATCHMENT FOR COLLECTING RAIN WATER. THE STYLE CONSTRUCTION AND MATERIAL OF THE ROOF EFFECT ITS SUITABILITY AS A CATCHMENT, ROOFS MADE OF CORRUGATED IRON SHEET , ASBESTOS SHEET, TILES OR CONCRETE CAN BE UTILIZED FOR HARVESTING THE RAIN WATER
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GUTTERS
GUTTERS ARE CHANNELS FIXED TO THE EDGES OF ROOF ALL AROUND TO COLLECT & TRANSPORT THE RAINWATER FROM THE ROOF. GUTTERS CAN BE MADE IN SEMI-CIRCULAR AND RECTANGULAR SHAPE WITH CEMENT PIPE, PLAIN GALVANIZED IRON SHEET, PVC PIPES, BAMBOOS ETC. USE OF LOCALLY AVAILABLE MATERIAL REDUCE THE OVERALL COST OF THE SYSTEM.
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DOWN PIPE
IT IS THE PIPE WHICH CARRIES THE RAINWATER FROM THE GUTTERS TO THE FILTER & STORAGE TANK. DOWN PIPE IS JOINED WITH THE GUTTERS AT ONE END & THE OTHER END IS CONNECTED TO THE FILTER UNIT OF THE STORAGE TANK. PVC OR GI PIPE OF 50MM TO 75MM (2 TO”) ARE COMMONLY USED FOR DOWN PIPE. BAMBOO CAN BE ALSO USED WHEREVER AVAILABLE AND POSSIBLE
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FIRST FLUSH PIPE
DEBRIS, DUST & DIRT COLLECT ON THE ROOF DURING NON RAINY PERIODS WHEN THE FIRST RAIN ARRIVE. A FIRST FLUSH SYSTEM ARRANGEMENT IS MADE TO AVOID THE ENTERING UNWANTED MATERIAL INTO THE FILTER MEDIA & STORAGE TANK. THIS IS A SIMPLE MANUALLY OPERATED ARRANGEMENT OR SEMI-AUTOMATIC SYSTEM WITH A VALVE BELOW THE ‘T’ JUNCTION
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FILTER UNIT
THE FILTER UNIT IS A CONTAINER OR CHAMBER FILLED WITH FILTER MEDIA SUCH AS COARSE SAND, CHARCOAL, COCONUT FIBER, PEBBLES & GRAVELS TO REMOVE THE DEBRIS & DIRT FROM WATER THAT ENTERS THE TANK. THE FILTER UNIT IS PLACED OVER THE STORAGE TANK OR SEPARATELY. IT MAY BE OF FERRO CEMENT FILTER UNIT, ALUMINUM, CEMENT RINGS OR PLASTIC BUCKET ETC.
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STORAGE TANKIT IS USED TO STORE THE WATER THAT IS COLLECTED FROM THE ROOF THROUGH FILTER. FOR SMALL SCALE WATER STORAGE PLASTIC BUCKETS, JERRY CANS, CLAY OR CEMENT JARS, CERAMIC JARS, DRUMS MAY BE USED. FOR LARGER QUANTITIES OF WATER, THE SYSTEM WILL REQUIRE A BIGGER TANK WITH CYLINDRICAL OR RECTANGULAR OR SQUARE IN SHAPE CONSTRUCTED WITH FERRO CEMENT OR CEMENT RINGS OR PLAIN CEMENT CONCRETE OR REINFORCED CEMENT CONCRETE OR BRICK OR STONE ETC. THE STORAGE TANK IS PROVIDED WITH A COVER ON THE TOP TO AVOID THE CONTAMINATION OF WATER FROM EXTERNAL SOURCES. THE STORAGE TANK IS PROVIDED WITH PIPE FIXTURES AT APPROPRIATE PLACES TO DRAW THE WATER TO CLEAN THE TANK & TO DISPOSE OF EXTRA WATER. A PROVISION FOR KEEPING THE VESSEL TO COLLECT THE WATER IS TO BE MADE.
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SIZE OF STORAGE TANK• BASED ON
• NO. OF PERSON IN THE HOUSE HOLD• PER CAPITA WATER REQUIREMENT• NO. OF DAYS FOR WHICH WATER IS REQUIREDEXAMPLEDRINKING WATER REQUIREMENT FOR A HOUSEHOLD WITH 5 FAMILY
MEMBERS, PERIOD 8 MONTHS & 6 LPCD= 5X 180X 6= 7200 LITERS
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WATER AVAILABLE FROM ROOF
ANNUAL RAINFALL (IN MM) X ROOF AREA (IN SQ. M) X CO-EFFICIENT OF RUN OFF FOR ROOF
CO-EFFICIENT OF RUN OFF GI SHEET 0.9ASBESTOS 0.8TILED 0.75PLASTER ON BRICKS/ CONCRETE 0.7
WATER AVAILABLE FROM ROOF TOP 800MMX 20 SQ.M=12800 LITERS PER ANNUM
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WATER AVAILABLE FROM ROOF CONTINUED……
SIZE OF TANK =1.2 M DIA 1.8 M HEIGHTNO. OF TANKS 4VOLUME OF TANKS 3.14X1.2X1.2X1.5/42.03 CUM2000 LITERSVOLUME OF OF 4 TANKS =4X20008000 LITERS(THIS CAN BE DESIGNED AS PER REQUIREMENT)
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COST OF MATERIAL FOR TANK
• 1. CEMENT 8 BAGS*RS. 140.00 1120.00• 2. GRIT .25 CUM 200.00• 3. SAND .4 CUM 100.00• 4. PERFORATED CEMENT RINGS 5 NO. 1000.00• 5. P/FABRICATED CEMENT RINGS 4 NO. 400.00• 6. PVC PIPE 63MM DIA.*10M 200.00• 7. P/FABRICATED ASBESTOS 10MM DIA.*10MM
GUTTERS 250.008. MASON/ LABOR CHARGES. 1000.009. TRANSPORTATION 130.00
TOTAL 4400.0027
COST OF MATERIAL FOR FILTRATION TANK
• 1. P/FABRICATED CEMENT RINGS 5*RS. 40.00200.00
• 2. CEMENT 2 BAGS*RS. 140.00 280.00• 3. SAND 2 BAGS 50.00• 4. GRIT 4 BAGS 50.00• 5. CHARCOAL 20 KG*RS. 8.00 160.00• 6. SAND FOR PLASTERING 4 BAGS 100.00• 7. MASON/ LABOR 500.00• 8. WHITE WASHING 40.00• 9. TRANSPORTATION 50.00
TOTAL1430.00
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• TOTAL COST OF CONSTRUCTION RS. 4400.00+RS. 1430.00= RS. 5830.00
THE COST ON O/ M-1. WHITE WASHING 100.002. WATER TESTING 200.00
(2 TIMES A YEAR) 300.00
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DISADVANTAGES• ACID RAIN CAN BE DANGEROUS • UNPREDICTABLE RAINFALL• INITIAL COST IS HIGH• REGULAR MAINTENANCE NEEDED TO PREVENT GROWTH OF
ALGAE, MOSQUITOES• STORAGE IS LIMITED
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ADVANTAGES
• EASY TO MAINTAIN• REDUCING WATER BILLS• SUITABLE FOR IRRIGATION• REDUCES FLOODS AND SOIL IRRIGATION
HOW THE PROBLEM CAN BE MINIMIZED
1 BY PROVIDING PIPE WATER SYSTEM WITH SOURCE (ELECTRIC BASED)
(A) SURFACE WATER(B) DEEP TUBEWELLS2 RECHARGING STRATAS THROUGH RAINWATER HARVESTING
METHODS(NO. OF VILLAGES OF LOWER RANGE CONCENTRATION CAN BE DECREASED)
3 STORING RAIN WATER FOR DRINKING PURPOSE(A) IN AREAS WHERE ELECTRICITY PROBLEM IS MORE(B) IN AREAS WHERE CONCENTRATION IS MORE © IN AREAS WHERE PWS IS UNECONOMICAL (D) IN AREAS WHERE DEPENDABLE SOURCE IS NOT AVAILABLE
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THANK YOU
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