2. Why?
At the city level
• Reduces water demand
• Reduces energy demand – lesser energy required for water distribution
• Improves groundwater situation
• In coastal areas, it can counter saline water intrusion into freshwater aquifers
• Prevents urban flooding
3. Why?
At the school level
• Reduces water bills
• Sets an example for students and parents
• Improves groundwater table if rainwater is recharged
• Improves groundwater quality by dilution
(rainwater has nearly neutral pH and zero hardness)
5. ROOFTOP RAINWATER HARVESTING
Catchment – rooftop
Transportation – Down take pipes
Filters – First flush device
Leaf and grit filter
Storage – Tank / well
Components
6. How much water can we harvest?
Rain Water Collected
From Both Sides of the
Roof
W
Rain Water
Collected From one
Side of the Roof
Amount of rainfall
(mm)
x =
W
Catchment Area
(m2)
Volume of water received
(Litres)
7. The water that leaves the rooftop may be 65 – 90% of
the water that falls on it
Roof material absorbs some water
More water loss if roof is flat
Evaporation losses
8. Keep the roof clean
• Remove leaves, plant debris,
bird and animal droppings, dead
rodents or birds
• No tar / bitumen on the roof
• No chemical pesticides or
fertilizers for rooftop garden
9. Transportation
Pipe size is calculated based on peak flow rates
(rooftop area and peak rainfall rate)
Gutter (open on top)
Downtake pipe (cylindrical)
PVC pipes preferred. Do not use lead pipes
10. Take care….
• Clamp gutters and down take pipes well
• Keep gutters clean of leaves
• See that leaves do not clog a down take pipe
(Jaali or leaf filter may be needed at rooftop discharge point
but this may also be a problem if leaf debris collects on it
and water stagnates on the roof)
• Gutters and down take pipes should be gently sloping
towards the storage tank, so that there is no stagnation of
water in the pipe
12. First flush
• The first rain carries with it a lot of filth from
the rooftop and dissolved air pollutants
• This rainwater should be diverted away from
the storage tank using a first flush device.
• Some filters have a first flush system
integrated in them
• Check and clean first flush devices
regularly.
First flush standpipe
13. STORAGE SIZE
Depends on
• Rainwater availability
• Water requirement
• Budget (storage tank is most expensive part of (rwh system)
• Available space and aesthetics
Excess water can be diverted into a groundwater recharge system
Do a water
audit to check
water
requirement.
14. STORAGE
• Above ground
– Ground level or Intermediate floor level
– Just below roof
• Below ground
Save on pumping cost
15. Storage tank features
• Durable and no leaks
• Built on a strong and stable substrate that can support the tank filled with water
• Opaque – presence of light can cause algal growth in tank
• Secure and impervious cover
• Vents to be covered with insect proof mesh
• Located as close as possible to demand and supply points to reduce plumbing
16. • Overflow pipe should be provided close to the top, to reduce dead space.
• Overflow pipe diameter should be equal to inlet pipe diameter
• Overflow pipe should lead excess water away from the foundation of tank and other buildings.
Preferably the overflow should be led into a groundwater recharge system or a garden
• There will be sedimentation in the tank. Taps and pipes to draw water from the tank should
not be very close to the bottom to prevent sediments from entering the plumbing system
and clogging it.
Storage tank features
17. What can we use the rain water for?
If used for drinking, it is absolutely necessary to
check water quality in a lab and treat as required
18. Other factors
• Some changes may be required in
plumbing, if retrofit
• Clean rwh system regularly
– Rooftop everyday
– Tank after a rainy season
– Filter after a rainy season