This document discusses rainwater harvesting, which involves collecting and storing rainwater from rooftops and surfaces where rain falls. It notes that rainwater harvesting is important for replenishing groundwater supplies and addressing water scarcity issues. The document provides details on the components of a rainwater harvesting system, including catchment areas, gutters, filters, and storage tanks. It discusses the benefits of rainwater harvesting and how to estimate the potential water harvest from a given area based on rainfall amounts. Overall, the document promotes rainwater harvesting as a sustainable and cost-effective way to conserve water resources.
Concept Of rainwater harvesting
Why rainwater is harvested
Rainwater harvesting today
Not new to India
Johads of Rajasthan
Rain water harvesting potential in India
Rain water harvesting system
How to harvest rain water
Components of roof top rainwater harvesting system
Filters used
Methods of roof top rain water harvesting
Advantage of rainwater harvesting
Do's and Dont's
Concept Of rainwater harvesting
Why rainwater is harvested
Rainwater harvesting today
Not new to India
Johads of Rajasthan
Rain water harvesting potential in India
Rain water harvesting system
How to harvest rain water
Components of roof top rainwater harvesting system
Filters used
Methods of roof top rain water harvesting
Advantage of rainwater harvesting
Do's and Dont's
The annual rainfall of Iran is about 13% as compared to rainfall in India. Despite of it, due to employing Rainwater Harvesting techniques and better water management , the government of Iran has been able to match up the water demands of the citizens of Iran.The presentations gives an overview of torography,technology, various rainwater harvesting structures employed in Iran.
Due to the ever-increasing population, surface water is not enough to meet all the demands and the dependence automatically goes to ground water that drastically leading to a constant depletion of ground water level causing the wells and tube wells to dry up. To enhance the availability of groundwater at specific places and times and utilize rainwater for sustainable development.
The harvesting of rainwater simply involves the collection of water from surfaces on which rain falls, and subsequently storing this water for later use. Normally water is collected from the roofs of buildings and stored in rainwater tanks.
Water Shortage is a topic which is not restricted to India alone but its a global issue now.Rainwater harvesting is a technique of collection and storage of rainwater into natural reservoirs or tanks, or the infiltration of surface water into subsurface aquifers (before it is lost as surface runoff). One method of rainwater harvesting is rooftop harvesting.
The annual rainfall of Iran is about 13% as compared to rainfall in India. Despite of it, due to employing Rainwater Harvesting techniques and better water management , the government of Iran has been able to match up the water demands of the citizens of Iran.The presentations gives an overview of torography,technology, various rainwater harvesting structures employed in Iran.
Due to the ever-increasing population, surface water is not enough to meet all the demands and the dependence automatically goes to ground water that drastically leading to a constant depletion of ground water level causing the wells and tube wells to dry up. To enhance the availability of groundwater at specific places and times and utilize rainwater for sustainable development.
The harvesting of rainwater simply involves the collection of water from surfaces on which rain falls, and subsequently storing this water for later use. Normally water is collected from the roofs of buildings and stored in rainwater tanks.
Water Shortage is a topic which is not restricted to India alone but its a global issue now.Rainwater harvesting is a technique of collection and storage of rainwater into natural reservoirs or tanks, or the infiltration of surface water into subsurface aquifers (before it is lost as surface runoff). One method of rainwater harvesting is rooftop harvesting.
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Rainwater harvesting ppt
1. Rainwater Harvesting:
Grab hold of Water Where it Falls!
#
*
Mrs. S.D. Khandagale , Mrs. V.A. Joshi
#
Lecurer, Instrumentation Department
V.P.M’s Polytechni, Thane, MS, India
smita_khandagale@hotmail.com
*
H.O.D, Instrumentation Department
V.P.M’s Polytechnic, Thane, MS, India
Abstract
Till about thirty years back, the areas around our homes and offices used to be unpaved and the rain
falling on these areas would percolate into the soil and remain there for being drawn through shallow
open wells. With the proliferation of flat complexes, not only have these areas been paved and
percolation of rainwater into the soil almost totally stopped, the quantity of water drawn from the soil
below has increased manifold. Consequently open wells and not - so - deep bore wells started drying up.
The reason is that no sincere attempt is made to replenish the ground water table with rainwater during
the monsoon. The Rainwater harvesting is the simple collection or storing of water through scientific
techniques from the areas where the rain falls. It involves utilization of rain water for the domestic or the
agricultural purpose. The method of rain water harvesting has been into practice since ancient times. It is
as far the best possible way to conserve water and awaken the society towards the importance of water.
The method is simple and cost effective too. It is especially beneficial in the areas, which faces the
scarcity of water.
People usually make complaints about the lack of water. During the monsoons lots of water goes waste
into the gutters. And this is when Rain water Harvesting proves to be the most effective way to conserve
water. We can collect the rain water into the tanks and prevent it from flowing into drains and being
wasted. It is practiced on the large scale in the metropolitan cities. Rain water harvesting comprises of
storage of water and water recharging through the technical process
Introduction
It was very difficult to imagine few decades before that you will require to buy drinking. The use
value of water was never undermined, but its about time that even its exchange value is given due
importance. Fresh water today is a scarce resource, and it is being felt the world over. More than 2000
million people would live under conditions of high water stress by the year 2050, according to the UNEP
(United Nations Environment Programme), which warns water could prove to be a limiting factor for
development in a number of regions in the world. About one-fifth of the world’s population lacks access to
safe drinking water and with the present consumption patterns; two out of every three persons on the
earth would live in water-stressed conditions by 2025. Around one-third of the world population now lives
in countries with moderate to high water stress—where water consumption is more than 10% of the
renewable fresh water supply, said the GEO (Global Environment Outlook) 2000, the UNEP’s millennium
report. Pollution and scarcity of water resources and climate change would be the major emerging issues
in the next century, said the report. These issues would be followed by problems of desertification and
deforestation, poor governance at the national and global levels, the loss of biodiversity, and population
growth, said the report - The Observer of Business and Politics, 12 October 1999.
2. The reality of water crisis cannot be ignored. India has been notorious of being poor in its management of
water resources. The demand for water is already outstripping the supply. Majority of the population in the
cities today are groundwater dependent. In spite of the municipal water supply, it is not surprising to find
people using private tube wells to supplement their daily water needs. As a result, the groundwater table
is falling at an alarming rate.
Extraction of groundwater is being done unplanned and uncontrolled thus this has resulted in:
Hydrological imbalance
Deterioration in water quality
Rise in energy requirements for pumping
Rain Water Harvesting, is an age-old system of collection of rainwater for future use. But systematic
collection and recharging of ground water, is a recent development and is gaining importance as one of
the most feasible and easy to implement remedy to restore the hydrological imbalance and prevent a
crisis.
Technically speaking, water harvesting means A system that collects rainwater from where it falls rather
than allowing it to drain away. It includes water that is collected within the boundaries of a property, from
roofs and surrounding surfaces. Experts suggest various ways of harvesting water:
• Capturing run-off from rooftops
• Capturing run-off from local catchments
• Capturing seasonal flood water from local streams
• Conserving water through watershed management
Local water harvesting systems developed by local communities and households can reduce the
pressure on the state to provide all the financial resources needed for water supply. In addition, involving
people will give them a sense of ownership and reduce the burden on government funds.
Need for Water Harvesting
The scarcity of water is a well-known fact. In spite of higher average annual rainfall in India (1,170
mm, 46 inches) as compared to the global average (800 mm, 32 inches) it does not have sufficient water.
Most of the rain falling on the surface tends to flow away rapidly, leaving very little for the recharge of
groundwater. As a result, most parts of India experience lack of water even for domestic uses.
Surface water sources fail to meet the rising demands of water supply in urban areas, groundwater
reserves are being tapped and over-exploited resulting into decline in groundwater levels and
deterioration of groundwater quality. This precarious situation needs to be rectified by immediately
recharging the depleted aquifers.
Hence, the need for implementation of measures to ensure that rain falling over a region is tapped as fully
as possible through water harvesting, either by recharging it into the groundwater aquifers or storing it for
direct use.
3. Science of Water Harvesting
In scientific terms, water harvesting refers to collection and storage of rainwater and also other
activities aimed at harvesting surface and groundwater, prevention of losses through evaporation and
seepage and all other hydrological studies and engineering inventions, aimed at conservation and
efficient utilization of the limited water endowment of physiographic unit such as a watershed.
Rain is a primary source of water for all of us. There are two main techniques of rainwater harvesting:
Storage of rainwater on surface for future use.
Recharge to groundwater.
Directly collected rainwater can be stored for direct use or can be recharged into the groundwater.
All the secondary sources of water like rivers, lakes and groundwater are entirely dependent on rain as a
primary source.
HYDROLOGICAL CYCLE
The term water harvesting is understood to encompass a wide range of concerns, including rainwater
collection with both rooftop and surface runoff catchment, rainwater storage in small tanks and large-scale
artificial reservoirs, groundwater recharge, and also protection of water sources against pollution.
The objective of water harvesting in India differs between urban and rural areas. In urban areas,
emphasis is put on increasing groundwater recharge and managing storm water. On the other hand, in
rural areas securing water is more crucial. There the aim is to provide water for drinking and farming,
especially for life-saving irrigation, and to increase groundwater recharge.
Rooftop / Runoff Rainwater Harvesting for Artificial Recharge to Ground Water
Water harvesting is the deliberate collection and storage of rainwater that runs off on natural or
manmade catchment areas. Catchment includes rooftops, compounds, rocky surface or hill slopes or
artificially prepared impervious/ semi-pervious land surface. The amount of water harvested depends on
the frequency and intensity of rainfall, catchment characteristics, water demands and how much runoff
occurs and how quickly or how easy it is for the water to infiltrate through the subsoil and percolate down
to recharge the aquifers. Moreover, in urban areas, adequate space for surface storage is not available,
water levels are deep enough to accommodate additional rainwater to recharge the aquifers, rooftop and
runoff rainwater harvesting is ideal solution to solve the water supply problems.
ADVANTAGES OF RAINWATER HARVESTING
1. To meet the ever increasing demand for water. Water harvesting to recharge the groundwater
enhances the availability of groundwater at specific place and time and thus assures a continuous and
reliable access to groundwater.
2. To reduce the runoff which chokes storm drains and to avoid flooding of roads.
3. To reduce groundwater pollution and to improve the quality of groundwater through dilution when
recharged to groundwater thereby providing high quality water, soft and low in minerals.
4. Provides self-sufficiency to your water supply and to supplement domestic water requirement during
4. summer and drought conditions.
5. It reduces the rate of power consumption for pumping of groundwater. For every 1 m rise in water
level, there is a saving of 0.4 KWH of electricity.
6. Reduces soil erosion in urban areas
7. The rooftop rainwater harvesting is less expensive, easy to construct, operate and maintain.
8. In saline or coastal areas, rainwater provides good quality water and when recharged to ground water,
it reduces salinity and helps in maintaining balance between the fresh-saline water interfaces.
9. In Islands, due to limited extent of fresh water aquifers, rainwater harvesting is the most preferred
source of water for domestic use.
10. In desert, where rainfall is low, rainwater harvesting has been providing relief to people.
Design Considerations
Three most important components, which need to be evaluated for designing the rainwater harvesting
structure, are:
1. Hydrogeology of the area including nature and extent of aquifer, soil cover, topography, depth to water
levels and chemical quality of ground water
2. Area contributing for runoff i.e. how much area and land use pattern, whether industrial, residential or
green belts and general built up pattern of the area
3. Hydro-meteorological characters like rainfall duration, general pattern and intensity of rainfall.
Components Of Rain Harvesting System
A rainwater harvesting system comprises components of various stages - transporting rainwater through
pipes or drains, filtration, and storage in tanks for reuse or recharge. The common components of a
rainwater harvesting system involved in these stages are illustrated here.
1. Catchments
The catchment of a water harvesting system is the surface which directly receives the rainfall and
provides water to the system. It can be a paved area like a terrace or courtyard of a building, or an
unpaved area like a lawn or open ground. A roof made of reinforced cement concrete (RCC),
galvanised iron or corrugated sheets can also be used for water harvesting.
5. 2. COARSE MESH
At the roof to prevent the passage of debris.
3. GUTTERS
Channels all around the edge of a sloping roof to collect and transport rainwater to the storage tank.
Gutters can be semi-circular or rectangular and could be made using:
Locally available material such as plain galvanised iron sheet (20 to 22 gauge), folded to required
shapes.
Semi-circular gutters of PVC material can be readily prepared by cutting those pipes into two equal
semi-circular channels.
Bamboo or betel trunks cut vertically in half.
The size of the gutter should be according to the flow during the highest intensity rain. It is advisable to
make them 10 to 15 per cent oversize.
Gutters need to be supported so they do not sag or fall off when loaded with water. The way in which
gutters are fixed depends on the construction of the house; it is possible to fix iron or timber brackets
into the walls, but for houses having wider eaves, some method of attachment to the rafters is
necessary.
4. Conduits
Conduits are pipelines or drains that carry rainwater from the catchment or rooftop area to the
harvesting system. Conduits can be of any material like polyvinyl chloride (PVC) or galvanized iron (GI),
materials that are commonly available.
The following table gives an idea about the diameter of pipe required for draining out rainwater based on
rainfall intensity and roof area:
Diameter Of pipe (mm)
Average rate of rainfall in
mm/h
50
75
100
125
150
200
50
13.4
8.9
6.6
5.3
4.4
3.3
65
24.1
16.0
12.0
9.6
8.0
6.0
75
40.8
27.0
20.4
16.3
13.6
10.2
100
85.4
57.0
42.7
34.2
28.5
21.3
125
-
-
80.5
64.3
53.5
40.0
-
-
-
-
83.6
62.7
150
Sizing of rainwater pipe for roof drainage
mm/ h - millimeters per hour; m - meters
5. First-Flushing
A first flush device is a valve that ensures that runoff from the first spell of rain is flushed out and does
not enter the system. This needs to be done since the first spell of rain carries a relatively larger
amount of pollutants from the air and catchment surface.
6. 6. FILTER
The filter is used to remove suspended pollutants from rainwater collected over roof. A filter unit is a
chamber filled with filtering media such as fibre, coarse sand and gravel layers to remove debris and
dirt from water before it enters the storage tank or recharge structure. Charcoal can be added for
additional filtration.
A water harvesting manual for urban areas
1. Charcoal water filter
A simple charcoal filter can be made in a drum or an earthen pot. The filter is made of gravel, sand
and charcoal, all of which are easily available.
2. Sand filters
Sand filters have commonly available sand as filter media. Sand filters are easy and inexpensive to
construct. These filters can be employed for treatment of water to effectively remove turbidity
(suspended particles like silt and clay), colour and microorganisms.
Water harvesting manual for urban areas
7. In a simple sand filter that can be constructed domestically, the top layer comprises coarse sand followed
by a 5-10 mm layer of gravel followed by another 5-25 cm layer of gravel and boulders.
How much water can be harvested?
The total amount of water that is received in the form of rainfall over an area is called the rainwater
endowment of that area. Out of this, the amount that can be effectively harvested is called the water
harvesting potential.
Water Harvesting potential = Rainfall (mm) X Collection efficiency
An example of potential for rainwater harvesting2:
Consider a building with a flat terrace area of 100m2. The average annual rainfall in Delhi is approximately
600 mm (24 inches). In simple terms, this means if the terrace floor is assumed impermeable, and all the
rain that falls on it is retained without evaporation, then, in one year, there will be rainwater on the terrace
floor to a height of 600 mm.
Area of the plot
= 100 m2
Height of annual rainfall
= 0.6 m (600 mm or 24 inches)
Volume of rainfall over the plot = Area of plot X Height of rainfall
= 100 m2 X 0.6 m
= 60 m3 (60,000 litres)
Assuming that only 60 percent of the total rainfall is effectively harvested,
Volume of water harvested
= 36,000 litres
This volume is about twice the annual drinking water requirement of a 5-member family.
average daily drinking water requirement per person is 10 litres3.
The
I.QUALITY OF STORED W ATER
Rainwater collected from rooftops is free of mineral pollutants like fluoride and calcium salts that are
generally found in groundwater. But, it is likely that to be contaminated with these types of pollutants:
1. Air Pollutants
2. Surface contamination (e.g., silt, dust)
Such contaminations can be prevented to a large extent by flushing off the first rainfall. A grill at the
terrace outlet for rainwater can arrest leaves, plastic bags and paper pieces carried by water. Other
contamination can be removed by sedimentation and filtration. Disinfectants can remove biological
contamination.
Cost Analysis
1. Cost of a Rainwater harvesting system designed as an integrated component of a new construction
project is generally low.
2. Designing a system onto an existing building is costlier because many of the shared costs (roof and
gutters) can be designed to optimise system.
3. In general, maximising storage capacity and minimising water use through conservation and reuse are
important rules to keep in mind.
4. With careful planning and design, the cost of a rainwater system can be reduced considerably.
Cost of installation
Estimated average cost of installing a Water Harvesting System for4:
1. An individual house of average area of 300-500 m2, the average cost will be around Rs. 20,00025,000. A recharge well will be constructed near the existing borewell. The roofwater through PVC
pipe will be diverted to recharge well.
2. An apartment building, the cost will be less since the many people will share the cost. More over in
8. apartments there are separate storm water drains, which join the MCD drains in the main road. Here
along with recharge well, recharge trench and percolation pits can be constructed. The cost will be
around 60 to 70 thousand.
3. A colony, the cost will be much less. For instance, around 36 recharge wells were installed at the cost
of 8 lakh, which is around Rs 500-600 per house. In many colonies storm water drains are present but
it is difficult to isolate them from sewage drains because there has been violation of the drainage
master plan. Also, these drains are not properly maintained. Hence, care needs to be taken while
using storm water for water harvesting.
Rooftop harvesting is preferred because the silt load is less. In storm water drain the silt load is high
and generally the municipality does not maintain the storm drains properly.
4. An institution with campus, the cost was around 4 lac. Here two recharge wells and three
trenches cum percolation pits were constructed.
Average annual maintenance cost would be around Rs 200-300 for two labourers once in a year to
remove the pebbles and replace the sand from trenches.
Case Study
In thane in the year 2003 Rain water Harvesting project was done in VIKAS Complex B wing for five
buildings 9 storage each. They had dug 3 bore wells and a pit of 6ft X 4ft pit. So total cost was around Rs.
300000 including the piping. Due to this they have 5000 liters of output in the morning and evening. So
total 10000 liters per day. So the total 5 building supply per day was 50000 per day.
For instant from the year 2003 they receive 50000 liters of water non stop every day.
Concluding Remarks
It is no denying that sustaining and recharging the groundwater along with judicious use of the limited
fresh water resources is the need of the hour. If sufficient measures are not taken up immediately, we will
face a crisis which will be detrimental to the very survival of mankind. Efficient management of water
resources and education about judicious utilization of water resources along with measures of
harnessing, recharging and maintaining the quality of water and water bodies has to be taken up on war
footing.
One of the most logical steps towards this goal would be acknowledging the importance of rainwater
harvesting. This should not only encompass rooftop rainwater harvesting but also storm water harvesting
systems. Storm water harvesting is yet to be acknowledged as a better alternative over rooftop water
harvesting. One of the major hurdles in storm water harvesting is the poor state of storm water drain
systems in India. A planned approach is hence needed in order to fully utilise the potential of rainwater to
adequately meet our water requirements. Hence, an equal and positive thrust is needed in developing
and encouraging both the types of water harvesting systems. We have to catch water in every possible
way and every possible place it falls.
9. It can be concluded from above findings that rainwater, if conserved and utilized using the rainwater
harvesting technology, can be an effective tool of replenishing ground water resources
References
[1] A Water Harvesting Manual for Urban Areas: Case Studies from Delhi. 2003. New Delhi: Centre for
Science and Environment.
[2] Centre for Science and Environment. 2003. Site dedicated to Rainwater Harvesting. Accessed on
various dates at
[3] http://www.rainwaterharvesting.org/
[4] Government of India. 2003. Ground Water in Delhi: Improving the sustainability through Rainwater
Harvesting, Central Ground Water Board, Ministry of Water Resources.
[5] Government of India. 2003. Rainwater Harvesting: A necessity in South and Southwest Districts of
NCT, Delhi. State Unit Office, Delhi, Central ground Water Board, Ministry of Water Resources.
Government of India. 2003. Details on Water Harvesting. Accessed on various dates at
http://www.cgwaindia.com/
[6] Key Issues. September 2000. Water harvesting: urgent need to reap rich rewards [Article] Indian
Energy Sector, TERI 2000. Accessed on 15 May 2003 at http://www.teriin.org/energy/waterhar.htm
[7] Kumar, M. Dinesh. 2003. Paper: Roof Water Harvesting for Domestic Water Security: Who gains and
who loses? Under review.
[8] A
Water
Harvesting
Manual,
Centre
for
Science
and
Environment
http://www.cgwaindia.com/suo/home.htm
[9] http://www.rainwaterharvesting.org/urban/Components.htm
[10]
A Water Harvesting Manual, Centre for Science and Environment
[11]
IS 1172: Indian Standard Code of Basic Requirements for Water Supply, Drainage and Sanitation.