Sunday, 18 September 2016

Here's how Bengaluru can look beyond Cauvery for water

Here's how Bengaluru can look beyond Cauvery for water


http://www.newindianexpress.com/cities/bengaluru/Heres-how-Bengaluru-can-look-beyond-Cauvery-for-water/2016/09/17/article3622989.ece1

Thippagondanahalli Dam (EPS | S Manjunth)


BENGALURU: Bengaluru is once again facing the prospect of shortage of drinking water, highlighting our heavy dependence on Cauvery river water for drinking. Amidst the emotional scenes witnessed over the past few days over sharing of Cauvery waters, is our own unwillingness to adopt even minimal measures to conserve and recycle water.
At present, Bengaluru requires 1,450 million litres per day (mld) and about 19 tmcft of water per year from Cauvery alone. As population expands, it is difficult to sustain drinking water supply to the city, which is already facing a shortfall.
It is estimated that Bengaluru has the potential to harness 22 tmcft per year from its sewage and storm water drains. Every water conservation technique that is implemented can cut down the use of piped water considerably. 
“Any city, in the future, cannot depend on rivers or dams alone for water supply. There has to be better planning. About 50 per cent of it can come from dams and rivers, 20 per cent from rain water harvesting (RWH), 20 per cent from recharged borewells and 10 per cent should be recycled water. This is the only way we can sustain our supply,” says A R Shivakumar, a scientist at the Karnataka State council for Science and Technology at the Indian Institute of Science.
Despite Bangalore Water Supply and Sewerage Board (BWSSB) making it mandatory for building constructed in 30x40ft and bigger dimension sites to have RWH mechanisms,  there are only a few takers. Also, there has been no punitive action against those who have failed to implement it.
Shivakumar says that around 1,00,000 homes in Bengaluru have adopted RWH. “It is not a big number compared to more than 20 lakh properties in Bengaluru. But it is a good effort and hopefully will catch on,” he said.
Water recycling in bigger complexes is now catching up in new buildings, but the old ones are hesitant. Recycled water can be used for secondary purposes like gardens, construction and washing vehicles. “A place like Cubbon Park has a state-of-the-art recycling plant and the water is used for gardens. The results are there for all to see. It will not hurt the government to set up treatment plants to recycle the waste generated around its office buildings like M S Building and Vidhana Soudha. This sets a good example and will encourage people to follow suit,” Shivakumar said.
He also blames the unaccounted water that comes via pipelines and then just disappears. According to BWSSB’s own admission, these losses are between 40-45 per cent. “Norms specify that these losses should be around 15 per cent. But, despite the civic agency’s best efforts, these levels have not fallen to below 40 per cent,” says former Chief Secretary A Ravindra.
He also said that protection of groundwater resources is one of the major tasks to be undertaken to improve the situation in the city.
“RWH needs more compliance. The government can also encourage people by constructing large ponds to collect rainwater. Restoration of tanks and lakes and groundwater recharging can help meet the drinking needs of the population to a large extent,” he adds.
Message on BWSSB website
A message on BWSSB website reads: “Since there have been drought conditions prevailing in Cauvery basin which have resulted in minimal flow into the reservoirs in the month of August and September, enough Cauvery water may not be available in the coming months. As the rainfall prediction is meager, the BWSSB requests all its consumers to consume and use water judiciously.”
5 ways to save water
Water conservation experts say that by following these simple steps, the city can save a lot of water over time
Rainwater Harvesting
It could be as simple as placing a bucket below the pipe that channels the rainwater in your house, but BWSSB rules make it a little more comprehensive and mandatory. It is the simplest and most essential form of conservation residents can adopt and works on the premise that there should be 20 litres or more tank capacity per square metre of roof area. Unfortunately, at present, there are only an estimated 1 lakh homes which have implemented this but wider application can easily solve our water woes. We can save around 23 tmcft per year this way.
Recharging lakes and groundwater
Recharging lakes is a crucial component of ensuring self-reliance in terms of water supply. Not only do we manage to fill our lakes, but we can also recharge the groundwater and aquifers. However, the city’s lakes are composed of silt consisting of sewage, waste chemicals, organic waste, dead vegetation and heavy metals turning the bottom of the lake into a cement-like impermeable layer. Even if the water permeates, it will poison the underground water table. Stopping sewage inflow into lakes and clearing out catchment areas is very essential.
Sewage Treatment Plants
Almost every lake in the city has copious amounts of sewage flowing into them, turning them into a frothy nightmare. Not only are STPs necessary to stop this, they can be adopted on a smaller scale in apartments, commercial and government buildings. Even if people are not comfortable using this recycled water for domestic purposes, there are plenty of uses like watering gardens, washing vehicles and reusing them for flushing toilets.
Unaccounted losses
According to BWSSB, around 40-45 per cent of the Cauvery water is lost and pegged as ‘unaccountable losses’. That is around 650 mld. The water lost due to leakage in pipes is negligible. Most of this water is pilfered, which means illegal water connections are drawn right from localities to large industries and hotels. Efforts to control this form of losses are lukewarm. Politicians do not want to upset their vote banks and only strong political will can bring this under control.
Tariffs and incentives
At the lowest slab, water supply from BWSSB means that a house gets 1,000 litres of water for a measly `8. The higher slabs are not much of a deterrent either. An expert on water conservation techniques says that the government should take the bold step of providing around 10,000 litres per month (going by WHO’s recommendation of 100 litres/person/day) at a low rate and then hike the tariffs exorbitantly. That would make everyone sit up and take notice and consequently choose water conservation methods to avoid paying a higher tariff.

Thursday, 15 September 2016

We don't respect water - Why Bengaluru needs to shift to sustainable water management:

We don't respect water - 

Why Bengaluru needs to shift to sustainable

water management:

http://www.theweek.in/columns/guest-columns/we-dont-respect-water.html





Thursday, 21 July 2016

ARS @ TEDx Bangalore on 16th July 2016

AR Shivakumar @ TEDx Bangalore on 16th July 2016

Water is one of the most important components of all living beings.
We use around 100 to 150 litre per person per day directly.
Virtual use is as high as 11,500 litre per day per person - 37 lt for 1 lt milk, 2500 lt for 1kg sugar, 100 lt for 1 unit of electricity....which looks scary..



I do not buy the statement that there is water scarcity in this world.
There is plenty of water to fulfil all needs, not only human but for all other living creatures on this earth. Unfortunately we have not been able to keep up a sustainable and equitable distribution of clean and safe water for all.
We moved from decentralised and sustainable to centralised and unsustainable and may be to -water as a commodity..
Water on this earth has remained same in quantity for ages - not a drop less not a drop more. Water we use is the same water molecules what dinosaurs drank. water cannot be manufactured nor destroyed. Can anyone destroy a drop of water or bring a fresh drop of water to this earth - NO. Have you heard of a factory or a mill to produce water anywhere in the world.

Water is a wonder fluid which occurs naturally and rain is our only source for purest form of water. All other source / forms of water are derived from rainwater.
Living with nature and making nature to work overtime for you - not to abuse
All our needs can be met from the gifts of nature around us

Here is an example - doable and also sustainable:
Sourabha my house in Vijayanagar, Bangalore derives most of the daily needs from nature. Built during 1994, has sustained by harvesting rainwater for all our needs including drinking water for over 20 ecofriendly years. We do not have city - BWSSB water pipe connection to our house, we have not paid a rupee water bill in the last 20 years.
Rainwater from the roof of our house is filtered at four locations and stored at various levels in tanks and underground sumps. We have 45,000 litre total storage capacity and we use around 400 litre per day for our family. Studying 100 years daily rainfall data, I found out Bangalore has only around 100 dry days between two good successive rains. For 100 days 400x100=40,000 litre is good enough and we have 5,000 lt extra making it 45,000 lt storage of rainwater. In a plot of 2400 sqft (40ftX60ft) around 2,20,000 litre can be harvested in Bangalore. Around 1,50,000 lt is harvested from roof for storing and the rest is recharged in to the ground for a social cause. This way not a drop of rainwater flows out of Sourabha.
Though we have plenty, we reuse used water in our house - washing machine discharge soap/detergent water is used to flush toilets, kitchen wash water is used for watering plants and trees around the house, plants are healthier with vitamins and mineral rich organic kitchen used water. Around 20 to 30% of water is reused each day.
All organic waste is treated on site - earthworms convert all the organic garbage into manure  for hundreds of plants and trees around Sourabha. We have not contributed to the city garbage collection other than recyclables and rejects like plastics, glass bottles and metal cans.
Tons and tons of organic garbage for years is now beautiful green plants and trees around the house. Fresh and clean air encapsulates our house and also keeps the environment cool. We do not use air conditioners nor fans even in deep summer (except rooms on first floor). The green curtain of plants and trees not only provide fresh and clean air but also home to number of chirping birds, colourful butterflies, insects, bees and many more. Sourabha looks like their home and we are guests of nature inside Sourabha.
Sun is the provider of energy through solar water heater, solar electricity for lighting and natural light through sky lights.
Rattrap design of walls to keep the house thermally insulated, bright whit painted roof to reflect solar radiation and keep the house cool, water bodies around the house to add moisture to the air and also home for aquatic life like lotus, fish, turtles and many more. Water bodies on the roof as bird bath and to provide water to a number of birds. Coconut husk and shell as pots for plants and many orchids. A micro environment to fill nature to our life at Sourabha in the central district of Bangalore city.

These are doable and simple concepts for each one of us to adopt.

The bottom line for a nature friendly sustainable living in an urban environment - 400 lt of water per day per family, around 100 units of electricity per month to fulfil all our luxury, one gas cylinder to support cooking for 75 days and most important only 2.5 kg of dry / recyclable waste per WEEK.
Several of these water conservation and rainwater harvesting concepts are now policy guidelines provided from my organisation KSCST at Indian Institute of Science and are being implemented by the Government for a better tomorrow. Two help desks, one at IISc campus and other at Jayanagar 5th block supported by BWSSB are providing training, awareness and consultation for individuals, institutions and corporate houses.

Hundred thousand Bangalurians are harvesting RAINWATER, why not you?

Your HOME a Science lab - “Bring out the Scientist in YOU”
Get your voltage stabilizer to set curd and ferment batter
Thin Silver sheet gives you zero bacteria drinking water - no electricity, no chemicals
Switch the refrigerator door left to right and save 28% electricity
No entry to cockroaches inside your house!
Back to basics: Paint the roof (and the city) white to save power 30C
Sky lights at the roof and Mirror, mirror on the wall...no more artificial light during daytime

Allow the scientist inside you to think... 
Be the change you want to see
Practice what you preach
Each one of us can be the ambassadors of positive change in our society
Harvest Rainwater and a Host of Benefits... Thank you.
(supported by 45 slides)

AR Shivakumar 

rainmanskumar@gmail.com                                                                                                                       Saturday, 16 July 16

Monday, 20 June 2016

Height of Rainwater Harvesting (RWH) in Bangalore City - Best example of “Practice before you preach!”

Height of Rainwater Harvesting (RWH) in Bangalore City
Best example of “Practice before you preach!”
This may be the first of it's kind in the country.

Bangalore Water Supply and Sewage Board (BWSSB) in collaboration with KSCST, Indian Institute of Science, collects rainwater from the roof of its huge reservoirs. This water, after chlorination is then pumped back to the reservoirs, along with Cauvery river water for the city's supply.

RWH systems for Ground Level Reservoirs (GLRs), both flat roof as well as domes were planned by KSCST, Indian Institute of Science, during 2009 and are found viable.
BWSSB supplies each day around 1200 Million liters of Cauvery water to Bangalore city by pumping from a distance of 95 kilometres and to an height of around 500 meters. 


Karnataka has an annual share of 19 TMC of Cauvery river water. It is estimated that the Bangalore city receives around 23 TMC of rainwater annually. Attempts are being made now to harvest at least 10% of this pure rainwater in Bangalore city. 
TMC is Thousand Million Cubic feet.

Success stories are around us. Be a part of nature and Conserve Water, Harvest Rainwater and Host of Benefits.

Your initiatives will pave way for hundreds to follow.


Hundred Thousand Bangaloreans have done it, YOU can do it too!

Wednesday, 4 May 2016

Sunday, 24 April 2016

High-Time-City-Reaped-its-Rain


High-Time-City-Reaped-Its-Rain


 ·         

Bengaluru’s rainfall has a potential of meeting nearly 50 p.c. of the city’s annual Cauvery water allocation of 19 tmcft
If every Bengaluru household harvested rainwater, Bengaluru’s water woes would drop dramatically. Experts say Bengaluru’s annual rainfall has a potential of meeting nearly 50 per cent of the city’s annual Cauvery water allocation of 19 tmcft.

The city has around 60 rainy days in a year. Spread across 700 sq. km, it receives an average annual rainfall of 972 mm. This means the city has a potential of getting 23 tmcft of rainwater. But, with most of the lakes having dried up or are filled with sewage, the rainwater literally goes down the drain with no collection point. With roads and pavements concretised, the problem only gets compounded. But in the absence of an urban water management institution and “uninterested” service providers, Bengalureans are yet to take the concept of rainwater harvesting (RWH) seriously.
This, despite the Bruhat Bengaluru Mahanagara Palike (BBMP) making RWH mandatory in its revised building bylaws back in 2009 and Bangalore Water Supply and Sewerage Board (BWSSB) amending rules to make RWH mandatory for all new constructions on sites measuring 30 ft x 40 ft and existing buildings on 60 ft x 40 ft sites.


A.R. Shivakumar, principal investigator for RWH at the Karnataka State Council for Science and Technology, Indian Institute of Science, said unless RWH was made compulsory for both old and new buildings on sites of all dimensions, it would not gain public acceptance.
Mr. Shivakumar, who was also a member of the technical committee that framed a policy document for RWH in the State, said it was not enough to have rules and laws to make RWH mandatory. “Easy availability of water in the city is a great boon to people and the main reason for them not looking at alternative sources such as RWH,” he said.
“If the concept is taken seriously, thousands of RWH tanks spread over the city on every property and all the rejuvenated lakes would act as buffer zones to hold water and avoid flooding of storm-water drains and low-lying areas,” he explained.


* Come May 1, Bangalore Water Supply and Sewerage Board will start imposing penalty on those who have not adopted rainwater harvesting system in their buildings
* Citizens will be slapped a penalty of 25 per cent of their water bill for not adopting RWH, for the first three months from May. The penalty will double after three months and will be collected till the building adopts the system.
D.S. Rajshekar, president, Citizens’ Action Forum:
The BWSSB should first ensure all government buildings adopt RWH and penalise them if they don’t. RWH is of course required. Elected representatives with residents’ welfare associations should go door to door to popularise the system.
****
T.S. Vidyadhar, R.T. Nagar Residents’ Welfare Association:
There are hundreds of open spaces in the city where rainwater can be harvested such as the open space in front of the Vidhana Soudha and parks. Instead of harvesting rainwater in these spaces and allowing it to percolate into the ground through roads and pavements, the civic body has concretised this infrastructure. Having a rule only for the residents is a narrow approach.
P


BENGALURU, April 25, 2016
Updated: April 25, 2016 08:32 IST
A green example in concrete jungle
Largest Owner Real Estate - Development Portfolio. Of Over 20 Million Square Feet.centuryrealestate.in/Enquire_Now
·         SPECIAL CORRESPONDENT



In this dry weather when most of the city is bone dry, ‘Sourabha’ in Vijayanagar is all green, thanks to rainwater harvesting.
“Our house is entirely dependent on rainwater for all its needs since 1994 and we do not have a piped water connection,” says A.R. Shivakumar, the house owner and principal investigator for rainwater harvesting at the Karnataka State Council for Science and Technology, Indian Institute of Science.

Located on a plot of 40 ft x 60 ft ‘Sourabha’ still has rainwater collected in the sump. “We are using the stored rainwater for drinking and cooking, and for all other purposes we are using the rainwater recharged in the ground,” said Mr. Shivakumar. Even the construction of the house was done with rainwater.
Rainwater falling inside the plot is being channelled through roof-top rainwater harvesting, groundwater recharging and percolation in garden area. Not a drop of rainwater falling on the plot is allowed to flow out. The need of toilet flushing is met by recirculation of used water from the washing machine.

Clean and safe water is available 24 hours, 365 days a year, and the quality of water is also periodically tested and found to be good. This family of four members needs around 15,000 litres of water a month.

Happy to Drink Fluorid-Free Water



Rainwater harvesting has not only quenched the thirst of 2,270 households in 43 villages in Madhugiri and Pavagada taluks of Tumakuru district, but has also improved their health by providing fluoride-free potable water.
Tumakuru is one of the dry districts of the State. It has no rivers and is completely dependent on rain and borewells for water.
Though borewells sunk to a depth of 1,200 to 1,500 ft provide water, the fluoride content is more than the permissible limits, especially in some villages of Sira, Gubbi, Madhugiri, Koratagere and Pavagada taluks.
BAIF Institute of Rural Development took up the Sachethana drinking water project in 2012 in Y.N. Hosakote and 30 neighbouring villages, and in 2013, in Ittige Dibbana (I.D.) Halli and 13 neighbouring villages in Madhugiri taluk.
As a result, frequent visits by villagers to the hospital have reduced.
Thimmakka of Janakaloti village in Madhugiri taluk told The Hindu, “I and my children used to visit the hospital twice a week for joint pain, body pain and other problems. But for the past three years, our health has improved after adopting rainwater harvesting.” She used to spend at least Rs. 700 a month towards medical expenses, which has now been converted into savings.
Her daughter-in-law Rajamma said, “I used to walk 1 km to get water from a well for cooking and drinking.”
Sarojamma, a beedi worker in I.D. Halli, said, “I used to wait in queues for hours to get two pots of drinking water from the public tap. Plus, because of power problem, we used to get water only around midnight.”
But now, she is saving time and also earning Rs. 1,000 more a month as compared with what she used to earn before adopting rainwater harvesting.
‘Build your own pond’
·         VISHWA KUNDAPURA

Why wait for government, says a farmer in Kolar taluk
Undeterred by drought condition, a number of farmers in the twin districts of Kolar and Chickballapur persist with agriculture thanks to rainwater harvesting.


For example, N.R. Chandrashekhar, a farmer at Nenamanahalli in Kolar taluk, constructed three ponds on his property to store rainwater. His property is lush green even now.

He constructed the ponds, popularly known as ‘Krishi honda’, with his own money. One pond measures 190 ft x 80 ft and is 18-ft deep. The water from the ponds take care of the needs of about 4 acres of land. He uses the water for mulberry and ragi crops.
His initiative has drawn widespread acclamation. Hundreds of farmers, beside officials, visit his property to learn the method he adopted to reap the yields he does even against the odds.
“Instead of depending only on governments for relief, farmers need to adopt such methods and make their life happier,” says Mr. Chandrashekhar. “Even though rain is scarce, we can store whatever we get when it showers.”
Seers show the way
·         GIRISH PATTANASHETTI
While the State is under the grip of drought and people are facing hardship, seers of various mutts in north Karnataka have set an example by efficiently adopting rainwater harvesting.
Sri Guru Basava Mahamane at Managundi village, near Dharwad, which propagates the teachings of 12 century reformer Basaveshwara is self sufficient now with regard to drinking water, as the head of the mutt, Basavarand Swami, took the lead and built a rainwater harvesting tank way back in 2009. Now, despite the drought, the 65,000-litre capacity tank, Basava Sagar, which was built to harvest rainwater, has storage that will last two more months.
Two more seers, Shivakumar Swami of Mullahalli Mutt in Kundagol taluk and Siddha Shivayogi Swami of Siddhashrama of Devara Hubballi village, followed suit and built rainwater harvesting tanks this year. “These seers have set an example. Managundi Mahamane has already shown the way and is leading a water revolution in north Karnataka along with other mutts,” said Chitradurga-based water conservationist N.J. Devaraj Reddy who assisted them in adopting the technology.
Less than 3 per cent properties harvest rain
·         AFSHAN YASMEEN
Despite an impending water crisis in Bengaluru, the concept of water conservation is yet to catch up. Only 58,502 properties have adopted the system so far, though there are more than 20 lakh properties in the city, which is less than 3 per cent.
Officials sources said although 55,000 buildings on sites measuring 60 ft x 40 ft were identified in 2011 for compulsorily adopting the system, the number has almost doubled now because several new areas are under the BWSSB’s supply zones. “The BWSSB now has 7.25 lakh connections and at least 1 lakh of these are eligible for compulsory rainwater harvesting,” sources said.
The response to the concept has been poor although the BWSSB announced attractive incentives such as a 2 per cent property tax rebate up to five years for those who adopt the system and bank loan facility for citizens to install the units.
The BWSSB also tried enforcing RWH through rules that enabled disconnection of water and sanitary lines of buildings that do not adopt the system. But this was never implemented.
It had extended the initial December 31, 2011 deadline up to March 31, 2012 for residents to adopt the system. This deadline failed as some citizens questioned the legality of the BWSSB’s threat to disconnect water and sanitary connections if people did not opt for rainwater harvesting.

Why is response poor?
Is relatively easy availability of water in Bengaluru making people lukewarm to the idea of rainwater harvesting?
“Piped Cauvery water is available at only Rs. 7 a litre up to 8,000 litres and thereafter at Rs. 11 a litre up to 20,000 litres. However, even if they do not want to use rainwater, they can at least recharge groundwater on their premises,” said BWSSB chairperson T.M. Vijay Bhaskar.
In many instances, residents put up “makeshift structures” rather than functional RWH units. They put up structures for namesake so that they get their water connection and plan sanctioned from the BWSSB and the BBMP respectively. The concept of conserving water is yet to percolate in society,” sources said.
He said it was because of this that the BWSSB would now start penalising those who do not adopt the system. “We will take up a new survey and identify more buildings that need to adopt RWH. Our meter readers and field staff have been trained to check if the building has a RWH unit and if it does not have, the penalty will be included in the monthly bill,” he said.
How to go about it
·         RANJANI GOVIND
Rainwater harvesting (RWH) ensures a minimum of 120 days’ of water supply for four persons in a household annually, according to water expert S. Vishwanath.
“An average annual rainfall — on a 100 sq. m roof area — would in theory generate 80,000 litres of water, out of which about 77,600 litres could be harvested efficiently.


Experts in the city feel that although the concept of rainwater harvesting is becoming popular, policymakers, architects, engineers and the public need to be made more aware of the methods. “Since RWH is related to the soil profile and hydrogeology, specific methods have to be developed for specific sites,” he said. Demonstrations of such simple techniques as recharge pits in minor drains that are not polluted with wastewater, and recharge of open wells and borewells from rooftops should be encouraged as Bengaluru itself has more than one lakh wells.
Tips for a simple RWH system at individual houses and apartment complexes:
* Have a sump to store rainwater, apart from maintaining a clean catchment area or the rooftop to avoid bacterial growth. Install a pipeline to channel the water from the rooftop to the sump after consulting RWH experts and a plumber
* You don’t have to build a new sump, the existing one will do
* If you has a borewell, whether functioning or not, connect the rooftop with pipes and filter to the borewell. This is for recharging
* If you have an existing well, connect the pipes and filter to the well
* Place an HDPE plastic tank and collect the rainwater directly, this system is called a rain barrel
* Make a recharge well of 3-ft diameter and 10-ft depth. Do not fill it with anything. Direct the roof water into the recharge well.
* On an average, it would cost Rs. 10,000 to Rs. 20,000 for one household (excluding the sump)
In layouts, one has to additionally follow two more points:
* Connect storm-water drains to recharge wells placed at regular intervals
* Layouts at the lowest points can make a small percolation pond for storm water
(Call 91-80-41672790 or email:rainwaterclub@gmail.com for more details)
Everyone should mandatorily visit the RWH Theme Park created on a 1.5-acre space by the BBMP at Jayanagar 5th Block and choose from the demonstrated examples. — S. Vishwanath, water expert

http://www.thehindu.com/news/cities/bangalore/high-time-city-reaped-its-rain/article8516991.ece
http://www.thehindu.com/news/cities/bangalore/a-green-example-in-concrete-jungle/article8516996.ece
http://www.thehindu.com/news/cities/bangalore/happy-to-drink-fluoridefree-water/article8516993.ece
http://www.thehindu.com/news/cities/bangalore/build-your-own-pond/article8516994.ece
http://www.thehindu.com/news/cities/bangalore/seers-show-the-way/article8516998.ece
http://www.thehindu.com/news/cities/bangalore/less-than-3-per-cent-properties-harvest-rain/article8516995.ece
http://www.thehindu.com/news/cities/bangalore/how-to-go-about-it/article8516990.ece

Monday, 28 March 2016

"RWH Advisor" at your fingertips - web or mobile phone











Project of UNESCO and KSCST - “Do it Yourself RWH tool”

http://rwh-advisor.info

Background:

Karnataka State Council for Science and Technology (KSCST) is providing S & T solutions for the benefit of the society and in the last four decades, KSCST has worked on water issues leading to conservation of water and rainwater harvesting.

Understanding the importance of domestic water use and its growing demand, KSCST researched on Rainwater Harvesting (RWH) and developed technological solutions to adopt RWH with scientific interventions.
Large scale awareness campaigns, training programmes for building and plumbing contractors and helpdesk for providing cost effective as well as site specific solutions for harvesting rainwater were made available  for the citizens of Karnataka.

RWH structures were designed, developed and implemented for land mark buildings like Vidana Soudha, High Court of Karnataka and over 350 public and private institutions.

KSCST is instrumental in bringing policy changes at the Government of Karnataka to incorporate RWH in the building bylaws of BBMP and an amended act of BWSSB for mandatory installation of RWH in buildings of Bangalore city.

UNESCO strives to build networks among nations and mobilizes partnerships and resources for education: so that every child, boy or girl, has access to quality education as a fundamental human right and as a prerequisite for human development. It strives to build intercultural understanding: through protection of heritage and support for cultural diversity. UNESCO created the idea of World Heritage to protect sites of outstanding universal values. It pursues scientific cooperation: such as early warning systems for tsunamis or trans-boundary water management agreements, to strengthen ties between nations and societies. finally, it protects freedom of expression: an essential condition for democracy, development and human dignity and strives to create knowledge societies.

One of its activities, ICT and sciences, is designed to leverage the power of information and communication technologies to bring science closer to the reach of common men and women and generate solutions to solve problems of scientific nature.

Taking note of the success stories of RWH through KSCST interventions in Karnataka and other state, UNESCO joined hands with KSCST to develop a software application to provide RWH solutions through web and mobile phone across the country.

RWH - UNESCO and KSCST project :

A letter of exchange was established between UNESCO and KSCST in  Feb 2015.
KSCST and UNESCO thus collaborated with a few other institutions and experts to develop a  “DOIT YOURSELF RWH tool”. This application has the potentiality to address most of the needs of a prospective candidate planning to install a RWH system. The front end of the tool provides query sheet to enter the basic and available information,  and the back end of the software processes data collected from many relevant sources. The output generated  provides sufficient information and scientific understanding required for the installation of a sustainable, site-specific and cost effective RWH system. The application is available on web and also on Android platform for mobile phones.

The RWH concepts revolve around local parameters, the rainfall pattern, local practices for water collection and storage, types of buildings and their structure, ground water parameters, geological details, soil characteristics, building materials, quality of existing ground and surface water and many more.

Rainfall data for a region of around 20 to 40 sq km area are obtained from the meteorological institution of the country / province.
The rainfall data required is daily data for any one full year (365 days). The selection of the year depends on the available data for number of years. If the data is available for say 50 years, the yearly average rainfall is considered. The daily rainfall data of that year which is close to the annual average rainfall of that place is considered.
For example Bangalore in India has 50 years rainfall data and the average annual rainfall is say 978 mm, then from among the 50 individual years, the year (say 2006 has 964 mm) which has rainfall close to 978 mm rainfall will be considered. The daily rainfall data of 2006 will be considered for the software.

Roof of a building plays a crucial role in harvesting rainwater. The type of roof and the roof water channelization methods adopted locally will guide the software to chose the yield of water collection and the quality of water. The cost of the rainwater harvesting depends on the local practices to store water and the types of local structures, material used in construction etc.

The software developed will highlight the groundwater characteristics and the soil characteristics for suggesting the ground water recharge options.

Rainfall data - 50 years normal daily rainfall data collection for 173 blocks of  Karnataka state obtained from Karnataka State Natural Disaster Monitoring Centre (KSNDMC) and for 256 Districts from 15 States of India was obtained from Indian Metrological department (IMD), Pune. The computation logics along with advanced graphic integration and calculation has been integrated with the backend data of the software. 
The app is available at the web link : 
http://rwh-advisor.info 
and
http://210.212.203.68/kscstnmitrwhbeta13.php

Parameters required for input data:
  1.  Place name where RWH is planned (Place, District, Taluk)
  2. Type of building - Existing / New, Flat / inclined roof
  3. Roof area considered for RWH
  4. Space available for RWH
  5. Water used in the building for a day
  6. RWH solution required for storing rainwater / recharging in to the ground
Results available from the software instantly:
  1.  Average annual rainfall in mm and inches for your place
  2. Number of rainy days in your place
  3. Potential of rainwater that can be harvested per year from your roof in liter
  4. Most optimum size of the tank / sump in liter to store rainwater for future use
  5. Various options of length, breadth and depth for the suggested tank / sump size
  6. Actual rainwater that can be harvested in the suggested tank in liter per year
  7. Number of days in a year that the harvested rain water that can be used for your daily requirement
  8. Prediction of number of days that the suggested tank may overflow in a year
  9. Dynamic graph to show historic data of 365 days daily rainfall in mm in your place
  10. Dynamic graph to show quantity of rainwater that is likely to be available on a given day of an year
  11. Suggestions as per Indian building code for size of the down water pipe and number of pipes required for your roof size
  12. Material and cost estimate for installation of RWH system in your building
  13. Suggestion for type of tank suitable for the given size of tank / sump
  14. By choosing ground water recharge instead of storing rainwater in a tank while feeding the input data, similar results  as above pertaining to local site specific ground water recharge can be obtained
  15. List of Government and other institutions with details supporting RWH activities in your town / city
  16. List of experienced / skilled individuals / agencies with details providing services to install RWH in your town / city
  17. List of equipment / material suppliers with details related to RWH installation in your town / city
  18. Provision to modify the input data to get various options of RWH system suitable for your building
  19. Provision to optimise RWH tank size / RWH project cost as per your requirement / available resources

Organisations :

Karnataka State Council for Science and Technology (KSCST)

United Nations Educational, Scientific and Cultural Organization (UNESCO)

Project team :
Mr. A. R. Shivakumar,
Principal Investigator and Architect of the project, KSCST, Indian Institute of Science
Prof. H. A. Sanjay
Mr. Sanket Salvi
Dept. Information Science & Engg, Nitte Meenakshi Institute of Technology, Bangalore
Prof. Yogesh Simmhan,
Supercomputer Education and Research Centre, Indian Institute of Science, Bangalore
Mr. C.S. Ramasesha

Former Commissioner, Ministry of Water Resources, Government of India