The Nagarajan house on Sarakki Main Road, JP Nagar 1st Phase, Bangalore looks just like any other house we commonly see in Bangalore. Built in 1981, on a 60 ft x 40 ft site, the single storey house was, at that time, at the southern most end of Bangalore city limits.
While building the house, no provision was made for rain water harvesting (RWH). “We built the house as economically as we could. I was working in HAL Hospital (located near the HAL Bangalore Airport at that time) so we did not need to worry about accommodation as we had the doctors’ quarters, but we wanted to build a house where we could live after my retirement. I took loans to buy the site and build the house.”, said Dr Nagarajan. The rain water from the roof and compound flowed off into the storm water drains which in turn flowed into the main canals and finally into the lakes of the vicinity. “Many people dig wells before construction of their houses, but we didn’t spend that extra amount on a well either.”, said Dr Nagarajan.
After construction, the house was given out on rent for several years and the family moved there only in 1995, after Dr Nagarajan retired. A few months after they occupied it, they installed solar panels. “The Electricity Department was publicizing use of solar panels and they were offering a subsidy to those who installed it in their homes. Even in the summer we need hot water to bathe, so we felt that a solar heater would save electricity. So we got it done.”, says Dr Nagarajan. The solar panels eliminated the need to use the geyser for most of the year. “Just a little sunlight during the day is enough to provide sufficient hot water for four to five people to bathe. Only on really cloudy days do we need to use the geyser.”, said Dr Nagarajan.
In 2003, a second storey was added to the house. Though there was the inclination to save nature’s resources and use them wisely, rain water harvesting was not in Dr Nagarajan’s thoughts. “While construction was happening, it did not occur to us to do rain water harvesting. We also did not feel the need for an extra water source as there was sufficient supply of corporation water.”, said Dr Nagarajan.
Over the next few years, the city limits extended several kilometres south. Increased population had its impact on water consumption and water started becoming precious. As a safeguard, people started digging wells and bore wells in their compounds. Dr Nagarajan too tried to get a bore well dug. While drilling into the earth, pebbles started getting extracted after just a few metres and the loose soil gave way. The bore well idea had to be abandoned and Dr Nagarajan incurred a loss of a few thousands of rupees.
Water shortage apart, the monsoons created havoc in parts of Bangalore because the rain water had no where to go. Low lying areas were getting flooded and water entering people’s homes was not uncommon. It still happens.
In 2007, the Bangalore Water Supply and Sewerage Board (BWSSB) started encouraging people to do RWH in their houses. New constructions had to mandatorily show it in their plan before they received permission to build. For existing houses there were no mandatory requirements until the BWSSB Amendment Act of August 2009. According to the Act, RWH was made mandatory – Every owner or occupier of a building having sital area of 2400 sq ft and above or every owner who proposes to construct a building on a sital area of 1200 sq ft or more, shall provide a rain water harvesting structure for storage for use or for ground water recharge. The deadline given was 27thMay 2010. It was mentioned that if people failed to implement RWH, they were liable to have their water supply turned off. Plumbers were specially trained by the BWSSB to help people in making their houses RWH compliant.
Dr Nagarajan wanted to meet the compliance deadline but he was not sure how complicated implementation would be, given that the house was not designed with RWH in mind. He found a plumber and together they worked out a design for RWH in the house. Dr Nagarajan decided that he would store the water for use so he invested in a 2000 litre tank. The over flow would be directed into the ground for recharge. The terrace catchment area of approximately 1000 sq ft, was generally quite clean and free of leaves so there was no need of a filtration system. Having worked out the plan, it took just a day to do the piping and complete the RWH for the house.
Now rain water from the roof is directed to the storage tank, placed in an area on the roof of the ground floor. From the storage tank, pipes lead down to the ground floor – to the backyard, frontyard and the toilets. The total cost including the cost of the storage tank, in April 2010, was Rs 22,000/-.
Retro-fitting RWH into an already existing house seemed challenging, but turned out to be quite simple.
“We did RWH because it was a requirement of BWSSB but we are happy we got it done because we are conserving water. Rain water is pure. We use the water for washing vessels, mopping, washing clothes, watering plants, car cleaning… all purposes in the house except cooking, drinking and bathing.”, said Dr Nagarajan. “There are no maintenance costs and RWH has reduced the monthly water bill by about Rs 100/-. The satisfaction we get when we use the harvested water cannot be expressed.”
The initial deadline for implementing RWH (27th May 2010) kept getting extended by the BWSSB and the last deadline was 31st March 2012. However, there are still innumerable houses that still have no RWH in place. They don’t know what they are missing! Maybe Dr Nagarajan’s experience will encourage them to do their bit to catch precious water where it drops.
Pics: Dr Nagarajan
Published on the Journalists for RWH blog here.