44 Ways To Catch Rain

Categories: Rainwater Harvesting

There are a lot of reasons a person might decide it's necessary to collect water from the sky.  First and foremost that comes to mind is drinking some of it.  It takes such sophisticated equipment to rapidly remove salt from the ocean, yet our planet was designed with a most amazing filtration system that leaves the salt in the ocean, and puts fresh water in the sky to fall all around our planet.  How wise of us it is that we find ways to capture some of it and keep it nearby.  The majority of rain in coastal areas goes immediately back to the ocean, so the more of it we can store before it goes back the the sea, the more prepared we might be for dry our drought conditions presently or in the future.  Check out these witty creation for holding on to some of that water: 

The Roof Water Research Centre at Massey University in Wellington New Zealand is run by microbiologist Stan Abbott. Stan is an enthusiastic advocate for collecting rain water from roofs in both urban and rural situations, yet he’s also aware of potential contamination from seabird droppings and wind borne pollutants. He says that although very few people who report gastrointestinal problems believe they drank contaminated water, he believes that regular drinkers may be immune, and also that a Food Safety Authority study showed that there is significant under-reporting of illness related to tank water.


Ten percent of New Zealand households already rely on rain water collected from the roof as their primary water source. These houses are mostly on farms and life style blocks, as well as in isolated areas such Waiheke Island. However, some District Councils such as Kapiti have passed by-laws so that all new dwellings must have a 10,000 litre rain water tank or a 4,000 litre rain water tank and a grey water diversion system. Stan believes that more urban dwellings should collect water for non-potable purposes such as flushing toilets and watering gardens.

Stan also believes all households should have a small rainwater tank for use in emergency situations such as after a large earthquake, when municipal water supplies may be interrupted for a period of time. Modelling by GNS Science showed that following a significant rupture of the Wellington fault, Wellington city might be without mains water for 35-55 days. Stan stresses this emergency rain water should be boiled or treated before drinking.

Stan Abbott led a study looking at water quality in tank water samples from 560 private dwellings in New Zealand. At least half of the samples exceeded minimal acceptable levels for contamination, and more than 30% of samples showed evidence of heavy faecal contamination.

Further research into various physical methods for collecting clean roof water showed that a first flush diverter was the single most effective way of maintaining good water quality. The first flush diverter diverts the first 50 to 100 litres of water collected during a rain event, ensuring that contaminants don’t make it into the tank. Other features such as a calmed inlet ensure that sediment in the bottom of the tank is not stirred up, while down-pipe rain-heads ensure that debris such as leaves doesn’t wash into the tank.

The Roof Water Research Centre has a farm of 16 large rainwater tanks on the roof of Massey University in Wellington, and a sophisticated set of sensors that allow Stan to correlate microbial contamination with particular weather conditions and water temperature. Stan uses the Colilert system to test for E. coli, which is an indicator of fecal contamination.

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