Rainwater harvesting
Part of a series of
WaterAid technology briefs. Available online at www.wateraid.org/ technologies
January 2013
Introduction
Where there is no surface water, where groundwater is deep or inaccessible due to hard ground conditions, or where it is too salty, acidic or otherwise unpleasant or unfit to drink, another source must be sought. In areas that have regular rainfall, the most appropriate alternative is the collection of rainwater, called ‘rainwater harvesting’.
Falling rain can provide some of the cleanest naturally occurring water that is available anywhere. This is not surprising, as it is a result of a natural distillation process that is at risk only from airborne particles and from man-made pollution caused by the smoke and ash of fires and industrial processes, particularly those that burn fossil fuels.
Most modern technologies for obtaining drinking water are related to the exploitation of surface water from rivers, streams and lakes, and groundwater from wells and boreholes. However, these sources account for only 40% of total precipitation.
It is evident, therefore, that there is considerable scope for the collection of rainwater when it falls, before huge losses occur due to evaporation and transpiration and before it becomes contaminated by natural means or man-made activities.
The term ‘rainwater harvesting’ is usually taken to mean the immediate collection of rainwater running off surfaces upon which it has fallen directly. This definition excludes run-off from land watersheds into streams, rivers, lakes, etc. WaterAid is concerned primarily with the provision of clean drinking water; therefore, the rainwater harvesting projects we support are mainly those where rainwater is collected from roofs, and only to a lesser extent where it is collected from small ground, or rock, catchments.
Technical brief
Rainwater harvesting
Advantages of rainwater harvesting
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References: Gould G and Nissen-Petersen E (1999) Rainwater catchment systems. IT Publications, London Nissen-Petersen E (2007) Water from roofs. Danida Pacey A and Cullis A (1986) Rainwater IT Publications, London Thomas T H and Martinson D B (2007)