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Wikipedia

Rainwater harvesting

December 15, 2023

Rainwater harvesting (RWH) is the collection and storage of rain, rather than allowing it to run off. Rainwater is collected from a roof-like surface and redirected to a tank, cistern, deep pit (well, shaft, or borehole), aquifer, or a reservoir with percolation, so that it seeps down and restores the ground water. Dew and fog can also be collected with nets or other tools. Rainwater harvesting differs from stormwater harvesting as the runoff is typically collected from roofs and other surfaces for storage and subsequent reuse.[2]: 10  Its uses include watering gardens, livestock,[3] irrigation, domestic use with proper treatment, and domestic heating. The harvested water can also be committed to longer-term storage or groundwater recharge.[4]

Basic configuration of domestic rainwater harvesting system in Uganda.[1]

Rainwater harvesting is one of the simplest and oldest methods of self-supply of water for households, having been used in South Asia and other countries for many thousands of years.[5] Installations can be designed for different scales including households, neighbourhoods and communities and can also be designed to serve institutions such as schools, hospitals and other public facilities.[6]

Applications edit

 
Rainwater capture and storage system, Mexico City campus, Monterrey Institute of Technology and Higher Education
 
Cistern, Mission District, San Francisco, California
 
Rainwater capture, Gibraltar East Side, 1992
 
Home, with rain collection jars on roof, Panarea, Aeolian Islands, north of Sicily, Italy[7]
 
Rainwater harvesting and hand washing system for a toilet in Kenya.
 
Rainwater harvesting in Burkina Faso
 
Plastic Pond for Rainwater Harvesting, Nepal, 2013[8]
 
Rainwater harvesting system, Kiribati

Domestic use edit

Rooftop rainwater harvesting is used to provide drinking water, domestic water, water for livestock, water for small irrigation, and a way to replenish groundwater levels.

Agriculture edit

In regards to urban agriculture, rainwater harvesting in urban areas reduces the impact of runoff and flooding. The combination of urban 'green' rooftops with rainwater catchments have been found to reduce building temperatures by more than 1.3 degrees Celsius.[9] Rainwater harvesting in conjunction with urban agriculture would be a viable way to help meet the United Nations Sustainable Development Goals for cleaner and sustainable cities, health and wellbeing, and food and water security (Sustainable Development Goal 6). The technology is available, however, it needs to be remodeled in order to use water more efficiently, especially in an urban setting.

Kenya has already been successfully harvesting rainwater for toilets, laundry, and irrigation. Since the establishment of the country's 2016 Water Act, Kenya has prioritized the regulation of their agriculture industry.[10] Additionally, areas in Australia use harvested rainwater for cooking and drinking.[9] Studies done by Stout et al researching the feasibility in India found RWH was most beneficial used for small-scale irrigation, which provides income with the sales of produce, and overflow used for groundwater recharge.[9]

Missions to five Caribbean countries have shown that the capture and storage of rainwater runoff for later use is able to significantly reduce the risk of losing some or all of the year's harvest because of soil or water scarcity. In addition, the risks associated with flooding and soil erosion during high rainfall seasons would decrease. Small farmers, especially those farming on hillsides, could benefit the most from rainwater harvesting because they are able to capture runoff and decrease the effects of soil erosion.[11]

Many countries, especially those with arid environments, use rainwater harvesting as a cheap and reliable source of clean water.[12] To enhance irrigation in arid environments, ridges of soil are constructed to trap and prevent rainwater from running down hills and slopes. Even in periods of low rainfall, enough water is collected for crops to grow.[13] Water can be collected from roofs, dams and ponds can be constructed to hold large quantities of rainwater so that even on days when little to no rainfall occurs, enough is available to irrigate crops.

Industry edit

Frankfurt Airport has the biggest rainwater harvesting system in Germany. The system helps save approximately 1 million cubic meters of water per year. The cost of the system was 1.5 million dm (US$63,000) in 1993. This system collects water from the roofs of the new terminal which has an area of 26,800 square meters. The water is collected in the basement of the airport in six tanks with a storage capacity of 100 cubic meters. The water is mainly used for toilet flushing, watering plants and cleaning the air conditioning system.[14]

Rainwater harvesting was adopted at The Velodrome – The London Olympic Park – in order to increase the sustainability of the facility. A 73% decrease in potable water demand by the park was estimated. Despite this, it was deemed that rainwater harvesting was a less efficient use of financial resources to increase sustainability than the park's blackwater recycling program.[15]

Technologies edit

Traditionally, stormwater management using detention basins served a single purpose. However, optimized real-time control lets this infrastructure double as a source of rainwater harvesting without compromising the existing detention capacity.[16] This has been used in the EPA headquarters to evacuate stored water prior to storm events, thus reducing wet weather flow while ensuring water availability for later reuse. This has the benefit of increasing water quality released and decreasing the volume of water released during combined sewer overflow events.[17][18]

Generally, check dams are constructed across the streams to enhance the percolation of surface water into the subsoil strata. The water percolation in the water-impounded area of the check dams can be enhanced artificially manyfold by loosening the subsoil strata and overburden using ANFO explosives as used in open cast mining. Thus, local aquifers can be recharged quickly using the available surface water fully for use in the dry season.

System setup edit

Rainwater harvesting systems can range in complexity, from systems that can be installed with minimal skills, to automated systems that require advanced setup and installation. The basic rainwater harvesting system is more of a plumbing job than a technical job, as all the outlets from the building's terrace are connected through a pipe to an underground tank that stores water. There are common components that are installed in such systems, such as pre-filters (see e.g. vortex filter), drains/gutters, storage containers, and depending on whether the system is pressurized, also pumps, and treatment devices such as UV lights, chlorination devices and post-filtration equipment.

Systems are ideally sized to meet the water demand throughout the dry season since it must be big enough to support daily water consumption. Specifically, the rainfall capturing area such as a building roof must be large enough to maintain an adequate flow of water. The water storage tank size should be large enough to contain the captured water. For low-tech systems, many low-tech methods are used to capture rainwater: rooftop systems, surface water capture, and pumping the rainwater that has already soaked into the ground or captured in reservoirs and storing it in tanks (cisterns).

Rainwater harvesting by freshwater-flooded forests edit

Rainwater harvesting is possible by growing freshwater-flooded forests without losing the income from the used, submerged land.[19] The main purpose of the rainwater harvesting is to use the locally available rainwater to meet water requirements throughout the year without the need of huge capital expenditure. This would facilitate the availability of uncontaminated water for domestic, industrial, and irrigation needs.

Rainwater harvesting by solar power panels edit

Good quality water resource, closer to populated areas, is becoming scarce and costly for the consumers. In addition to solar and wind energy, rainwater is major renewable resource of any land. Vast areas are being covered by solar PV panels every year in all parts of the world. Solar panels can also be used for harvesting most of the rainwater falling on them and drinking quality water, free from bacteria and suspended matter, can be generated by simple filtration and disinfection processes as rainwater is very low in salinity.[20][21][22] Exploitation of rainwater for value-added products like bottled drinking water, makes solar PV power plants profitable even in high rainfall/ cloudy areas by the augmented income from value-added drinking water generation. Recently cost-effective rainwater collection in the already dug wells found to be highly effective in bringing groundwater level up in India.

Other innovations edit

 
RainSaucer system at an orphanage in Guatemala

Instead of using the roof for catchment, the RainSaucer, which looks like an upside-down umbrella, collects rain straight from the sky. This decreases the potential for contamination and makes RainSaucer a potential application for potable water in developing countries.[23] Other applications of this free-standing rainwater collection approach are sustainable gardening and small-plot farming.[24]

A Dutch invention called the Groasis Waterboxx is also useful for growing trees with harvested and stored dew and rainwater.

Advantages edit

Rainwater harvesting provides the independent water supply during regional water restrictions, and in developed countries, it is often used to supplement the main supply. It provides water when a drought occurs, can help mitigate flooding of low-lying areas, and reduces demand on wells which may enable groundwater levels to be sustained. Rainwater harvesting increases the availability of water during dry seasons by increasing the levels of dried borewells and wells. Surface water supply is readily available for various purposes thus reducing dependence on underground water. It improves the quality of ground by diluting salinity. It does not cause pollution and is environmentally friendly. It is cost-effective and easily affordable. It also helps in the availability of potable water, as rainwater is substantially free of salinity and other salts. Applications of rainwater harvesting in urban water system provides a substantial benefit for both water supply and wastewater subsystems by reducing the need for clean water in water distribution systems, less generated stormwater in sewer systems,[25] and a reduction in stormwater runoff polluting freshwater bodies.

A large body of work has focused on the development of life cycle assessment and its costing methodologies to assess the level of environmental impacts and money that can be saved by implementing rainwater harvesting systems.[22]

Independent water supply edit

Rainwater harvesting provides an independent water supply during water restrictions. In areas where clean water is costly, or difficult to come by, rainwater harvesting is a critical source of clean water. In developed countries, rainwater is often harvested to be used as a supplemental source of water rather than the main source, but the harvesting of rainwater can also decrease a household's water costs or overall usage levels. Rainwater is safe to drink if the consumers do additional treatments before drinking. Boiling water helps to kill germs. Adding another supplement to the system such as a first flush diverter is also a common procedure to avoid contaminants of the water.[26]

Supplemental in drought edit

When drought occurs, rainwater harvested in past months can be used. If rain is scarce but also unpredictable, the use of a rainwater harvesting system can be critical to capturing the rain when it does fall. Many countries with arid environments, use rainwater harvesting as a cheap and reliable source of clean water. To enhance irrigation in arid environments, ridges of soil are constructed to trap and prevent rainwater from running downhills. Even in periods of low rainfall, enough water is collected for crops to grow. Water can be collected from roofs and tanks can be constructed to hold large quantities of rainwater.

In addition, rainwater harvesting decreases the demand for water from wells, enabling groundwater levels to be further sustained rather than depleted.

Life-cycle assessment edit

Life-cycle assessment is a methodology used to evaluate the environmental impacts of a system from cradle-to-grave of its lifetime. Devkota et al,[27][28] developed such a methodology for rainwater harvesting, and found that the building design (e.g., dimensions) and function (e.g., educational, residential, etc.) play critical roles in the environmental performance of the system.

To address the functional parameters of rainwater harvesting systems, a new metric was developed – the demand to supply ratio (D/S) – identifying the ideal building design (supply) and function (demand) in regard to the environmental performance of rainwater harvesting for toilet flushing. With the idea that supply of rainwater not only saves the potable water but also saves the stormwater entering the combined sewer network (thereby requiring treatment), the savings in environmental emissions were higher if the buildings are connected to a combined sewer network compared to separate one.[28]

Cost-effectiveness edit

Although standard RWH systems can provide a water source to developing regions facing poverty, the average cost for an RWH setup can be costly depending on the type of technology used. Governmental aid and NGOs can assist communities facing poverty by providing the materials and education necessary to develop and maintain RWH setups.[29]

Some studies show that rainwater harvesting is a widely applicable solution for water scarcity and other multiple usages, owing to its cost-effectiveness and eco-friendliness.[29][30] Constructing new substantial, centralized water supply systems, such as dams, is prone to damage local ecosystems, generates external social costs, and has limited usages, especially in developing countries or impoverished communities. On the other hand, installing rainwater harvesting systems is verified by a number of studies to provide local communities a sustainable water source, accompanied by other various benefits, including protection from flood and control of water runoff, even in poor regions.[29][31] Rainwater harvesting systems that do not require major construction or periodic maintenance by a professional from outside the community are more friendly to the environment and more likely to benefit the local people for a longer period of time.[29] Thus, rainwater harvesting systems that could be installed and maintained by local people have bigger chances to be accepted and used by more people.

The usage of in-situ technologies can reduce investment costs in rainwater harvesting. In-situ technologies for rainwater harvesting could be a feasible option for rural areas since less material is required to construct them. They can provide a reliable water source that can be utilized to expand agricultural outputs. Above-ground tanks can collect water for domestic use; however, such units can be unaffordable to people in poverty.[32]

Limitations edit

Rainwater harvesting is a widely used method of storing rainwater in the countries presenting with drought characteristics. Several pieces of research have derived and developed different criteria and techniques to select suitable sites for harvesting rainwater. Some research was identified and selected suitable sites for the potential erection of dams, as well as derived a model builder in ArcMap 10.4.1. The model combined several parameters, such as slope, runoff potential, land cover/use, stream order, soil quality, and hydrology to determine the suitability of the site for harvesting rainwater.[33]

Harvested water from RWH systems can be minimal during below-average precipitation in arid urban regions such as the Middle East. RWH is useful for developing areas as it collects water for irrigation and domestic purposes. However, the gathered water should be adequately filtered to ensure safe drinking.[34]

Quality of water edit

Rainwater may need to be analyzed properly, and used in a way appropriate to its safety. In the Gansu province, for example, solar water disinfection is used by boiling harvested rainwater in parabolic solar cookers before being used for drinking.[35] These so-called "appropriate technology" methods provide low-cost disinfection options for treatment of stored rainwater for drinking.

While rainwater itself is a clean source of water, often better than groundwater or water from rivers or lakes,[36] the process of collection and storage often leaves the water polluted and non-potable. Rainwater harvested from roofs can contain human, animal and bird feces, mosses and lichens, windblown dust, particulates from urban pollution, pesticides, and inorganic ions from the sea (Ca, Mg, Na, K, Cl, SO4), and dissolved gases (CO2, NOx, SOx). High levels of pesticide have been found in rainwater in Europe with the highest concentrations occurring in the first rain immediately after a dry spell;[37] the concentration of these and other contaminants are reduced significantly by diverting the initial flow of run-off water to waste. Improved water quality can also be obtained by using a floating draw-off mechanism (rather than from the base of the tank) and by using a series of tanks, withdraw from the last in series. Prefiltration is a common practice used in the industry to keep the system healthy and ensure that the water entering the tank is free of large sediments.

A concept of rainwater harvesting and cleaning it with solar energy for rural household drinking purposes has been developed by Nimbkar Agricultural Research Institute.[38]

Conceptually, a water supply system should match the quality of water with the end-user. However, in most of the developed world, high-quality potable water is used for all end uses. This approach wastes money and energy and imposes unnecessary impacts on the environment. Supplying rainwater that has gone through preliminary filtration measures for non-potable water uses, such as toilet flushing, irrigation, and laundry, may be a significant part of a sustainable water management strategy.

Rainwater cisterns can also act as habitat for pathogen-bearing mosquitoes. As a result, care must be taken to ensure that female mosquitoes can not access the cistern to lay eggs. Larvae eating fish can also be added to the cistern, or it can be chemically treated.

Research edit

The South African Water Research Commission has supported research into rainwater harvesting.[39] Studies in arid, semiarid, and humid regions have confirmed that techniques such as mulching, pitting, ridging, and modified run-on plots are effective for small-scale crop production.[40] Hydrofracturing has regularly been used to improve the performance of water boreholes. From 1990 to 1992, 170 boreholes had been hydrofractured.[41]

Country examples edit

Canada edit

This section is an excerpt from Rainwater harvesting in Canada.[edit]
 
A small rainwater harvesting tank in Quebec.

Rainwater harvesting is becoming a procedure that many Canadians are incorporating into their daily lives, although data does not give exact figures for implementation.[42] Rainwater can be used for a number of purposes including stormwater reduction, irrigation, laundry and portable toilets.[43] In addition to low costs, rainwater harvesting is useful for landscape irrigation. Many Canadians have started implementing rainwater harvesting systems for use in stormwater reduction, irrigation, laundry, and lavatory plumbing. Provincial and municipal legislation is in place for regulating the rights and uses for captured rainwater. Substantial reform to Canadian law since the mid-2000s has increased the use of this technology in agricultural, industrial, and residential use, but ambiguity remains amongst legislation in many provinces. Bylaws and local municipal codes often regulate rainwater harvesting.

Multiple organizations and companies have developed in Canada to provide education, technology, and installation for rainwater harvesting. These include the Canadian Association for Rainwater Management (CANARM),[44] Canadian Mortgage and Housing Corporation (CMHC), and CleanFlo Water Technologies.[45] CANARM is an association that prioritizes education, training and spreading awareness for those entering the rainwater harvesting industry.[44]

India edit

This section is an excerpt from Water supply and sanitation in India § Rainwater harvesting.[edit]
In the early 21st century, India began heavily investing in rainwater harvesting infrastructure and policy as an urgent response to water scarcity. [46] In 2001, Tamil Nadu became the first Indian state to make rainwater harvesting compulsory in every building to avoid groundwater depletion. In Rajasthan, rainwater harvesting has traditionally been practiced by the people of the Thar Desert. Increase in rainwater harvesting efforts across the nation have revived ancient water harvesting systems in Rajasthan, such as the chauka system from the Jaipur district. Other large cities like Pune, Mumbai and Bangalore all have varying rules for mandatory rainwater harvesting, especially in new buildings. In 2002, the Municipal Corporation of Greater Mumbai required all new buildings over 1000 square meters to have rainwater harvesting infrastructure. [47] The law was expanded in 2007 to 300 square meters. The goal was to ensure buildings had enough water to last them through non-monsoon seasons. The process included a catchment system, an initial flush, and extensive filtering. As of 2021, the Brihanmumbai Municipal Corporation (BMC) reported 3000 newly constructed or redeveloped buildings with rainwater harvesting infrastructure. [48] However, many residents have complained that the stored water is contaminated, turning saline and brackish. Experts and residents argue that BMC authorities have done little to take implementation seriously, and the actual effectiveness of the rainwater harvesting mandate is unknown. [49]

While rainwater harvesting in an urban context has gained traction in recent years, evidence points toward rainwater harvesting in rural India since ancient times.

United Kingdom edit

This section is an excerpt from Rainwater harvesting in the United Kingdom.[edit]

Rainwater harvesting in the United Kingdom is a practice of growing importance. Rainwater harvesting in the UK is both a traditional and reviving technique for collecting water for domestic uses and is generally used for non-hygienic purposes like watering gardens, flushing toilets, and washing clothes.[50] In commercial premises like supermarkets it is used for things like toilet flushing where larger tank systems can be used collecting between 1000 and 7500 litres of water. It is claimed that in the South East of England there is less water available per person than in many Mediterranean countries.[citation needed]

Rainwater is almost always collected strictly from the roof, then heavily filtered using either a filter attached to the down pipe, a fine basket filter or for more expensive systems like self-cleaning filters placed in an underground tank.[51] UK homes using some form of rainwater harvesting system can reduce their mains water usage by 50% or more, although a 20-30% saving is more common.[52] At the present time (depending upon where you live in the UK) mains water delivery and equivalent waste water and sewerage processing costs about £2 per cubic metre. Reducing mains-water metered volumes also reduces the sewerage and sewage disposal costs in the same proportion, because water company billing assumes that all water taken into the house is discharged into the sewers.

United States edit

This section is an excerpt from Water supply and sanitation in the United States § Rainwater harvesting.[edit]
In the United States, until 2009 in Colorado, water rights laws almost completely restricted rainwater harvesting; a property owner who captured rainwater was deemed to be stealing it from those who have the rights to take water from the watershed. Now, residential good owners who meet certain criteria may obtain a permit to install a rooftop precipitation collection system (SB 09-080).[53] Up to 10 large scale pilot studies may also be permitted (HB 09–1129).[54] The main factor in persuading the Colorado Legislature to change the law was a 2007 study that found that in an average year, 97% of the precipitation that fell in Douglas County, in the southern suburbs of Denver, never reached a stream—it was used by plants or evaporated on the ground. Rainwater catchment is mandatory for new dwellings in Santa Fe, New Mexico.[55] Texas offers a sales tax exemption on the purchase of rainwater harvesting equipment. Both Texas[56] and Ohio allow the practice even for potable purposes. Oklahoma passed the Water for 2060 Act in 2012, to promote pilot projects for rainwater and graywater use among other water-saving techniques.[57]

Other countries edit

 
Rainwater harvesting tank in Rwanda.
  • Uganda: Rainwater harvesting has been used in Uganda to promote household and community scale water security for many years. Regular maintenance is an ongoing challenge with existing installation and there are many examples of installations that have failed due to poor maintenance. Research has also shown that awareness of RWH and how to access necessary resources to implement RWH is variable across Ugandan society.[1]
  • Thailand has the largest fraction of the population in the rural area relying on rainwater harvesting (currently around 40%).[58] Rainwater harvesting was promoted heavily by the government in the 1980s. In the 1990s, after government funding for the collection tanks ran out, the private sector stepped in and provided several million tanks to private households, many of which continue to be used.[59] This is one of the largest examples of self-supply of water worldwide.
  • In Bermuda, the law requires all new construction to include rainwater harvesting adequate for the residents.[60]
  • New Zealand has plentiful rainfall in the West and South, and rainwater harvesting is the normal practice in many rural areas, using roof water directed by spouting into covered, 1000 litre storage tanks, with the encouragement of most local councils.[61]
  • In Sri Lanka, rainwater harvesting has been a popular method of obtaining water for agriculture and for drinking purposes in rural homes. The legislation to promote rainwater harvesting was enacted through the Urban Development Authority (Amendment) Act, No. 36 of 2007.[62] The Lanka Rainwater Harvesting Forum is leading Sri Lanka's initiative.[63] See also: Tank cascade system.

History edit

See also: History of water supply and sanitation

The construction and use of cisterns to store rainwater can be traced back to the Neolithic Age, when waterproof lime plaster cisterns were built in the floors of houses in village locations of the Levant, a large area in Southwest Asia, south of the Taurus Mountains, bounded by the Mediterranean Sea in the west, the Arabian Desert in the south, and Mesopotamia in the east. By the late 4000 BC[clarification needed], cisterns were essential elements of emerging water management techniques used in dry-land farming.[64]

Many ancient cisterns have been discovered in some parts of Jerusalem and throughout what is today Israel/Palestine. At the site believed by some to be that of the biblical city of Ai (Khirbet et-Tell), a large cistern dating back to around 2500 BC was discovered that had a capacity of nearly 1,700 m3 (60,000 cu ft). It was carved out of a solid rock, lined with large stones, and sealed with clay to keep from leaking.[64]

The Greek island of Crete is also known for its use of large cisterns for rainwater collection and storage during the Minoan period from 2,600 BC–1,100 BC. Four large cisterns have been discovered at Myrtos-Pyrgos, Archanes, and Zakroeach. The cistern found at Myrtos-Pyrgos was found to have a capacity of more than 80 m3 (2,800 cu ft) and to date back to 1700 BC.[64]

Around 300 BC, farming communities in Balochistan (now located in Pakistan, Afghanistan, and Iran), and Kutch, India, used rainwater harvesting for agriculture and many other uses.[65] Rainwater harvesting was done by Chola kings as well.[66] Rainwater from the Brihadeeswarar temple (located in Balaganapathy Nagar, Thanjavur, India) was collected in Shivaganga tank.[67] During the later Chola period, the Vīrānam tank was built (1011 to 1037 AD) in the Cuddalore district of Tamil Nadu to store water for drinking and irrigation purposes. Vīrānam is a 16-km-long tank with a storage capacity of 1,465,000,000 cu ft (41,500,000 m3).

Rainwater harvesting was also common in the Roman Empire.[68] While Roman aqueducts are well-known, Roman cisterns were also commonly used and their construction expanded with the Empire.[64] For example, in Pompeii, rooftop water storage was common before the construction of the aqueduct in the 1st century BC.[69] This history continued with the Byzantine Empire; for example, the Basilica Cistern in Istanbul.

Though little known, for centuries the town of Venice depended on rainwater harvesting. The lagoon which surrounds Venice is brackish water, which is not suitable for drinking. The ancient inhabitants of Venice established a system of rainwater collection which was based on man-made insulated collection wells.[70] Water percolated down the specially designed stone flooring, and was filtered by a layer of sand, then collected at the bottom of the well. Later, as Venice acquired territories on the mainland, it started to import water by boat from local rivers, but the wells remained in use and were especially important in time of war when access to the mainland water could be blocked by an enemy.

See also edit

References edit

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External links edit

 
Wikiversity has learning resources about Rainwater harvesting

December 15, 2023
rainwater, harvesting, collection, storage, rain, rather, than, allowing, rainwater, collected, from, roof, like, surface, redirected, tank, cistern, deep, well, shaft, borehole, aquifer, reservoir, with, percolation, that, seeps, down, restores, ground, water. Rainwater harvesting RWH is the collection and storage of rain rather than allowing it to run off Rainwater is collected from a roof like surface and redirected to a tank cistern deep pit well shaft or borehole aquifer or a reservoir with percolation so that it seeps down and restores the ground water Dew and fog can also be collected with nets or other tools Rainwater harvesting differs from stormwater harvesting as the runoff is typically collected from roofs and other surfaces for storage and subsequent reuse 2 10 Its uses include watering gardens livestock 3 irrigation domestic use with proper treatment and domestic heating The harvested water can also be committed to longer term storage or groundwater recharge 4 Basic configuration of domestic rainwater harvesting system in Uganda 1 Rainwater harvesting is one of the simplest and oldest methods of self supply of water for households having been used in South Asia and other countries for many thousands of years 5 Installations can be designed for different scales including households neighbourhoods and communities and can also be designed to serve institutions such as schools hospitals and other public facilities 6 Contents 1 Applications 1 1 Domestic use 1 2 Agriculture 1 3 Industry 2 Technologies 2 1 System setup 2 2 Rainwater harvesting by freshwater flooded forests 2 3 Rainwater harvesting by solar power panels 2 4 Other innovations 3 Advantages 3 1 Independent water supply 3 2 Supplemental in drought 3 3 Life cycle assessment 3 4 Cost effectiveness 4 Limitations 4 1 Quality of water 5 Research 6 Country examples 6 1 Canada 6 2 India 6 3 United Kingdom 6 4 United States 6 5 Other countries 7 History 8 See also 9 References 10 External linksApplications edit nbsp Rainwater capture and storage system Mexico City campus Monterrey Institute of Technology and Higher Education nbsp Cistern Mission District San Francisco California nbsp Rainwater capture Gibraltar East Side 1992 nbsp Home with rain collection jars on roof Panarea Aeolian Islands north of Sicily Italy 7 nbsp Rainwater harvesting and hand washing system for a toilet in Kenya nbsp Rainwater harvesting in Burkina Faso nbsp Plastic Pond for Rainwater Harvesting Nepal 2013 8 nbsp Rainwater harvesting system KiribatiDomestic use edit Rooftop rainwater harvesting is used to provide drinking water domestic water water for livestock water for small irrigation and a way to replenish groundwater levels Agriculture edit In regards to urban agriculture rainwater harvesting in urban areas reduces the impact of runoff and flooding The combination of urban green rooftops with rainwater catchments have been found to reduce building temperatures by more than 1 3 degrees Celsius 9 Rainwater harvesting in conjunction with urban agriculture would be a viable way to help meet the United Nations Sustainable Development Goals for cleaner and sustainable cities health and wellbeing and food and water security Sustainable Development Goal 6 The technology is available however it needs to be remodeled in order to use water more efficiently especially in an urban setting Kenya has already been successfully harvesting rainwater for toilets laundry and irrigation Since the establishment of the country s 2016 Water Act Kenya has prioritized the regulation of their agriculture industry 10 Additionally areas in Australia use harvested rainwater for cooking and drinking 9 Studies done by Stout et al researching the feasibility in India found RWH was most beneficial used for small scale irrigation which provides income with the sales of produce and overflow used for groundwater recharge 9 Missions to five Caribbean countries have shown that the capture and storage of rainwater runoff for later use is able to significantly reduce the risk of losing some or all of the year s harvest because of soil or water scarcity In addition the risks associated with flooding and soil erosion during high rainfall seasons would decrease Small farmers especially those farming on hillsides could benefit the most from rainwater harvesting because they are able to capture runoff and decrease the effects of soil erosion 11 Many countries especially those with arid environments use rainwater harvesting as a cheap and reliable source of clean water 12 To enhance irrigation in arid environments ridges of soil are constructed to trap and prevent rainwater from running down hills and slopes Even in periods of low rainfall enough water is collected for crops to grow 13 Water can be collected from roofs dams and ponds can be constructed to hold large quantities of rainwater so that even on days when little to no rainfall occurs enough is available to irrigate crops Industry edit Frankfurt Airport has the biggest rainwater harvesting system in Germany The system helps save approximately 1 million cubic meters of water per year The cost of the system was 1 5 million dm US 63 000 in 1993 This system collects water from the roofs of the new terminal which has an area of 26 800 square meters The water is collected in the basement of the airport in six tanks with a storage capacity of 100 cubic meters The water is mainly used for toilet flushing watering plants and cleaning the air conditioning system 14 Rainwater harvesting was adopted at The Velodrome The London Olympic Park in order to increase the sustainability of the facility A 73 decrease in potable water demand by the park was estimated Despite this it was deemed that rainwater harvesting was a less efficient use of financial resources to increase sustainability than the park s blackwater recycling program 15 Technologies editTraditionally stormwater management using detention basins served a single purpose However optimized real time control lets this infrastructure double as a source of rainwater harvesting without compromising the existing detention capacity 16 This has been used in the EPA headquarters to evacuate stored water prior to storm events thus reducing wet weather flow while ensuring water availability for later reuse This has the benefit of increasing water quality released and decreasing the volume of water released during combined sewer overflow events 17 18 Generally check dams are constructed across the streams to enhance the percolation of surface water into the subsoil strata The water percolation in the water impounded area of the check dams can be enhanced artificially manyfold by loosening the subsoil strata and overburden using ANFO explosives as used in open cast mining Thus local aquifers can be recharged quickly using the available surface water fully for use in the dry season System setup edit Rainwater harvesting systems can range in complexity from systems that can be installed with minimal skills to automated systems that require advanced setup and installation The basic rainwater harvesting system is more of a plumbing job than a technical job as all the outlets from the building s terrace are connected through a pipe to an underground tank that stores water There are common components that are installed in such systems such as pre filters see e g vortex filter drains gutters storage containers and depending on whether the system is pressurized also pumps and treatment devices such as UV lights chlorination devices and post filtration equipment Systems are ideally sized to meet the water demand throughout the dry season since it must be big enough to support daily water consumption Specifically the rainfall capturing area such as a building roof must be large enough to maintain an adequate flow of water The water storage tank size should be large enough to contain the captured water For low tech systems many low tech methods are used to capture rainwater rooftop systems surface water capture and pumping the rainwater that has already soaked into the ground or captured in reservoirs and storing it in tanks cisterns Rainwater harvesting by freshwater flooded forests edit Rainwater harvesting is possible by growing freshwater flooded forests without losing the income from the used submerged land 19 The main purpose of the rainwater harvesting is to use the locally available rainwater to meet water requirements throughout the year without the need of huge capital expenditure This would facilitate the availability of uncontaminated water for domestic industrial and irrigation needs Rainwater harvesting by solar power panels edit Good quality water resource closer to populated areas is becoming scarce and costly for the consumers In addition to solar and wind energy rainwater is major renewable resource of any land Vast areas are being covered by solar PV panels every year in all parts of the world Solar panels can also be used for harvesting most of the rainwater falling on them and drinking quality water free from bacteria and suspended matter can be generated by simple filtration and disinfection processes as rainwater is very low in salinity 20 21 22 Exploitation of rainwater for value added products like bottled drinking water makes solar PV power plants profitable even in high rainfall cloudy areas by the augmented income from value added drinking water generation Recently cost effective rainwater collection in the already dug wells found to be highly effective in bringing groundwater level up in India Other innovations edit nbsp RainSaucer system at an orphanage in GuatemalaInstead of using the roof for catchment the RainSaucer which looks like an upside down umbrella collects rain straight from the sky This decreases the potential for contamination and makes RainSaucer a potential application for potable water in developing countries 23 Other applications of this free standing rainwater collection approach are sustainable gardening and small plot farming 24 A Dutch invention called the Groasis Waterboxx is also useful for growing trees with harvested and stored dew and rainwater Advantages editRainwater harvesting provides the independent water supply during regional water restrictions and in developed countries it is often used to supplement the main supply It provides water when a drought occurs can help mitigate flooding of low lying areas and reduces demand on wells which may enable groundwater levels to be sustained Rainwater harvesting increases the availability of water during dry seasons by increasing the levels of dried borewells and wells Surface water supply is readily available for various purposes thus reducing dependence on underground water It improves the quality of ground by diluting salinity It does not cause pollution and is environmentally friendly It is cost effective and easily affordable It also helps in the availability of potable water as rainwater is substantially free of salinity and other salts Applications of rainwater harvesting in urban water system provides a substantial benefit for both water supply and wastewater subsystems by reducing the need for clean water in water distribution systems less generated stormwater in sewer systems 25 and a reduction in stormwater runoff polluting freshwater bodies A large body of work has focused on the development of life cycle assessment and its costing methodologies to assess the level of environmental impacts and money that can be saved by implementing rainwater harvesting systems 22 Independent water supply edit Rainwater harvesting provides an independent water supply during water restrictions In areas where clean water is costly or difficult to come by rainwater harvesting is a critical source of clean water In developed countries rainwater is often harvested to be used as a supplemental source of water rather than the main source but the harvesting of rainwater can also decrease a household s water costs or overall usage levels Rainwater is safe to drink if the consumers do additional treatments before drinking Boiling water helps to kill germs Adding another supplement to the system such as a first flush diverter is also a common procedure to avoid contaminants of the water 26 Supplemental in drought edit When drought occurs rainwater harvested in past months can be used If rain is scarce but also unpredictable the use of a rainwater harvesting system can be critical to capturing the rain when it does fall Many countries with arid environments use rainwater harvesting as a cheap and reliable source of clean water To enhance irrigation in arid environments ridges of soil are constructed to trap and prevent rainwater from running downhills Even in periods of low rainfall enough water is collected for crops to grow Water can be collected from roofs and tanks can be constructed to hold large quantities of rainwater In addition rainwater harvesting decreases the demand for water from wells enabling groundwater levels to be further sustained rather than depleted Life cycle assessment edit Life cycle assessment is a methodology used to evaluate the environmental impacts of a system from cradle to grave of its lifetime Devkota et al 27 28 developed such a methodology for rainwater harvesting and found that the building design e g dimensions and function e g educational residential etc play critical roles in the environmental performance of the system To address the functional parameters of rainwater harvesting systems a new metric was developed the demand to supply ratio D S identifying the ideal building design supply and function demand in regard to the environmental performance of rainwater harvesting for toilet flushing With the idea that supply of rainwater not only saves the potable water but also saves the stormwater entering the combined sewer network thereby requiring treatment the savings in environmental emissions were higher if the buildings are connected to a combined sewer network compared to separate one 28 Cost effectiveness edit Although standard RWH systems can provide a water source to developing regions facing poverty the average cost for an RWH setup can be costly depending on the type of technology used Governmental aid and NGOs can assist communities facing poverty by providing the materials and education necessary to develop and maintain RWH setups 29 Some studies show that rainwater harvesting is a widely applicable solution for water scarcity and other multiple usages owing to its cost effectiveness and eco friendliness 29 30 Constructing new substantial centralized water supply systems such as dams is prone to damage local ecosystems generates external social costs and has limited usages especially in developing countries or impoverished communities On the other hand installing rainwater harvesting systems is verified by a number of studies to provide local communities a sustainable water source accompanied by other various benefits including protection from flood and control of water runoff even in poor regions 29 31 Rainwater harvesting systems that do not require major construction or periodic maintenance by a professional from outside the community are more friendly to the environment and more likely to benefit the local people for a longer period of time 29 Thus rainwater harvesting systems that could be installed and maintained by local people have bigger chances to be accepted and used by more people The usage of in situ technologies can reduce investment costs in rainwater harvesting In situ technologies for rainwater harvesting could be a feasible option for rural areas since less material is required to construct them They can provide a reliable water source that can be utilized to expand agricultural outputs Above ground tanks can collect water for domestic use however such units can be unaffordable to people in poverty 32 Limitations editRainwater harvesting is a widely used method of storing rainwater in the countries presenting with drought characteristics Several pieces of research have derived and developed different criteria and techniques to select suitable sites for harvesting rainwater Some research was identified and selected suitable sites for the potential erection of dams as well as derived a model builder in ArcMap 10 4 1 The model combined several parameters such as slope runoff potential land cover use stream order soil quality and hydrology to determine the suitability of the site for harvesting rainwater 33 Harvested water from RWH systems can be minimal during below average precipitation in arid urban regions such as the Middle East RWH is useful for developing areas as it collects water for irrigation and domestic purposes However the gathered water should be adequately filtered to ensure safe drinking 34 Quality of water edit Rainwater may need to be analyzed properly and used in a way appropriate to its safety In the Gansu province for example solar water disinfection is used by boiling harvested rainwater in parabolic solar cookers before being used for drinking 35 These so called appropriate technology methods provide low cost disinfection options for treatment of stored rainwater for drinking While rainwater itself is a clean source of water often better than groundwater or water from rivers or lakes 36 the process of collection and storage often leaves the water polluted and non potable Rainwater harvested from roofs can contain human animal and bird feces mosses and lichens windblown dust particulates from urban pollution pesticides and inorganic ions from the sea Ca Mg Na K Cl SO4 and dissolved gases CO2 NOx SOx High levels of pesticide have been found in rainwater in Europe with the highest concentrations occurring in the first rain immediately after a dry spell 37 the concentration of these and other contaminants are reduced significantly by diverting the initial flow of run off water to waste Improved water quality can also be obtained by using a floating draw off mechanism rather than from the base of the tank and by using a series of tanks withdraw from the last in series Prefiltration is a common practice used in the industry to keep the system healthy and ensure that the water entering the tank is free of large sediments A concept of rainwater harvesting and cleaning it with solar energy for rural household drinking purposes has been developed by Nimbkar Agricultural Research Institute 38 Conceptually a water supply system should match the quality of water with the end user However in most of the developed world high quality potable water is used for all end uses This approach wastes money and energy and imposes unnecessary impacts on the environment Supplying rainwater that has gone through preliminary filtration measures for non potable water uses such as toilet flushing irrigation and laundry may be a significant part of a sustainable water management strategy Rainwater cisterns can also act as habitat for pathogen bearing mosquitoes As a result care must be taken to ensure that female mosquitoes can not access the cistern to lay eggs Larvae eating fish can also be added to the cistern or it can be chemically treated Research editThe South African Water Research Commission has supported research into rainwater harvesting 39 Studies in arid semiarid and humid regions have confirmed that techniques such as mulching pitting ridging and modified run on plots are effective for small scale crop production 40 Hydrofracturing has regularly been used to improve the performance of water boreholes From 1990 to 1992 170 boreholes had been hydrofractured 41 Country examples editCanada edit This section is an excerpt from Rainwater harvesting in Canada edit nbsp A small rainwater harvesting tank in Quebec Rainwater harvesting is becoming a procedure that many Canadians are incorporating into their daily lives although data does not give exact figures for implementation 42 Rainwater can be used for a number of purposes including stormwater reduction irrigation laundry and portable toilets 43 In addition to low costs rainwater harvesting is useful for landscape irrigation Many Canadians have started implementing rainwater harvesting systems for use in stormwater reduction irrigation laundry and lavatory plumbing Provincial and municipal legislation is in place for regulating the rights and uses for captured rainwater Substantial reform to Canadian law since the mid 2000s has increased the use of this technology in agricultural industrial and residential use but ambiguity remains amongst legislation in many provinces Bylaws and local municipal codes often regulate rainwater harvesting Multiple organizations and companies have developed in Canada to provide education technology and installation for rainwater harvesting These include the Canadian Association for Rainwater Management CANARM 44 Canadian Mortgage and Housing Corporation CMHC and CleanFlo Water Technologies 45 CANARM is an association that prioritizes education training and spreading awareness for those entering the rainwater harvesting industry 44 India edit This section is an excerpt from Water supply and sanitation in India Rainwater harvesting edit In the early 21st century India began heavily investing in rainwater harvesting infrastructure and policy as an urgent response to water scarcity 46 In 2001 Tamil Nadu became the first Indian state to make rainwater harvesting compulsory in every building to avoid groundwater depletion In Rajasthan rainwater harvesting has traditionally been practiced by the people of the Thar Desert Increase in rainwater harvesting efforts across the nation have revived ancient water harvesting systems in Rajasthan such as the chauka system from the Jaipur district Other large cities like Pune Mumbai and Bangalore all have varying rules for mandatory rainwater harvesting especially in new buildings In 2002 the Municipal Corporation of Greater Mumbai required all new buildings over 1000 square meters to have rainwater harvesting infrastructure 47 The law was expanded in 2007 to 300 square meters The goal was to ensure buildings had enough water to last them through non monsoon seasons The process included a catchment system an initial flush and extensive filtering As of 2021 the Brihanmumbai Municipal Corporation BMC reported 3000 newly constructed or redeveloped buildings with rainwater harvesting infrastructure 48 However many residents have complained that the stored water is contaminated turning saline and brackish Experts and residents argue that BMC authorities have done little to take implementation seriously and the actual effectiveness of the rainwater harvesting mandate is unknown 49 While rainwater harvesting in an urban context has gained traction in recent years evidence points toward rainwater harvesting in rural India since ancient times United Kingdom edit This section is an excerpt from Rainwater harvesting in the United Kingdom edit Rainwater harvesting in the United Kingdom is a practice of growing importance Rainwater harvesting in the UK is both a traditional and reviving technique for collecting water for domestic uses and is generally used for non hygienic purposes like watering gardens flushing toilets and washing clothes 50 In commercial premises like supermarkets it is used for things like toilet flushing where larger tank systems can be used collecting between 1000 and 7500 litres of water It is claimed that in the South East of England there is less water available per person than in many Mediterranean countries citation needed Rainwater is almost always collected strictly from the roof then heavily filtered using either a filter attached to the down pipe a fine basket filter or for more expensive systems like self cleaning filters placed in an underground tank 51 UK homes using some form of rainwater harvesting system can reduce their mains water usage by 50 or more although a 20 30 saving is more common 52 At the present time depending upon where you live in the UK mains water delivery and equivalent waste water and sewerage processing costs about 2 per cubic metre Reducing mains water metered volumes also reduces the sewerage and sewage disposal costs in the same proportion because water company billing assumes that all water taken into the house is discharged into the sewers United States edit This section is an excerpt from Water supply and sanitation in the United States Rainwater harvesting edit In the United States until 2009 in Colorado water rights laws almost completely restricted rainwater harvesting a property owner who captured rainwater was deemed to be stealing it from those who have the rights to take water from the watershed Now residential good owners who meet certain criteria may obtain a permit to install a rooftop precipitation collection system SB 09 080 53 Up to 10 large scale pilot studies may also be permitted HB 09 1129 54 The main factor in persuading the Colorado Legislature to change the law was a 2007 study that found that in an average year 97 of the precipitation that fell in Douglas County in the southern suburbs of Denver never reached a stream it was used by plants or evaporated on the ground Rainwater catchment is mandatory for new dwellings in Santa Fe New Mexico 55 Texas offers a sales tax exemption on the purchase of rainwater harvesting equipment Both Texas 56 and Ohio allow the practice even for potable purposes Oklahoma passed the Water for 2060 Act in 2012 to promote pilot projects for rainwater and graywater use among other water saving techniques 57 Other countries edit nbsp Rainwater harvesting tank in Rwanda Uganda Rainwater harvesting has been used in Uganda to promote household and community scale water security for many years Regular maintenance is an ongoing challenge with existing installation and there are many examples of installations that have failed due to poor maintenance Research has also shown that awareness of RWH and how to access necessary resources to implement RWH is variable across Ugandan society 1 Thailand has the largest fraction of the population in the rural area relying on rainwater harvesting currently around 40 58 Rainwater harvesting was promoted heavily by the government in the 1980s In the 1990s after government funding for the collection tanks ran out the private sector stepped in and provided several million tanks to private households many of which continue to be used 59 This is one of the largest examples of self supply of water worldwide In Bermuda the law requires all new construction to include rainwater harvesting adequate for the residents 60 New Zealand has plentiful rainfall in the West and South and rainwater harvesting is the normal practice in many rural areas using roof water directed by spouting into covered 1000 litre storage tanks with the encouragement of most local councils 61 In Sri Lanka rainwater harvesting has been a popular method of obtaining water for agriculture and for drinking purposes in rural homes The legislation to promote rainwater harvesting was enacted through the Urban Development Authority Amendment Act No 36 of 2007 62 The Lanka Rainwater Harvesting Forum is leading Sri Lanka s initiative 63 See also Tank cascade system History editSee also History of water supply and sanitation The construction and use of cisterns to store rainwater can be traced back to the Neolithic Age when waterproof lime plaster cisterns were built in the floors of houses in village locations of the Levant a large area in Southwest Asia south of the Taurus Mountains bounded by the Mediterranean Sea in the west the Arabian Desert in the south and Mesopotamia in the east By the late 4000 BC clarification needed cisterns were essential elements of emerging water management techniques used in dry land farming 64 Many ancient cisterns have been discovered in some parts of Jerusalem and throughout what is today Israel Palestine At the site believed by some to be that of the biblical city of Ai Khirbet et Tell a large cistern dating back to around 2500 BC was discovered that had a capacity of nearly 1 700 m3 60 000 cu ft It was carved out of a solid rock lined with large stones and sealed with clay to keep from leaking 64 The Greek island of Crete is also known for its use of large cisterns for rainwater collection and storage during the Minoan period from 2 600 BC 1 100 BC Four large cisterns have been discovered at Myrtos Pyrgos Archanes and Zakroeach The cistern found at Myrtos Pyrgos was found to have a capacity of more than 80 m3 2 800 cu ft and to date back to 1700 BC 64 Around 300 BC farming communities in Balochistan now located in Pakistan Afghanistan and Iran and Kutch India used rainwater harvesting for agriculture and many other uses 65 Rainwater harvesting was done by Chola kings as well 66 Rainwater from the Brihadeeswarar temple located in Balaganapathy Nagar Thanjavur India was collected in Shivaganga tank 67 During the later Chola period the Viranam tank was built 1011 to 1037 AD in the Cuddalore district of Tamil Nadu to store water for drinking and irrigation purposes Viranam is a 16 km long tank with a storage capacity of 1 465 000 000 cu ft 41 500 000 m3 Rainwater harvesting was also common in the Roman Empire 68 While Roman aqueducts are well known Roman cisterns were also commonly used and their construction expanded with the Empire 64 For example in Pompeii rooftop water storage was common before the construction of the aqueduct in the 1st century BC 69 This history continued with the Byzantine Empire for example the Basilica Cistern in Istanbul Though little known for centuries the town of Venice depended on rainwater harvesting The lagoon which surrounds Venice is brackish water which is not suitable for drinking The ancient inhabitants of Venice established a system of rainwater collection which was based on man made insulated collection wells 70 Water percolated down the specially designed stone flooring and was filtered by a layer of sand then collected at the bottom of the well Later as Venice acquired territories on the mainland it started to import water by boat from local rivers but the wells remained in use and were especially important in time of war when access to the mainland water could be blocked by an enemy See also edit nbsp Ecology portalAir well condenser A building or device used to collect water by condensing the water vapor present in the air Atmospheric water generator Device that extracts drinkable water from humid air Blue roof Roof of a building that is designed to provide temporary water storage Catchwater Runoff catching or channeling device Desalination Removal of salts from water Detention basin Flood control measure Dew pond Artificial pond usually sited on the top of a hill intended for watering livestock Hydropower Power generation via movement of water Peak water Concept on the quality and availability of freshwater resources Rain power Power generation via movement of waterPages displaying short descriptions of redirect targets Rainwater harvesting in the Sahel Sub Saharan agricultural water management Retention basin Artificial pond for stormwater runoff Tank cascade system Ancient irrigation system in Sri Lanka Water conservation Policies for sustainable development of water useReferences edit a b Staddon Chad Rogers Josh Warriner Calum Ward Sarah Powell Wayne 2018 11 17 Why doesn t every family practice rainwater harvesting Factors that affect the decision to adopt rainwater harvesting as a household water security strategy in central Uganda Water International 43 8 1114 1135 doi 10 1080 02508060 2018 1535417 ISSN 0250 8060 S2CID 158857347 Managing Urban Stormwater Harvesting and reuse PDF Report Sydney Australia New South Wales Department of Environment and Conservation 1 April 2006 ISBN 1 74137 875 3 Archived from the original PDF on 2020 07 16 Rainwater Harvesting for Livestock www ntotank com Archived from the original on 2018 11 21 Retrieved 2018 11 21 Kinkade Levario Heather 2007 Design for Water Rainwater Harvesting Stormwater Catchment and Alternate Water Reuse Gabriola Island B C New Society Publishers p 27 ISBN 978 0 86571 580 6 Bagel Ravi Stepan Lea Hill Joseph K W 2017 Water knowledge and the environment in Asia epistemologies practices and locales London ISBN 9781315543161 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Rural Water Supply Network Rural Water Supply Network Self supply site www rural water supply net en self supply Archived from the original on 2019 01 14 Retrieved 2017 03 19 it Architettura eoliana commons Category Rainwater harvesting in Nepal a b c Amos Caleb Christian Rahman Ataur Karim Fazlul Gathenya John Mwangi November 2018 A scoping review of roof harvested rainwater usage in urban agriculture Australia and Kenya in focus Journal of Cleaner Production 202 174 190 doi 10 1016 j jclepro 2018 08 108 ISSN 0959 6526 S2CID 158718294 Understanding the Kenya 2016 Water Act PDF 2030wrg Archived PDF from the original on July 26 2021 Retrieved July 26 2021 Fletcher Paul Dr Lystra Feasibility Study of 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Geosyntec p 5 Archived from the original PDF on 4 March 2016 Retrieved 30 November 2014 Rain Water Harvesting by Freshwater Flooded Forests Archived from the original on 2016 03 05 Retrieved 2018 07 09 Rain fed solar powered water purification systems Archived from the original on 21 October 2017 Retrieved 21 October 2017 Inverted Umbrella Brings Clean Water amp Clean Power To India 2017 12 04 Archived from the original on 2018 07 09 Retrieved 5 December 2017 a b New rooftop solar hydro panels harvest drinking water and energy at the same time 29 November 2017 Archived from the original on 2019 08 10 Retrieved 2017 11 30 Harvesting rainwater for more than greywater SmartPlanet Archived from the original on 10 May 2013 Retrieved 13 November 2014 Kumar Ro Collect up to 10 gallons of water per inch of rain with Rainsaucers latest standalone rainwater catchment LocalBlu Archived from the original on 17 December 2012 Retrieved 11 February 2013 Behzadian k Kapelan Z 2015 Advantages of integrated and sustainability based assessment for metabolism based strategic planning of urban water systems PDF Science of the Total Environment 527 528 220 231 Bibcode 2015ScTEn 527 220B doi 10 1016 j scitotenv 2015 04 097 hdl 10871 17351 PMID 25965035 Centers of Disease Control and Prevention CDC 2013 Retrieved from https www cdc gov healthywater drinking private rainwater collection html Archived 2020 04 06 at the Wayback Machine Devkota J Schlachter H Anand C Phillips R Apul Defne November 2013 Development and application of EEAST A lifecycle based model for use of harvested rainwater and composting toilets in buildings Journal of Environmental Management 130 397 404 doi 10 1016 j jenvman 2013 09 015 PMID 24141064 a b Devkota Jay Schlachter Hannah Apul Defne May 2015 Life cycle based evaluation of harvested rainwater use in toilets and for irrigation Journal of Cleaner Production 95 311 321 doi 10 1016 j jclepro 2015 02 021 a b c d Cain Nicholas L 2014 A Different Path The Global Water Crisis and Rainwater Harvesting Consilience 12 147 157 ISSN 1948 3074 JSTOR 26476158 Archived from the original on 2021 08 10 Retrieved 2020 11 26 Staddon Chad Rogers Josh Warriner Calum Ward Sarah Powell Wayne 17 November 2018 Why doesn t every family practice rainwater harvesting Factors that affect the decision to adopt rainwater harvesting as a household water security strategy in central Uganda Water International 43 8 1114 1135 doi 10 1080 02508060 2018 1535417 S2CID 158857347 Furumai Hiroaki 2008 Recent application of rainwater storage and harvesting in Japan Lunduka Rodney 2011 ECONOMIC ANALYSIS OF RAINWATER HARVESTING AND SMALL SCALE WATER RESOURCES DEVELOPMENT Retrieved 2020 11 25 a href Template Cite book html title Template Cite book cite book a website ignored help Ibrahim Gaylan Rasul Faqe Rasul Azad Ali Hamid Arieann Ali Zana Fattah Dewana Amanj Ahmad April 2019 Suitable Site Selection for Rainwater Harvesting and Storage Case Study Using Dohuk Governorate Water 11 4 864 doi 10 3390 w11040864 nbsp Text was copied from this source which is available under a Creative Commons Attribution 4 0 International License Archived 2017 10 16 at the Wayback Machine Lange J Husary S Gunkel A Bastian D Grodek T 2012 03 06 Potentials and limits of urban rainwater harvesting in the Middle East Hydrology and Earth System Sciences 16 3 715 724 Bibcode 2012HESS 16 715L doi 10 5194 hess 16 715 2012 ISSN 1607 7938 Archived from the original on 2022 07 10 Retrieved 2020 11 28 Chen Xuefei 27 August 2007 Rainwater harvesting benefits farmers in Gansu People s Daily Online Archived from the original on 20 October 2012 Retrieved 10 July 2018 Hatch Jacob The Many Benefits of Rainwater Harvesting Hydration Anywhere Archived from the original on 13 December 2016 Retrieved 3 August 2018 Pearce Fred Mackenzie Debora 3 April 1999 It s raining pesticides New Scientist No 2180 Archived from the original on 10 July 2018 Retrieved 10 July 2018 Low cost drinking water technology 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Corporation 2013 Duke Katie 2014 Ownership of Rainwater and the Legality of Rainwater Harvesting in British Columbia Appeal Retrieved 2016 03 29 a b CANARM org Canadian Association for Rainwater Management www canarm org Retrieved 2016 03 22 Homepage Water Septic Tanks and Rainwater Harvesting Systems Canada Clean Flo Rainwater Management Water Septic Tanks and Rainwater Harvesting Systems Canada Clean Flo Rainwater Management Retrieved 2016 03 22 Kumar M Dinesh Ghosh Shantanu Patel Ankit Singh Om Prakash Ravindranath R Kumar M Dinesh Ghosh Shantanu Patel Ankit Singh Om Prakash Ravindranath R 2006 Kumar M Dinesh Ghosh Shantanu Patel Ankit Singh Om Prakash Ravindranath R eds Rainwater harvesting in India some critical issues for basin planning and research Land Use and Water Resources Research doi 10 22004 ag econ 47964 Button Cat 2017 05 04 Domesticating water supplies through rainwater harvesting in Mumbai Gender amp Development 25 2 269 282 doi 10 1080 13552074 2017 1339949 ISSN 1355 2074 India Rainwater Harvesting Market By Type Rain Barrel System Dry System Wet System Green Roof System By Harvesting Method Above Ground Ground Surface and Storage Tank Under Ground By Application Residential Commercial Industrial and Agricultural By Region By Competition Forecast amp Opportunities 2018 2028 TechSci Research Johari Aarefa Mumbai could save water through its mandatory rainwater harvesting rule but no one seems to care Scroll in Retrieved 2023 05 12 Harvesting rainwater for domestic uses an information guide PDF Environment Agency October 2010 Retrieved 2021 01 23 Rainwater Filters Rainharvesting Systems Retrieved 2017 03 08 Rainwater harvesting SVCwater Retrieved 2013 07 27 Rainwater Collection in Colorado PDF Colorado water law notices Colorado Division of Water Resources Archived from the original PDF on 2016 03 06 Retrieved 2012 03 24 Criteria and Guidelines for the Rainwater Harvesting PDF Pilot Project Program Colorado Water Conservation Board CWCB January 28 2010 Archived from the original PDF on 2016 03 05 Retrieved 2012 03 24 Johnson Kirk June 28 2009 It s Now Legal to Catch a Raindrop in Colorado The New York Times Retrieved 2009 06 30 82 R H B No 3391 An act relating to rainwater harvesting and other water conservation initiatives went into effect on September 1 2011 82nd Regular Session Texas Legislature Online Retrieved 8 February 2013 State Rainwater Harvesting Statutes Programs and Legislation NCSL Archived from the original on 8 October 2013 Retrieved 7 February 2013 JMP 2016 Joint Monitoring Programme Thailand Data Retrieved 2017 03 13 permanent dead link Saladin Matthias 2016 Rainwater Harvesting in Thailand learning from the World Champions Archived from the original on 2019 01 29 Retrieved 2017 03 13 Harry Low December 23 2016 Why houses in Bermuda have white stepped roofs BBC News Archived from the original on 2016 12 23 Retrieved 2016 12 23 Rainwater tanks Greater Wellington Regional Council 28 April 2016 Archived from the original on 14 April 2016 Retrieved 21 March 2017 Parliament Of The Democratic Socialist Republic of Sri Lanka PDF Archived from the original PDF on 2013 11 04 Retrieved 2011 12 09 Lanka Rain Water Harvesting Forum LRWHF Archived from the original on 2015 02 03 Retrieved 2011 12 09 a b c d Mays Larry Antoniou George amp Angelakis Andreas 2013 History of water cisterns Legacies and lessons Water 5 4 1916 1940 doi 10 3390 w5041916 Rain water Harvesting Tamil Nadu State Government India Archived from the original on 12 August 2019 Retrieved 23 January 2012 Believes in past lives in future The Hindu India 17 July 2010 Archived from the original on 9 October 2012 Rare Chola inscription found near Big Temple The Hindu India 24 August 2003 Archived from the original on 22 November 2003 Kamash Zena 2010 Archaeologies of Water in the Roman Near East Gorgias Press Water Supply Systems Cisterns Reservoirs Aqueducts Roman Building Technology and Architecture University of California Santa Barbara ArchServe Archived from the original on 2016 07 18 Retrieved 2018 04 13 Venetian wells Archived from the original on 2019 05 09 Retrieved 2016 08 29 External links editRainwater harvesting at Wikipedia s sister projects nbsp Media from Commons nbsp Textbooks from Wikibooks nbsp Wikiversity has learning resources about Rainwater harvesting Retrieved from https en wikipedia org w index php title Rainwater harvesting amp oldid 1185138848, wikipedia, wiki, book, books, library,

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