Abstract
Stormwater harvesting is not as widely adopted in the UK as it is in Australia or some other parts of Europe such as Germany, despite the potential for such systems. Where it is used, professional standard systems are more likely to be installed on privately owned, eco-designed newly built constructions as opposed to standard residential properties. There is some evidence that UK government policies are strengthening in this area but appear to be driven through sustainable drainage strategies for flood mitigation, rather than for supplementing a traditional centrally supplied potable water system. The obstacles to increased uptake are largely cost related, although issues relating to appropriate enforceable regulations, public perception of risk and lack of technical awareness are also evident. Whilst the benefits for water security and the environment are not questionable, the financial viability in the UK is still in doubt due to the high cost of installing these systems, especially when retrofitted. Sound policies, initiatives and incentives are required to increase uptake in line with other countries at the forefront of these technologies.
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References
Arpke A, Hutzler N (2006) Domestic water use in the United States: a life-cycle approach? J Ind Ecol 10(1–2):169–184
Berndtsson JC (2004) Beneficial use of stormwater: a review of possibilities. Urban Water 2004(6) Chalmers University of Technology
Brown RR (2005) Impediments to integrated urban stormwater management: the need for institutional reform. Environ Manag 36(3):455–468
Brown LE, Mitchell G, Holden J et al (2010) Priority water research questions as determined by UK practitioners and policy makers. Sci Total Environ 409:256–266
Campisano A, Butler D, Ward S, Burns MJ, Friedler E, DeBusk K, Fisher-Jeffes LN, Ghisi E, Rahman A, Furumai H, Han M (2017) Urban rainwater harvesting systems: Research, implementation and future perspectives. Water Res 115:195–209
Chappells H, Medd W (2008) What is fair? Tensions between sustainable and equitable domestic water consumption in England and Wales. Local Environ 13(8):725–742
Department for Communities and Local Government (DCLG) (2008) Code for sustainable homes: technical guide. Crown Copyright UK
Department for Communities and Local Government (DCLG) (2010) Code for sustainable homes: technical guide. November 2010. Crown Copyright UK
Department for Environment, Food and Rural Affairs (Defra) (2008) Future Water – the UK’s sustainable water strategy. London, UK
Department for Environment, Food and Rural Affairs (Defra) (2016) Enhanced capital allowance scheme for water Water Technology Product List. Crown copyright UK
Domene E, Saurà D (2006) Urbanisation and water consumption: influencing factors in the metropolitan region of Barcelona. Urban Stud 43(9):1605–1623
Drinking Water Inspectorate (DWI) (2009) Drinking water safety. Guidance to health and water professionals. Crown Copyright UK
Drinking Water Inspectorate (DWI) (2016) List of approved products for use in Public Water Supply in the United Kingdom. April 2016
Egyir SN, Brown C, Scott A (2016) Rainwater as a domestic water supplement in Scotland: attitudes and perceptions. Br J Environ Clim Change 6(3):160–169
Ellis JB (2013) Sustainable surface water management and green infrastructure in UK urban catchment planning. J Environ Plan Manag 56(1):24–41
Environment Agency (2008) Greenhouse gas emissions of water supply and demand management options. SC070010/SR. Environment Agency, Bristol
Environment Agency (2010) Harvesting rainwater for domestic uses: an information guide. Environment Agency, Bristol
Envirowise (2008) Reducing mains water use through rainwater harvesting: collecting a valuable free resource and reducing the impact of runoff. Envirowise Leaflet EN896, Harwell, Didcot, Oxon. http://www.wrap.org.uk/sites/files/wrap/EN896_Final.pdf. Accessed 10 Oct 2017
Fewkes A (1999) The use of rainwater for WC flushing: the field testing of a collection system. Build Environ 34:765–772
Fewkes A (2012) A review of rainwater harvesting in the UK. Struct Surv 30(2):174–194
Fewkes A, Warm PA (2000) Method of modelling the performance of rainwater collection systems in the UK. Build Serv Eng Res Technol 2:257–265
Fewtrell L, Kay D (2007) Microbial quality of rainwater supplies in developed countries: a review. Urban Water J 3:253–260
Freerain (2017) Commercial rainwater harvesting projects. http://www.freerain.co.uk/commercial-case-study-residential.html. Accessed 10 Oct 2017
Geographical (2017) UK Land becoming more urban. http://www.geographical.co.uk/places/mapping/item/1165-uk-land-becoming-more-urban. Accessed 12 Oct 2017
Gould J, Nissen-Petersen E (1999) Rainwater catchment systems for domestic supply: design, construction and implementation. Intermediate Technology Publications, London
Greater London Authority (2015) London sustainable drainage action plan – draft for public consultation. Greater London Authority, London. https://www.london.gov.uk/sites/default/files/lsdap_final.pdf. Accessed 10 Oct 2017
Gwenzi W, Dunjana N, Pisa C et al (2015) Water quality and public health risks associated with roof rainwater harvesting systems for potable supply: review and perspectives. Sustainability Water Qual Ecol 6:107–118
Hackney Council (2007) The SuDS manual. CIRIA C697, Hackney Council, London
Hassell C (2005) Rainwater harvesting in the UK–a solution to increasing water shortages. In Proceedings of the 9th international conference on rainwater catchment cistern systems. Petrolina
Heggen RJ (2000) Rainwater catchment and the challenges of sustainable development. Water Sci Technol 42(1–2):141–145
Helmreich B, Horn H (2009) Opportunities in rainwater harvesting. Desalin 248(1–3):118–124
Herrmann T, Schmida U (1999) Rainwater utilisation in Germany: efficiency, dimensioning, hydraulic and environmental aspects. Urban Water 1(4):307–316
House of Lords (2006) House of lords science and technology committee, 8th report of session 2005–06. Water Management 1: 191-I. London, UK
Hunt DVL, Rogers CDF (2014) A benchmarking system for domestic water use. Sustainability 6:2993–3018
Hurlestones (2017) Water solutions: case studies. Available via https://www.hurlstones.net/south-west/our-solutions-for-you-south-west/case-studies-south-west/. Accessed 10 Oct 2017
Jenkins J, Palframan L, Pericli A (2016) Customer attitudes to water use and its conservation. Br J Environ Clim Change 6(3):170–178
Kellagher R, Maneiro Franco E (2007) Rainfall collection and use in developments: benefits for yield and stormwater control. WAND Briefing note 19: report SR677, HR Wallingford, UK
Lash D, Ward S, Kershaw T et al (2014) Robust rainwater harvesting: probabilistic tank sizing for climate change adaptation. J Water Clim Change 5(4):526–539
Leggett DJ, Shaffer P (2002) Buildings that save water—rainwater and greywater use. Proc Inst Civil Eng Munic Eng 151(3):189–196
Leggett DJ, Brown R, Brewer D (2001) Rainwater and grey water use in buildings: best practice guidance. The Construction Industry Research and Information Association, London
Li Z, Boyle F, Reynolds A (2010) Rainwater harvesting and greywater treatment systems for domestic application in Ireland. Desalin 260:1–8
London Assembly (2016) London sustainable drainage action plan. https://www.london.gov.uk/WHAT-WE-DO/environment/environment-publications/london-sustainable-drainage-action-plan. Accessed 10 Oct 2017
Melville-Shreeve P, Ward S, Butler D (2016a) Rainwater harvesting typologies for UK houses: a multicriteria analysis of system configurations. Water 8(4):129
Melville-Shreeve P, Cadwalader O, Eisenstein W et al (2016b) Rainwater harvesting for drought management and stormwater control in the San Francisco Bay Area. In: Global performance of the drainage system – stormwater reuse, Novatech 2016, 9th International conference on planning and technologies for sustainable urban water management, Lyon 31 July–1 August 2016
Melville-Shreeve P, Ward S, Butler D (2016c) Dual-purpose rainwater harvesting system design. In: Charlesworth SM (ed) Sustainable surface water management: a handbook for SUDS 205. Wiley, London
Melville-Shreeve P, Hortsman C, Ward S (2016d) A laboratory study into a novel, retroffitable rainwater harvesting system. Br J Environ Clim Change 6(2):128–137
Memon FA, Lobban A, Butler D (2009) Modelling the effectiveness of rainwater harvesting as a stormwater management option. In: International association for hydro-environment engineering and research 33rd Congress, Vancouver, 9–14 August 2009
Nouh M, Al-Shamsy K (2001) Sustainable solutions for urban drainage problems in arid and semi-arid climates. Technical documents in hydrology, UNESCO IHP-V vol 40, UNESCO, Paris, pp106
ONS – Office for National Statistics (2017) Overview of the UK population. March 2017. https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationestimates/articles/overviewoftheukpopulation/mar2017. Accessed 25 Oct 2017
Parkes C, Kershaw H, Hart J, Sibille R, Grant Z (2010) Energy and carbon implications of rainwater harvesting and greywater recycling. Report: SC090018. Environment Agency. Bristol, UK
Parsons D, Goodhew S, Fewkes A et al (2010) The perceived barriers to the inclusion of rainwater harvesting systems by UK house building companies. Urban Water J 7(4):257–265
Pericli A, Jenkins J (2015) Review of current knowledge: smart meters and domestic water usage. Marlow Foundation for Water Research. Commissioned report
Rainwater harvesting Systems (2016) Rainwater harvesting case studies. http://rainharvesting.co.uk/case_studies/. Accessed 10 Oct 2017
Roebuck RM, Oltean-Dumbrava C, Tait S (2011) Whole life cost performance of domestic rainwater harvesting systems in the United Kingdom. Water and Environ J 25(3):355–365
Spillett PB, Evans SG, Colquhoun K (2005) International perspective on BMPs/SUDS: UK—sustainable stormwater management in the UK. In: Impacts of global climate change, American Society of Civil Engineers, Reston, US, 15–19 May 2005
Sponge (2005) The gaps in the existing case for building sustainable homes to encourage sustainable lifestyles. Sponge, London
Sustainable Buildings Task Group (2004) Better buildings – better lives. Sustainable Buildings Task Group, UK
Trautner HJ (2001) Rainwater utilization at the Frankfurt Airport. World Pumps 414:44
UK Climate Change Act (2008) Chapter 27. The Stationary Office, UK
UK Flood and Water Management Act (2010) HMSO, London, UK
U.S. Department of Energy (USDE) (2006) Energy demands on water resources: report to congress on the interdependency of energy and water. USA
Ward S (2010) Rainwater harvesting in the UK: a strategic framework to enable transition from novel to mainstream. PhD thesis. Exeter University. https://ore.exeter.ac.uk/repository/handle/10036/106575. Accessed 5 July 2016
Ward S, Butler D, Memon FA (2008) A pilot study into attitudes towards and perceptions of rainwater harvesting in the UK. BHS 10th national hydrology symposium, Exeter. https://ore.exeter.ac.uk/repository/handle/10036/4251. Accessed 5 July 2016
Ward S, Memon FA, Butler D (2010) Rainwater harvesting: model-based design evaluation. Water Sci Tech 61(1):85–96
Ward SL, Butler D, Memon FA (2011) Benchmarking energy consumption and CO2 emissions from rainwater harvesting systems: an improved method by proxy. Water Environ J 26(2):184–190
Ward S, Memon FA, Butler D (2012a) Performance of a large building rainwater harvesting system. Water Res 46(16):5127–5134
Ward S, Barr S, Butler D et al (2012b) Rainwater harvesting in the UK: socio-technical theory and practice. Technol Forecast Soc Chang 79(7):1354–1361
Ward S, Barr S, Memon F et al (2013) Rainwater harvesting in the UK: exploring water-user perceptions. Urban Water J 10(2):112–126
Ward S, Dornelles F, Giacomo MH et al (2014) Incentivising and charging for rainwater harvesting – three international perspectives. In: Memon FA, Ward S (eds) Alternative water supply systems. International Water Association Publishing, London
Waterwise (2010) Water efficiency in new developments: a best practice guide. Water Wise, UK
Waterwise (2012) Water – the facts. Why do we need to think about water? Waterwise, London. http://www.waterwise.org.uk/data/resources/25/Water_factsheet_2012.pdf. Accessed 5 July 2016
Way CM, Martinson DB, Heslop SE et al (2010) Rainwater harvesting: environmentally beneficial for the UK? Water Sci Technol Water Supply 10(5):776–782
Wheater H, Evans E (2009) Land use, water management and future flood risk. Land Use Policy 26:S251–S264
Wijitkosum S, Sriburi T (2008) Impact of urban expansion on water demand: the case study of Nakhonrachasima city, Lam Ta Kong watershed. Nakhara: J Environ Des Plann 4:69–88
Williams K, Dair C (2006) What is stopping sustainable building in England? Barriers experienced by stakeholders in delivering sustainable developments. Sustain Dev 15:135–147
Woods-Ballard S, Kellagher R, Martin P et al (2007) The SuDS manual. Report no: C697, CIRIA, London. https://www.hackney.gov.uk/Assets/Documents/The-SuDS-Manual-C697.pdf. Accessed 10 Oct 2017
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Lewis, K., Warner, D., Tzilivakis, J. (2019). Stormwater Harvesting. In: Jegatheesan, V., et al. Urban Stormwater and Flood Management. Applied Environmental Science and Engineering for a Sustainable Future. Springer, Cham. https://doi.org/10.1007/978-3-030-11818-1_6
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