Abstract
To harvest rainwater in building, it is collected from the potential catchments of the building and its surrounding premises. The roof of a building serves as the most effective catchment, but in critical cases various other type of catchments are used. A collection system should be provided to collect rainwater from the catchments. Although roofs are mostly a flat and horizontal surface, roofs of various configurations and inclinations are also seen. As a result, the types of collection and collecting systems, due to roofs of varied shapes, configurations, and inclinations, also differ. The roofs of buildings are mostly made of reinforced cement concrete , but roofs of various other materials also exist. Roofing materials influence the quality of the collected rainwater. Various surface-finishing materials are sometimes used on roofs for various purposes, which also contribute to the quality of rainwater. After a considerable dry spell, the rainwater of the first rain is generally found to be comparatively more contaminated and polluted. Therefore, a considerable amount of such first rainwater must be flushed out. In this chapter, various catchments of buildings, particularly roofs of various designs and materials, as well as the collection approaches and first rainwater ‒flushing methodologies, are discussed. Determining size of the rainwater-collecting elements, the volume of rainwater to be collected, and the quality aspects of the rainwater, is also discussed. Finally, ways of maximizing rainwater collection are suggested.
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References
Haq SA (2014) Rainwater harvesting in building: techniques of maximizing collection. Presentation in the 1st Regional Seminar on Climate change, water security and prospects of rainwater in Bangladesh, Organized by Military Institute of Science and Technology and Water Aid Bangladesh in August, 2014
Roofs (2015) Types of roofs. http://bbstore.northbrook-online.ac.uk/store/CITB/CnJ/materials/CJ12_Roofs/M121.pdf. Retrieved on 21 Sept 2015
Olaoye RA, Olaniyan OS (2012) Quality of rainwater from different roof material. Int J Eng Technol 2(8):1417. http://iet-journals.org/archive/2012/august_vol_2_no_8/287181339673653.pdf. Retrieved on 21 Sept 2015
Quality-drinking-water.com (2010) Rainwater collection system to harvest the rainwater. http://www.quality-drinking-water.com/rainwater_collection.html. Retrieved on 22 Sept 2015
Radlet J, Radlet P (2004) Rainwater harvesting design and installation workshop. Save the Rain, Boerne (TX)
Texas Water Development Board (TWDB) (2005) The Texas manual on rainwater harvesting, 3rd edn. Austin, Texas
Nate Downey (2010) Harvest the rain. Sunstone Press, USA, pp 11–112
Haq SA (2006) Plumbing practices. Syeda Masuda Khatoon, Uttara, Dhaka
Worm J, van Hattum T (2006) Rainwater harvesting for domestic use. Agromisa Foundation and CTA, Wageningen, The Netherlands
Kingspan (2015) Sandwitch panel India, Building design. http://panels.kingspan.in/Roof-Drainage-%7C-Roof-Drains-%7C-Gutter-Layout-%7C-India–13266.html. Retrieved on 22 Sept 2015
IAPMO Plumbing Code and Standards, India (2007) Uniform plumbing code—India 2008. IAPMO Plumbing Code and Standards Pvt Ltd., India
Housing and Building Research Institute (HBRI) (2015) Final draft, Bangladesh National Building Code 2015. https://law.resource.org/pub/bd/bnbc.2012/gov.bd.bnbc.2012.08.07.pdf. Retrieved on 21 Jan 2016
Martinson DB, Thomas T (2005) Quantifying the first flush phenomenon. In 12th International Rainwater Catchment Systems Conference, Nov 2005, New Delhi, India, Cited in Kelly CD (2008) Sizing the Firs Flush and its effect on the storage—reliability—yield behavior of rainwater harvesting in Rawanda’ MSc thesis at MIT
Kelly CD (2008) Sizing the first flush and its effect on the storage-reliability-yield behavior of rainwater harvesting in Rwanda. Thesis for Master of Science, Massachusetts Institute of Technology, http://dspace.mit.edu/handle/1721.1/44289#files-area. Retrieved on 20 Jan 2016
Thomas TH, Martinson DB (2007) Roofwater harvesting: a handbook for practitioners. IRC International Water and Sanitation Centre, The Netherlands. Cited in Kelly CD (2008) Sizing the Firs Flush and its effect on the storage—reliability—yield behavior of rainwater harvesting in Rawanda’ MSc thesis at MIT
Department of Planning and Local Government (2010) Water sensitive urban design technical manual for the greater Adelaide Region. Government of South Australia, Adelaide Government of South Australia, pp 5–23. https://www.sa.gov.au/__data/assets/pdf_file/0012/14142/WSUD_chapter_5.pdf. Retrieved on 20 Jan 2016
Worm J, van Hattum T (2006) Rainwater harvesting for domestic use. Agromisa Foundation and CTA, Wageningen, The Netherlands, p 62 (P)
Center for Science and Environment (CSE) (2003) A water harvesting manual’ for Urban Areas’ Case Studies from Delhi, New Delhi, p 10
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Haq, S.A. (2017). Rainwater Collection. In: Harvesting Rainwater from Buildings. Springer, Cham. https://doi.org/10.1007/978-3-319-46362-9_5
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DOI: https://doi.org/10.1007/978-3-319-46362-9_5
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