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Commenced in January 2007 Frequency: Monthly Edition: International Publications Count: 29644


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10001015
Sustainability Analysis and Quality Assessment of Rainwater Harvested from Green Roofs: A Review
Abstract:
Most people today are aware that global climate change is not just a scientific theory but also a fact with worldwide consequences. Global climate change is due to rapid urbanization, industrialization, high population growth and current vulnerability of the climatic condition. Water is becoming scarce as a result of global climate change. To mitigate the problem arising due to global climate change and its drought effect, harvesting rainwater from green roofs, an environmentally-friendly and versatile technology, is becoming one of the best assessment criteria and gaining attention in Malaysia. This paper addresses the sustainability of green roofs and examines the quality of water harvested from green roofs in comparison to rainwater. The factors that affect the quality of such water, taking into account, for example, roofing materials, climatic conditions, the frequency of rainfall frequency and the first flush. A green roof was installed on the Humid Tropic Centre (HTC) is a place of the study on monitoring program for urban Stormwater Management Manual for Malaysia (MSMA), Eco-Hydrological Project in Kuala Lumpur, and the rainwater was harvested and evaluated on the basis of four parameters i.e., conductivity, dissolved oxygen (DO), pH and temperature. These parameters were found to fall between Class I and Class III of the Interim National Water Quality Standards (INWQS) and the Water Quality Index (WQI). Some preliminary treatment such as disinfection and filtration could likely to improve the value of these parameters to class I. This review paper clearly indicates that there is a need for more research to address other microbiological and chemical quality parameters to ensure that the harvested water is suitable for use potable water for domestic purposes. The change in all physical, chemical and microbiological parameters with respect to storage time will be a major focus of future studies in this field.
Digital Object Identifier (DOI):

References:

[1] H. F.Castleton, V. Stovin, S. B. M. Beck, J. B. Daviso.Green roofs; building energy savings and the potential for retrofit. Energy and Buildings, 2010. 42(10): p. 1582-1591.
[2] Lee Xia Sheng,Tamil Salvi Mari, Ati Rosemary Mohd Ariffin Hussein.Integrated sustainable roof design. Procedia Engineering, 2011. 21: p. 846-852.
[3] Kolb, W. and T. Schwarz, Dachbegrünung: intensiv und extensiv; 25 Tabellen. 1999: Ulmer.
[4] Vialle, C., et al., Water quality monitoring and hydraulic evaluation of a household roof runoff harvesting system in France. Water resources management, 2012. 26(8): p. 2233-2241.
[5] Fletcher TD, Deletic A,Mitchell VG, Hatt BE, Reuse of urban runoff in Australia: a review of recent advances and remaining challenges. Journal of Environmental Quality, 2008. 37(5_Supplement): p. S-116-S- 127.
[6] Lye, D.J., Rooftop runoff as a source of contamination: A review. Science of the total environment, 2009. 407(21):p. 5429-5434
[7] Gonçalves, F., et al., Preliminary estimation of the rainfall chemical composition evaluated through the scavenging modeling for northeastern Amazonian region (Amapa State, Brazil). Environmental Pollution, 2003. 121(1): p. 63-73.
[8] Chang, M., M.W. McBroom, and R. Scott Beasley, Roofing as a source of nonpoint water pollution. Journal of environmental management, 2004. 73(4): p. 307-315.
[9] Ju Young Lee, Jung-Seok Yang, Mooyoung Han, Jaeyoung choi, Comparison of the microbiological and chemical characterization of harvested rainwater and reservoir water as alternative water resources. Science of the total environment, 2010. 408(4): p. 896-905.
[10] Kok, K., et al. Evaluation of green roof as green technology for urban storm water quantity and quality controls. InIOP Conference Series: Earth and Environmental Science. 2013. IOP Publishing.
[11] Smet, J. and P. Moriarty, Rooftop rainwater haverting, in DGIS policy supporting paper. 2001, IRC.
[12] Nicholson, N., et al. Rainwater harvesting for non-potable use in gardens: a comparison of runoff water quality from green vs. traditional roofs. in Proceedings of World Environmental and Water Resources Congress. 2009.
[13] Despins, C., K. Farahbakhsh, and C. Leidl, Assessment of rainwater quality from rainwater harvesting systems in Ontario, Canada. Aqua, 2009. 58(2): p. 117.
[14] Mendez, C.B, JB Klenzendrof,BR Afshar, MT Simmons, The effect of roofing material on the quality of harvested rainwater. water research, 2011. 45(5): p. 2049-2059.
[15] Sultana, N., Akib, S., Aqeel Ashraf, M., & Roseli Zainal Abidin, M.. Quality assessment of harvested rainwater from green roofs under tropical climate, Desalination and water treatment, (DOI: 10.1080/19443994.2015.1015307 (2015), 1-8.
[16] Farreny, R., Morales-Pinzon, T., Guisasola, A., Taya, C., Rieradevall, J., & Gabarrell, X. (2011). Roof selection for rainwater harvesting: quantity and quality assessments in Spain. Water research, 45(10), 3245-3254.
[17] Antrop, M., Landscape change and the urbanization process in Europe. Landscape and urban planning, 2004. 67(1): p. 9-26.
[18] Zhang, Q., et al., Quality and seasonal variation of rainwater harvested from concrete, asphalt, ceramic tile and green roofs in Chongqing, China. Journal of environmental management, 2014. 132: p. 178-187.
[19] Walsh, C.J., et al., The urban stream syndrome: current knowledge and the search for a cure. Journal of the North American Benthological Society, 2005. 24(3): p. 706-723.
[20] Akbari, H., M. Pomerantz, and H. Taha, Cool surfaces and shade trees to reduce energy use and improve air quality in urban areas. Solar energy, 2001. 70(3): p. 295-310
[21] Dunnett, N. and N. Kingsbury, Planting green roofs and living walls. Vol. 254. 2004: Timber Press Portland, OR.
[22] Vanuytrecht, E., et al., Runoff and vegetation stress of green roofs under different climate change scenarios. Landscape and Urban Planning, 2014. 122(2): p. 68-77.
[23] Berndtsson, J., L. Bengtsson, and K. Jinno, First flush effect from vegetated roofs during simulated rain events. 2008.
[24] Che-Ani, A.I, Shaari N, A. Sairi, M.F.M. Zain,Rainwater harvesting as an alternative water supply in the future. European Journal of Scientific Research, 2009. 34(1): p. 132-140.
[25] HO, M.S., et al., Policies and Incentives for Rainwater Harvesting in Malaysia.
[26] Mohammed, T.A., M.J.M.M. Noor, and A.H. Ghazali, Study on Potential Uses of Rainwater Harvesting in Urban Areas. University Putra Malaysia, 2006.
[27] Weng, C.N., et al. Incorporating Rainfall Harvesting Mechanisms into Building Designs for Water Resources Management: Examples from Malaysia. in Proceedings: Regional Conference on Urban Water and Sanitation in Southeast Asian Cities. 2006.
[28] Final Report Monitoring Program for MSMA Storm water Management Eco-Hydrology Project at Humid Tropic Centre Kualalumpur (DEC- 2012).
[29] Ministry of Housing and Local Government (MHLG) (2008). Guidelines for Installing a Rainwater Collection and Utilization System, 1999. Edited by: Ministry of Housing and Local Government. Unpublished article.
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