ISSN: 2222-6990
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By locating and examining existing literature on this topic's past research, this study aims to assess the importance of perviousness in reducing flash floods in Kuala Lumpur. The terms perviousness, pervious materials, pervious surface, and flash floods were used in the literature research and identification. The majority of articles are found on environmental and water management websites. Pervious surfaces come in two basic designs. Permeable pavement is the initial design including permeable interlocking concrete pavers and concrete grid pavers. A buffer garden is the second option. However, due to space constraints in urban locations, the permeable pavement has become the preferred method of reducing stormwater runoff. Using permeable pavement has a lot of benefits, but there are some drawbacks to consider. This constraint can be alleviated if all proper methods are used during installation and maintenance. Because the most significant constraint is a lack of competence in permeable pavement technology, technical research on how to manage the right approach to this technology should be produced, covering all important areas from management, planning, site selection, and pervious paving maintenance. This program should include participation from all levels of decision-makers and stakeholders, as well as civil society.
Abdullah, K. (2004). Kuala Lumpur: Re-engineering a flooded confluence. Fourteenth Professor Chin Fung Kee Memorial Lecture.
AECOM. (2017). Kuala Lumpur’s iconic River of Life project awarded Award of Excellence by
International Federation of Landscape Architects [Press release]. Retrieved from
https://aecom.com/my/kuala-lumpurs-iconic-river-life-project-awarded-award-excellence-international-federation-landscape-architects/
Babulal, V., & Ying, T. P. (2020). KL flash flood: 'Smart Tunnel mitigated situation'. New Straits Times. Retrieved from
https://www.nst.com.my/news/nation/2020/09/623896/kl-flash-flood-smart-tunnel-mitigated situation
Beecham, S., Lucke, T., Myers, B. (2010). Designing porous and permeable pavements for
stormwater harvesting and reuse. In Proceedings of the First European IAHR Congress, International Association for Hydro-Environment Engineering and Research. Edinburgh, U.K.
Borst, M., Rowe, A. A., Stander, E. K., and O’Connor, T. P., Surface Infiltration Rates of Permeable Surfaces: Six Month Update (2009; 2010), EPA/600/R-10/083, Office of Research and Development, National Risk Management Research Laboratory—Water Supply and Water Resources Division, Edison, NJ.
Davis, A. P. (2005). Green Engineering principles promote low impact development. Environmental Science and Technology, A-pages, 39(16), 338A-344A.
Department of Irrigation and Drainage. (2016). SMART. Retrieved from https://www.water.gov.my/index.php/pages/view/1262/?archives=1
Eisenberg, K., Lindow, C., & Smith, D., R. (2015). Permeable pavements. Permeable Pavements
Task Committee, American Society of Civil Engineers. Reston, VA.
Environmental Protection Agency. (n.d.). What is Green Infrastructure? Retrieved from
https://www.epa.gov/green-infrastructure/what-green-infrastructure#raingardens
Home & Garden Information Center HGIC. (2015). An Introduction to Bioswales. Clemson Cooperative Extension. Retrieved from https://hgic.clemson.edu/factsheet/an-introduction-to-bioswales/
Hussain, M. A., Yunos, M. Y., Utaberta, N., Ismail, N. A., Arifin, M. N. F., & Ismail, S. (2015). Assessment of the function of trees as a landscape elements: Case study at Melaka Waterfront. Jurnal Teknologi, 75(9), 39-45.
Hua, A. K., & Ping, O. W. (2018). The influence of land-use/land-cover changes on land surface temperature: a case study of Kuala Lumpur metropolitan city. European Journal of Remote Sensing, 51:1, 1049-1069.
https://doi.org/10.1080/22797254.2018.1542976
Lau, D., & Jia Ler, J. Y. (2021). Application of permeable pavements. Young Inventors Journal
Water Conservation.
Low Impact Development Center, Inc. (n.d.). Introduction to LID. Retrieved from
http://www.lid-stormwater.net/background.htm
Lombardo, J. (2020). How It Works: Porous Asphalt Pavements. For Construction Pros.Com. Retrieved from https://www.forconstructionpros.com/asphalt/article/21134321/how-it-works-porous-asphalt-pavements
Muraleedharan, T., & Kumar, S. (2000). Interlocking concrete block pavement: an environment-friendly paving system for special applications - an overview of global developments and CRRI's experience. Indian Roads Congress. New Delhi, India. 28 (5), 19-27.
National Academies of Sciences, Engineering, and Medicine. (2017) Guidance for usage of permeable pavement at airports. The National Academies Press. Washington, DC. https://doi.org/10.17226/24852
Natural Resources Conservation Service. (2005). Bioswales. Retrieved from
https://www.nrcs.usda.gov/Internet/FSE_DOCUMENTS/nrcs144p2_029251.pdf
National Association of City Transportation Officials (NACTO). (n.d.) Bioswales. Urban Street Design Guide. Retrieved from https://nacto.org/publication/urban-street-design-guide/street-design-elements/stormwater-management/bioswales/#:~:text=Bioswales
Perimbanayagam, K. (2021). Flash floods strike several parts of Kuala Lumpur, outskirts.
New Straits Times. Retrieved from
https://www.nst.com.my/news/nation/2021/04/682041/flash-floods-strike-several-parts-kuala-lumpur-outskirts#:~:text=KUALA%20LUMPUR%3A%20Flash%20floods%20struck,downpour%20that%20began%20at%204pm.&text=One%20of%20them%20showed%20vehicles,mall%2C%20located%20along%20Jalan%20Cheras
Safee, F. A., Yunos, M. Y., Ismail, S., Ariffin, M. N. F., & Isa, M. N. K. (2015). Establishing elements of a good city planning: an analysis of city planning theories. Jurnal Teknologi (Science and Engineering), 75(9), 101-105.
Samsuri, N., Abu Bakar, R., & Unjah, T. (2018). Flash flood impact in Kuala Lumpur – Approach
review and way forward. International Journal of the Malay World and Civilisation, 6 (1), 69 – 76.
Selbig, W. R., & Buer, N. (2018). Hydraulic, water quality, and temperature performance of three types of permeable pavement under high sediment loading conditions. USGS Scientific Investigations report 2018-5037.
Smith, D. R. (2015). Permeable interlocking concrete pavements: design, specifications,
construction, maintenance. 4th Edition. Interlocking Concrete Pavement Institute. Herndon, VA.
Smith, D. R. (2019). Permeable interlocking concrete pavements. Tech brief. Interlocking Concrete Pavement Institute (ICPI). Washington DC.
Stever, D. (2016). What is a rain garden, exactly? (3 types of rain gardens + 2 myths + 6 benefits). Retrieved from https://www.klausinggroup.com/blog/what-is-a-rain-garden-exactly-3-types-of-rain-gardens-2-myths-6-benefits
SUSDRAIN. (n.d.). Component: Pervious surfaces. Retrieved from
https://www.susdrain.org/delivering-suds/using-suds/suds-components/source-control/pervious-surfaces/pervious-surfaces-overview.html
SUSDRAIN. (n.d.). Component: Rain Garden. Retrieved from
https://www.susdrain.org/delivering-suds/using-suds/suds-components/infiltration/rain-gardens.html
The Groundwater Foundation. (n.d.). All about rain garden. Retrieved from https://www.groundwater.org/action/home/raingardens.html
U.S. Army Corps of Engineers. (2013) Army Low Impact Development Technical User Guide.
Retrieved from
https://www.usace.army.mil/Portals/2/docs/Sustainability/Hydrology_LID/Army_LID_Technical_User_Guide_January2013.pdf
Virginia Department of Environmental Quality. (2011) Virginia DEQ Stormwater Design
Specification Number 7. Retrieved from https://swbmpvwrrc.wp.prod.es.cloud.vt.edu/wp-content/uploads/2018/07/BMP_Spec_No_7_PERMEABLE_PAVEMENT.pdf
Wang, L., Lyons, J., Kanehl, P., & Bannerman, R. (2001). Impacts of urbanization on stream habitat and fish across multiple spatial scales. Environmental Management, 28(2), 255-266.
Wang, T., Harvey, J. T., Jones, D. (2010). A Framework for Life-Cycle Cost Analyses and
Environmental Life-Cycle Assessments for Fully Permeable Pavements. Technical Memorandum, Institute of Transportation Studies, Caltrans Document No.: CTSW-TM-09-249.03 UCPRC Document No.: UCPRC-TM-2010-05; Institute of Transportation Studies: Davis, CA, USA.
Williamson, R. B. (1993). Urban runoff databook: a manual for the preliminary evaluation of urban stormwater impacts on water quality. Water Quality Centre, Ecosystems Division, National Institute of Water and Atmospheric Research.
Whitesell, L. (n.d.). Rain Gardens. Retrieved from
https://environment.arlingtonva.us/stormwater-watersheds/stormwater-at-home/rain-gardens/
In-Text Citation: (Sahak et al., 2022)
To Cite this Article: Sahak, N. M., Yunos, M. Y. M., Maulan, S., & Ismail, N. A. (2022). Pervious Materials for the Flood Mitigation Process in Kuala Lumpur: A Review. International Journal of Academic Research in Business and Social Sciences, 12(8), 1077–1093.
Copyright: © 2022 The Author(s)
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