Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate
Yıl 2023,
Cilt: 34 Sayı: 4, 133 - 142, 01.07.2023
Darrien Yau Seng Mah
,
Norazlina Bateni
,
Frederik Josep Putuhena
Öz
This paper describes the investigation into stormwater control measures of a 3,425 m2 commercial centre with 61% of the total areas which were tarred surfaces. Targeting these surfaces, permeable roads of various surface areas from 10 to 34% of the total areas were modelled using Storm Water Management Model version 5.0. Testing the permeable roads for very-short duration storms ranging from 5 to 15 minutes, the study found that the catchment area contributing water for detention purposes played a major role in stormwater control. Other than that, the orifice outlet attached to the storage facility was dominant in determining the flow than the storage depth.
Kaynakça
- Singaporean Public Utilities Board, Technical Guide for On-Site Detention Tank Systems, National Water Agency, Singapore, 2010.
- Malaysian Department of Irrigation and Drainage, Urban Stormwater Management Manual for Malaysia. Ministry of Environment and Water, Kuala Lumpur, 2012.
- Ngu, J.O.K., Mah, D.Y.S., Taib, S.N.L., Mannan, M.A., Chai, S.L., Evaluating the Efficiency of Household Stormwater Detention System. ASEAN Engineering Journal, 10(2): 105-114, 2020.
- Mah, D.Y.S., Ngu, J.O.K., Caroline, P.D., Malek, M.A., Catchment Size to Effective Tank Volume Relationships for Individual Lot Stormwater Detention System in Malaysian Detached House. International Journal of Advanced Trends in Computer Science and Engineering, 9(5): 8358-8363, 2020. doi:10.30534/ijatcse/2020/209952020.
- Terêncio, D.P.S., Sanches Fernandes, L.F., Cortes, R.M.V., Moura, J.P., Pacheco, F.A.L., Flood Risk Attenuation in Critical Zones of Continental Portugal using Sustainable Detention Basins. Science of the Total Environment, 721: 137727, 2020. doi:10.1016/j.scitotenv.2020.137727.
- Loh, S.L., Mah, D.Y.S., Potential of Roundabout as a Stormwater Detention Basin in Equatorial Region. International Journal of Hydrology Science and Technology, 10(1): 104989, 2020. doi:10.1504/IJHST.2020.104989.
- Fiori, A., Volpi, E., On the Effectiveness of LID Infrastructures for the Attenuation of Urban Flooding at the Catchment Scale. Water Resources Research, 56(5): e2020WR027121, 2020. doi:10.1029/2020WR027121.
- Abd-Elhamid, H.F., Zeleňáková, M., Vranayová, Z., Fathy, I., Evaluating the Impact of Urban Growth on the Design of Storm Water Drainage Systems. Water, 12(6):1572, 2020. doi:10.3390/w12061572.
- Liow, C.V., Mah, D.Y.S., Mohd Arif Zainol, M.R.R., Modelling of StormPav Green Pavement: Inlet and Outlet of Integrated Permeable Road and Stormwater Detention System. International Journal of Civil Engineering and Technology, 10(2) :966-976, 2019.
- Bateni, N., Lai, S.H., Putuhena, F.J., Mah, D.Y.S., Mannan, M.A., Chin, R.J., Hydrological Impact Assessment on Permeable Road Pavement with Subsurface Precast Micro-Detention Pond. Water and Environment Journal, 34(S1):960-969, 2020. doi:10.1111/wej.12613.
- Nowogoński, I., Low Impact Development Modeling to Manage Urban Stormwater Runoff: Case Study of Gorzów Wielkopolski. Journal of Environmental Engineering and Landscape Management, 28(3):105-115, 2020.
- Mah, D.Y.S., Ngu, J.O.K., Taib, S.N.L., Mannan, M.A., Modelling of Compartmentalized Household Stormwater Detention System Using SWMM5. International Journal of Emerging Trends in Engineering Research, 8(2):344-349, 2020. doi :10.30534/ijeter/2020/17822020.
- Zhang, K., Chui, T.F.M., Design Measures to Mitigate the Impact of Shallow Groundwater on Hydrologic Performance of Permeable Pavements. Hydrological Processes, 34(25):5146-5166, 2020. doi :10.1002/hyp.13935.
- Huber, W.C., Hydrologic Modeling Processes of the EPA Storm Water Management Model (SWMM). World Water & Environmental Resources CVongress, 1-10, 2003.
- Huber, W.C., Rosmman, L.A., Dickinson, R.E., EPA Storm Water Management Model, SWMM5. Watersheds Models, 339-359, 2005.
- Swathi, V., Raju, K.S., Varma, M.R .R., Addition of Overland Runoff and Flow Routing Methods to SWMM – Model Application to Hyderabad, India. Environmental Monitoring and Assessment, 192:643, 2020. doi :10.1007/s10661-020-08490-0.
- Zakizadeh, F., Moghaddam Nia, A., Salajegheh, A., Sańudo-Fontaneda, L.A., Alamdari, N., Efficient Urban Runoff Quantity and Quantity Modelling Using SWMM Model and Field Data in an Urban Watershed of Tehran Metropolis. Sustainability, 14(3):1086, 2022.
Yıl 2023,
Cilt: 34 Sayı: 4, 133 - 142, 01.07.2023
Darrien Yau Seng Mah
,
Norazlina Bateni
,
Frederik Josep Putuhena
Kaynakça
- Singaporean Public Utilities Board, Technical Guide for On-Site Detention Tank Systems, National Water Agency, Singapore, 2010.
- Malaysian Department of Irrigation and Drainage, Urban Stormwater Management Manual for Malaysia. Ministry of Environment and Water, Kuala Lumpur, 2012.
- Ngu, J.O.K., Mah, D.Y.S., Taib, S.N.L., Mannan, M.A., Chai, S.L., Evaluating the Efficiency of Household Stormwater Detention System. ASEAN Engineering Journal, 10(2): 105-114, 2020.
- Mah, D.Y.S., Ngu, J.O.K., Caroline, P.D., Malek, M.A., Catchment Size to Effective Tank Volume Relationships for Individual Lot Stormwater Detention System in Malaysian Detached House. International Journal of Advanced Trends in Computer Science and Engineering, 9(5): 8358-8363, 2020. doi:10.30534/ijatcse/2020/209952020.
- Terêncio, D.P.S., Sanches Fernandes, L.F., Cortes, R.M.V., Moura, J.P., Pacheco, F.A.L., Flood Risk Attenuation in Critical Zones of Continental Portugal using Sustainable Detention Basins. Science of the Total Environment, 721: 137727, 2020. doi:10.1016/j.scitotenv.2020.137727.
- Loh, S.L., Mah, D.Y.S., Potential of Roundabout as a Stormwater Detention Basin in Equatorial Region. International Journal of Hydrology Science and Technology, 10(1): 104989, 2020. doi:10.1504/IJHST.2020.104989.
- Fiori, A., Volpi, E., On the Effectiveness of LID Infrastructures for the Attenuation of Urban Flooding at the Catchment Scale. Water Resources Research, 56(5): e2020WR027121, 2020. doi:10.1029/2020WR027121.
- Abd-Elhamid, H.F., Zeleňáková, M., Vranayová, Z., Fathy, I., Evaluating the Impact of Urban Growth on the Design of Storm Water Drainage Systems. Water, 12(6):1572, 2020. doi:10.3390/w12061572.
- Liow, C.V., Mah, D.Y.S., Mohd Arif Zainol, M.R.R., Modelling of StormPav Green Pavement: Inlet and Outlet of Integrated Permeable Road and Stormwater Detention System. International Journal of Civil Engineering and Technology, 10(2) :966-976, 2019.
- Bateni, N., Lai, S.H., Putuhena, F.J., Mah, D.Y.S., Mannan, M.A., Chin, R.J., Hydrological Impact Assessment on Permeable Road Pavement with Subsurface Precast Micro-Detention Pond. Water and Environment Journal, 34(S1):960-969, 2020. doi:10.1111/wej.12613.
- Nowogoński, I., Low Impact Development Modeling to Manage Urban Stormwater Runoff: Case Study of Gorzów Wielkopolski. Journal of Environmental Engineering and Landscape Management, 28(3):105-115, 2020.
- Mah, D.Y.S., Ngu, J.O.K., Taib, S.N.L., Mannan, M.A., Modelling of Compartmentalized Household Stormwater Detention System Using SWMM5. International Journal of Emerging Trends in Engineering Research, 8(2):344-349, 2020. doi :10.30534/ijeter/2020/17822020.
- Zhang, K., Chui, T.F.M., Design Measures to Mitigate the Impact of Shallow Groundwater on Hydrologic Performance of Permeable Pavements. Hydrological Processes, 34(25):5146-5166, 2020. doi :10.1002/hyp.13935.
- Huber, W.C., Hydrologic Modeling Processes of the EPA Storm Water Management Model (SWMM). World Water & Environmental Resources CVongress, 1-10, 2003.
- Huber, W.C., Rosmman, L.A., Dickinson, R.E., EPA Storm Water Management Model, SWMM5. Watersheds Models, 339-359, 2005.
- Swathi, V., Raju, K.S., Varma, M.R .R., Addition of Overland Runoff and Flow Routing Methods to SWMM – Model Application to Hyderabad, India. Environmental Monitoring and Assessment, 192:643, 2020. doi :10.1007/s10661-020-08490-0.
- Zakizadeh, F., Moghaddam Nia, A., Salajegheh, A., Sańudo-Fontaneda, L.A., Alamdari, N., Efficient Urban Runoff Quantity and Quantity Modelling Using SWMM Model and Field Data in an Urban Watershed of Tehran Metropolis. Sustainability, 14(3):1086, 2022.