Teknik Not
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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
https://doi.org/10.18400/tjce.1310648

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
https://doi.org/10.18400/tjce.1310648

Öz

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.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Hidromekanik
Bölüm Teknik Not
Yazarlar

Darrien Yau Seng Mah

Norazlina Bateni 0000-0001-6015-4739

Frederik Josep Putuhena 0000-0001-6134-8260

Erken Görünüm Tarihi 7 Haziran 2023
Yayımlanma Tarihi 1 Temmuz 2023
Gönderilme Tarihi 7 Eylül 2022
Yayımlandığı Sayı Yıl 2023 Cilt: 34 Sayı: 4

Kaynak Göster

APA Mah, D. Y. S., Bateni, N., & Putuhena, F. J. (2023). Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate. Turkish Journal of Civil Engineering, 34(4), 133-142. https://doi.org/10.18400/tjce.1310648
AMA Mah DYS, Bateni N, Putuhena FJ. Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate. tjce. Temmuz 2023;34(4):133-142. doi:10.18400/tjce.1310648
Chicago Mah, Darrien Yau Seng, Norazlina Bateni, ve Frederik Josep Putuhena. “Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate”. Turkish Journal of Civil Engineering 34, sy. 4 (Temmuz 2023): 133-42. https://doi.org/10.18400/tjce.1310648.
EndNote Mah DYS, Bateni N, Putuhena FJ (01 Temmuz 2023) Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate. Turkish Journal of Civil Engineering 34 4 133–142.
IEEE D. Y. S. Mah, N. Bateni, ve F. J. Putuhena, “Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate”, tjce, c. 34, sy. 4, ss. 133–142, 2023, doi: 10.18400/tjce.1310648.
ISNAD Mah, Darrien Yau Seng vd. “Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate”. Turkish Journal of Civil Engineering 34/4 (Temmuz 2023), 133-142. https://doi.org/10.18400/tjce.1310648.
JAMA Mah DYS, Bateni N, Putuhena FJ. Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate. tjce. 2023;34:133–142.
MLA Mah, Darrien Yau Seng vd. “Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate”. Turkish Journal of Civil Engineering, c. 34, sy. 4, 2023, ss. 133-42, doi:10.18400/tjce.1310648.
Vancouver Mah DYS, Bateni N, Putuhena FJ. Case Study of Stormwater Control by Permeable Road in Commercial Centre under Equatorial Climate. tjce. 2023;34(4):133-42.