• Home
  • Measuring and Evaluating the Resilience of Urban Areas Against Urban Flooding (Case study: Tehran zone 4)

Share To

Article Url


Manuscript ID : JEST-2010-5194 (R3) Visit : 158 Page: 125 - 145

10.22034/jest.2021.56185.5194

Article Type: Original Research

Measuring and Evaluating the Resilience of Urban Areas Against Urban Flooding (Case study: Tehran zone 4)

Subject Areas : Sustainable Development

mostafa Nahid 1 , Mohammad Reza Zandmoghadam 2 , Zeynab Karkehabadi 3

1 - ‌Ph.D. of Geography and Urban Planning, science research Branch, Islamic Azad University of Semnan, Semnan, Iran.
2 - ‌Associate Professor, of Physiography Geography, Islamic Azad University of Semnan, Semnan, Iran. *(Corresponding Author)
3 - Assistant Professor of Geography and Urban Planning, Islamic Azad University of Semnan, Semnan, Iran.

Received: 2020-10-19 Accepted : 2021-02-26 Published : 2022-07-23

Keywords: SWMM Model, Vegatative swale, resilience, Urban Flood, zone 4 of Tehran Municipality, green roof,

Abstract :

Background and Objective: Due to the rapid growth of cities and increasing urbanization in recent decades, urban runoff and flood damage is one of the most important and fundamental issues in the field of urban management. The purpose of this study is in the first part; Quantitative simulation of floods caused by rainfall for region 4 of Tehran for the years 1349-1396 using the SWMM model. Material and Methodology: The simulation was performed for six-hour showers with 2, 5 and 10 year return periods for 12 hours. In this research, two projects of the best management strategies (BMP) under the garden and green roof climate scenario and a combination of both scenarios to control the maximum runoff in terms of quantity and finally their efficiency in reducing the total volume of runoff out of the basin, is studied. In the second part; Evaluation and analysis of resilience caused by urban floods in the 9 districts of Tehran's 4th district in four dimensions: socio-cultural, economic, managerial-institutional and physical. This section is applied in terms of purpose and in terms of survey and descriptive-analytical methods. The statistical population of the study is the total citizens of Region 4, of which the sample size was calculated using the Cochran's formula of 384 people. According to the obtained results, the third scenario (combining the first and second scenarios) will have the greatest impact on reducing the flow depth and flow rate in the entire surface water collection network.      Findings: Findings of the research in the field of resilience assessment and analysis showed that District 5, District 4 of Tehran is the most desirable district and District 1 and District 8, 4 are the most undesirable in terms of resilience against urban floods. Discussion and Conclusion: Districts 4 and 9 are ranked last in terms of resilience-cultural, economic, managerial-institutional), which indicates that this area is weak in some cases, which is to reduce the level of vulnerability. to be noticed.

References:


  1. Beck, N. G., Conley, G., Kanner, L., & Mathias, M. (2017). An urban runoff model designed to inform stormwater management decisions. Journal of environmental management, 193,257-269.
    2.


  1. Jiang, L. E. I., Chen, Y. A. N. G. B. O., & Wang, H. U. A. N. Y. U. (2015). Urban flood simulation based on the SWMM model. Proceedings of the International Association of Hydrological Sciences, 368, 186-191.
    2.
  2. Babaei, S., Ghazavi, R., & Erfanian, M. (2018). Urban flood simulation and prioritization of critical urban sub-catchments using SWMM model and PROMETHEE II approach. Physicsand Chemistry of the Earth, Parts A/B/C, 105, 3-11.
    3.
  3. Shahbazi, A. (2013). Urban runoff management to reduce risks using SWMM model: Case study: Mahdasht town (Doctoral dissertation, MSc thesis).
    4.
  4. Li, Q., Wang, F., Yu, Y., Huang, Z., Li, M., & Guan, Y. (2019). Comprehensive performance evaluation of LID practices for the sponge city construction: a case study in Guangxi, China. Journal of environmental management, 231, 10-20.
    5.
  5. Cai, Y. P., Huang, G. H., Tan, Q., & Chen, B. (2011). Identification of optimal strategies for improving eco-resilience to floods in ecologically vulnerable regions of a wetland. Ecological Modelling, 222(2), 360-369.
    6.
  6. Mozaffari, J., & KOBARFARD, M. (2017). nvestigation of qualitative and quantit ative management at urban flood with EPA SWMM model; Case study District 22 of Tehran.7(27).
    7.
  7. León, J., & March, A. (2014). Urban morphology as a tool for supporting tsunami rapid resilience: A case study of Talcahuano, Chile. Habitat International, 43, 250-262.
    8.
  8. Choi K-S and Ball J, (2002). Parameter estimation for urban runoff modeling. Urban Water (4): 31-41,
    9.
  9. Dongquan, Z., Jining, C., Haozheng, W., Qingyuan, T., Shangbing, C., & Zheng, S. (2009). GIS-based urban rainfall-runoff modeling using an automatic catchment-discretization approach: a case study in Macau. Environmental Earth Sciences, 59(2), 465-472.
    10.
  10. Lin, J.-L., G.N. Kiladis, B.E. Mapes, K.M. Weickmann, K.R. Sperber, W. Lin, M.C. Wheeler, S.D. Schubert, A. Del Genio, L.J. Donner, S. Emori, J.-F. Gueremy, F. Hourdin, P.J. Rasch, E. Roeckner, and J.F. Scinocca, 2006: Tropical intraseasonal variability in 14 IPCC AR4 climate models. Part 1: Convective signals. J. Climate, 19, 2665-2690, doi:10.1175/1CL13735.1.
    11.
  11. Zoppou, C. 2001. Review of urban storm wa-ter models. Environmental Modelling & Software16, 195–231 pp.
    12.
  12. Phillips, B.C., Yu, S., Thompson, G.R. and Silva, N. 2005. ID and 2D Modelling of urban drain-age systems using XP-SWMM and TUFLOW. 10th International Conference on Urban Drainage, Copenha-gen, Denmark, 21-26 August, 8 pp.
    13.
  13. Ramezanzadeh Lesboui, Mehdi and Roardeh, Hemmatollah and Yousefi, Yadollah and Safari, Behnam, 2015, Analysis of Factors Affecting Farmers' Resilience to Drought Case Study: Farmers in Rural Cities (Darab, Larestan, Estahban), Third Regional Conference Climate change and global warming, Zanjan » https://civilica.com/doc/732059. (In Persian)
    14.
  14. Rafieian, Mojtaba, Rezaei, Mohammad Reza, Asgari, Ali, Parhizkar, Akbar, Shayan, Siavash (2011). conceptual explanation of resilience and creation of its indicator in the community base disaster management spatial planning (modares human sciences) winter, volume 15, number 4 (72); Page(s) 19 To 41. (In Persian)
    15.
  15. Shayan, Molisen, Paydar, Abuzar, Bazvand, Sajjad. (2017). impact analysis of upgrading the indicators of resilience over sustainability of rural settlements against floods (item: rural areas of zarrindasht county) environmental hazards management jurnal, Summer, Volume 4, Number 2; Page(s) 103 To 121. (In Persian)
    16.
  16. Rezaei, Mohammad Reza (2013). valuating the economic and institutional resilience of urban communities to natural disasters using promethe technique case study; tehran districts. emergency management spring-suminer, volume 2, number 3; Page(s) 25 To 36. (In Persian)
    17.
  17. Badri, Seyed Ali; Ramezanzadeh Lesboli, Mehdi; Askari, Ali; Ghadiri Masoom, Mojtaba; Salmani, Mohammad (2013) The role of local management in improving resilience to natural disasters with emphasis on floodsCase study: Cheshmeh Kileh basin in Tonekabon Country and Sardabrood basin in Kelardasht Country. Journal of Crisis Management Research, 2, (3), 39-50. (In Persian)
    18.
  18. Ghazanfarpour, Sedaghat Kish, Soleimani Domaneh and Sabahi Garaghani. (1398). On the Evaluation of the Reaction of Urban Managers Facing Flood as an Environmental Hazard with Emphasis on Resiliency (Case Study: Jiroft City). Geography and Sustainability of Environment 30(2019) 107-127. (In Persian)
    19.
  19. Moazami, Baharel, Rahimi, Mahmoud. (2016). Assessing and formulating resilience strategies against crisis in the old urban context (Case study: Faizabad neighborhood of Kermanshah). Geography and Environmental Studies, 5 (18), 23-34. (In Persian)
    20.
  20. Kavusi, Ismail. (2010). the role of strategic planning in human resource development (hrd), iranian journal of public policy in management fall, volume I, number 2; Page(s) 147 To 180. (In Persian)
    21.
  21. Memarzadeh, Gholamreza, Sarfarazi, Mehrzad. (1389). Investigating the steps of the crisis management process in the organization, Crisis Management Research Journal, Strategic Research Center, Vice President for Cultural and Social Research, No. 51,9-76. (In Persian)
    22.

 

_||_

  1. Beck, N. G., Conley, G., Kanner, L., & Mathias, M. (2017). An urban runoff model designed to inform stormwater management decisions. Journal of environmental management, 193,257-269.
    2.


  1. Jiang, L. E. I., Chen, Y. A. N. G. B. O., & Wang, H. U. A. N. Y. U. (2015). Urban flood simulation based on the SWMM model. Proceedings of the International Association of Hydrological Sciences, 368, 186-191.
    2.
  2. Babaei, S., Ghazavi, R., & Erfanian, M. (2018). Urban flood simulation and prioritization of critical urban sub-catchments using SWMM model and PROMETHEE II approach. Physicsand Chemistry of the Earth, Parts A/B/C, 105, 3-11.
    3.
  3. Shahbazi, A. (2013). Urban runoff management to reduce risks using SWMM model: Case study: Mahdasht town (Doctoral dissertation, MSc thesis).
    4.
  4. Li, Q., Wang, F., Yu, Y., Huang, Z., Li, M., & Guan, Y. (2019). Comprehensive performance evaluation of LID practices for the sponge city construction: a case study in Guangxi, China. Journal of environmental management, 231, 10-20.
    5.
  5. Cai, Y. P., Huang, G. H., Tan, Q., & Chen, B. (2011). Identification of optimal strategies for improving eco-resilience to floods in ecologically vulnerable regions of a wetland. Ecological Modelling, 222(2), 360-369.
    6.
  6. Mozaffari, J., & KOBARFARD, M. (2017). nvestigation of qualitative and quantit ative management at urban flood with EPA SWMM model; Case study District 22 of Tehran.7(27).
    7.
  7. León, J., & March, A. (2014). Urban morphology as a tool for supporting tsunami rapid resilience: A case study of Talcahuano, Chile. Habitat International, 43, 250-262.
    8.
  8. Choi K-S and Ball J, (2002). Parameter estimation for urban runoff modeling. Urban Water (4): 31-41,
    9.
  9. Dongquan, Z., Jining, C., Haozheng, W., Qingyuan, T., Shangbing, C., & Zheng, S. (2009). GIS-based urban rainfall-runoff modeling using an automatic catchment-discretization approach: a case study in Macau. Environmental Earth Sciences, 59(2), 465-472.
    10.
  10. Lin, J.-L., G.N. Kiladis, B.E. Mapes, K.M. Weickmann, K.R. Sperber, W. Lin, M.C. Wheeler, S.D. Schubert, A. Del Genio, L.J. Donner, S. Emori, J.-F. Gueremy, F. Hourdin, P.J. Rasch, E. Roeckner, and J.F. Scinocca, 2006: Tropical intraseasonal variability in 14 IPCC AR4 climate models. Part 1: Convective signals. J. Climate, 19, 2665-2690, doi:10.1175/1CL13735.1.
    11.
  11. Zoppou, C. 2001. Review of urban storm wa-ter models. Environmental Modelling & Software16, 195–231 pp.
    12.
  12. Phillips, B.C., Yu, S., Thompson, G.R. and Silva, N. 2005. ID and 2D Modelling of urban drain-age systems using XP-SWMM and TUFLOW. 10th International Conference on Urban Drainage, Copenha-gen, Denmark, 21-26 August, 8 pp.
    13.
  13. Ramezanzadeh Lesboui, Mehdi and Roardeh, Hemmatollah and Yousefi, Yadollah and Safari, Behnam, 2015, Analysis of Factors Affecting Farmers' Resilience to Drought Case Study: Farmers in Rural Cities (Darab, Larestan, Estahban), Third Regional Conference Climate change and global warming, Zanjan » https://civilica.com/doc/732059. (In Persian)
    14.
  14. Rafieian, Mojtaba, Rezaei, Mohammad Reza, Asgari, Ali, Parhizkar, Akbar, Shayan, Siavash (2011). conceptual explanation of resilience and creation of its indicator in the community base disaster management spatial planning (modares human sciences) winter, volume 15, number 4 (72); Page(s) 19 To 41. (In Persian)
    15.
  15. Shayan, Molisen, Paydar, Abuzar, Bazvand, Sajjad. (2017). impact analysis of upgrading the indicators of resilience over sustainability of rural settlements against floods (item: rural areas of zarrindasht county) environmental hazards management jurnal, Summer, Volume 4, Number 2; Page(s) 103 To 121. (In Persian)
    16.
  16. Rezaei, Mohammad Reza (2013). valuating the economic and institutional resilience of urban communities to natural disasters using promethe technique case study; tehran districts. emergency management spring-suminer, volume 2, number 3; Page(s) 25 To 36. (In Persian)
    17.
  17. Badri, Seyed Ali; Ramezanzadeh Lesboli, Mehdi; Askari, Ali; Ghadiri Masoom, Mojtaba; Salmani, Mohammad (2013) The role of local management in improving resilience to natural disasters with emphasis on floodsCase study: Cheshmeh Kileh basin in Tonekabon Country and Sardabrood basin in Kelardasht Country. Journal of Crisis Management Research, 2, (3), 39-50. (In Persian)
    18.
  18. Ghazanfarpour, Sedaghat Kish, Soleimani Domaneh and Sabahi Garaghani. (1398). On the Evaluation of the Reaction of Urban Managers Facing Flood as an Environmental Hazard with Emphasis on Resiliency (Case Study: Jiroft City). Geography and Sustainability of Environment 30(2019) 107-127. (In Persian)
    19.
  19. Moazami, Baharel, Rahimi, Mahmoud. (2016). Assessing and formulating resilience strategies against crisis in the old urban context (Case study: Faizabad neighborhood of Kermanshah). Geography and Environmental Studies, 5 (18), 23-34. (In Persian)
    20.
  20. Kavusi, Ismail. (2010). the role of strategic planning in human resource development (hrd), iranian journal of public policy in management fall, volume I, number 2; Page(s) 147 To 180. (In Persian)
    21.
  21. Memarzadeh, Gholamreza, Sarfarazi, Mehrzad. (1389). Investigating the steps of the crisis management process in the organization, Crisis Management Research Journal, Strategic Research Center, Vice President for Cultural and Social Research, No. 51,9-76. (In Persian)
    22.

 

Sanad

Sanad is a platform for managing Azad University publications

Links

Related Centers

Technical Support

Official pages

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]