Explaining the Model of City Resilience to Earthquake, Regarding Natural Site of Cities (Case Study: Qazvin city)
الموضوعات :
Space Ontology International Journal
Javad Poursharifi
1
,
Manouchehr Tabibian
2
,
Mohammad Masoud
3
,
Shirin Toghyani
4
1 - Department of Urban Planning , Najafabad Branch, Islamic Azad University, Najafabad, Iran
2 - Urban Design and planning ,College of Fine Arts, University of Tehran, Tehran, Iran
3 - Department of Urban Planning , Najafabad Branch, Islamic Azad University, Najafabad, Iran
4 - Department of Urban Planning , Najafabad Branch, Islamic Azad University, Najafabad, Iran
تاريخ الإرسال : 04 الخميس , رمضان, 1440
تاريخ التأكيد : 08 الخميس , ذو القعدة, 1440
تاريخ الإصدار : 09 الإثنين , شوال, 1441
الکلمات المفتاحية:
Earthquake,
model,
Cities resilience,
Natural site,
Stressors,
ملخص المقالة :
Cities are among the most fragile life settlements due to their complex internal structure and the influence by different variables. Given the realities of these settlements, in devastating events such as earthquakes, these cities will be definitely more fragile; consequently, returning to normal life seems to be much longer and costly. Given the importance of the issue, in addition to variables taken into account by other researchers in terms of urban structure, this paper has a deeper look at the resilience of cities to earthquakes by considering the conditions of natural sites of cities. It also provides a model of resilience, discusses, and analyzes it in the city of Qazvin, which is located in a high-seismic region with a high relative risk zone. According to the preventive approach to resilience of cities, this program will significantly reduce damages caused by earthquake in the future. In this paper, the algorithm of this model is proposed based on the information obtained from the information analysis on resilience and earthquake, and with regard to the necessity of prioritizing the variables. In fact, this model places a high analytical priority on differentiation of different areas of cities based on natural conditions of their site, and it systematically addresses the issue from the outset. This causes the vulnerability of all parts of the city not to be considered the same under natural conditions and, according to the facts in the natural site, the effect of earthquake on the components of the city are observed, and the critical points are identified. The model output shows that vulnerability in Qazvin is so widespread that the strategy of action during disruption, and returning to initial state are ineffective, and it is better to focus on self-organization and increased pre-earthquake capacity.
المصادر:
Afaridi, S. Salehi, A. Seyyed Razzaghi, M. (2011). Evaluation of urban land use according to earthquake risk (Case study: Area 4, District 20). Journal of Environmental Research. Vol. 2. No. 3. Spring and summer. P. 77-86
Azizi, M., Akbari, R. (2008), "Urban considerations in assessing the vulnerability of cities to groundquakes", Journal of Fine Arts, No. 34, pp. 25-36
Basta Claudia & et al. (2007) Risk-maps informing land-use planning processes; A survey on the Netherlands and the United Kingdom recent developments, Journal of Hazardous Materials. Delft, The Netherlands : Elsevier B.V. All rights reserved,Vol. 145. pp. 241–249
Berberian, M. Ghoreishi, M. Arzhang Ravesh, B. (1992) "Investigating the Neo-tectonics, Seismotectonics, and the Risk of Earthquake-Fault in Great Qazvin and surrounding Area"; Geological Department of Iran; Report No. 61
Desouza , K. C. , Flanery , T. H. , (2013) , Desiging , planning , and managing resilient cities : A conceptual framework , Cities , 35, 89-99 .
Ferdowsi, S. Shokri Firoozjah, P. (2014) "Investigating the Resiliency of Urban Street Network, Case Study: Damghan", Scientific- promotive Quarterly Journal of Passive Defense, No. 3, pp. 62-55
Ghanavati, A., Sheikhi, M. (2010). The role urban planning in reducing groundquake risk in old fabrics. Case study: District 12 of Tehran. Journal of Natural Geography, No. 9, pp. 29-42
Habibi, K. et al. (2008) "Determining the Construction Factors Influencing Old Urban Fabric of Zanjan using FUZZY LOGIC and GIS", Fine Arts, No. 33, pp. 27-36
Haeri,s.m.;Kholafaei, m. ; (1994) ;"local site effects in the city of rasht during the manjil groundquake of june 20, 1990, iran", pr oc. of the second int. conf. on groundquake resistant construction and design; berlin.
Haji Nejad, A. Badali, A. Aghani, V. (2015) "Investigating Factors Affecting the Vulnerability of Earthquake in Urban Areas with Informal Settlements Using GIS, Case Study: Districts 1-5 of Tabriz ", Journal of Natural Environment Hazards, Vol. 4, No. 6, Winter 2013, Page 33 -56
Jafari, M. K, Kamalian, M. (1995) The Impact of Site Conditions on Seismicity; International Institute of Seismology and Earthquake Engineering.
Jafarzadeh, F. (1991); "Investigating the Effect of Alluvial Sediments of Tehran on Properties of a Predictable Potential Earthquake", Master's Thesis on Civil Engineering, University of Tehran
Jalali, T. (2011), Resilient Reconstruction after the earthquake of 2003 in Bam from Urban Design Point of View, Ph.D. thesis on Urbanism, Tehran, Shahid Beheshti University.
Lu , peiwen , Stead , Dominic , Stead , (2013), Understanding the Notion of Resilience in Spatial Planning : A Case Study of Rotterdam , The Netherlands , www.elsevier.com/locate/cities .
Moeinfar, A. , A., Regulations for the Design of Buildings against Earthquake (2005), Building and Housing Research Center, Journal No. 235
Mohammadpour et al (2016) "Analysis of vulnerability indicators in urban old fabrics with the approach of groundquake crisis management (Case study: Sirous neighborhood of Tehran), Human geography research, Vol. 48, No. 1, pp. 33-52
Poursharifi, J. (1997); "Seismic micro-zoning of Qazvin using wave propagation ", Master's thesis for Engineering Geology, Faculty of Basic Sciences, Tarbiat Modarres University
Rezaei M., (2010), Explanation of Urban Community Resilience in Reducing Natural Disasters (earthquake), Case Study: Tehran Metropolis, Ph.D. Thesis on Urbanism, Tehran, Tarbiat Modares University.
Shieh, A. Torabi, K. Habibi, K. (2010) "Investigating the vulnerability of cities against groundquakes using inverse hierarchical analysis method (IHWP) and GIS, Case study: District 6 of Tehran", 4th Congress of Geographers of Islamic World, April 13- 15, Zahedan, Iran
Tilio, L. et al.(2011) Resilient City and Seismic Risk: A Spatial Multi criteria Approach, ICCSA, Part I, Springer-Verlag, Berlin. Heidelberg, pp. 410-422
UCLG ,(2012) ,How To Make Cities More Resilient , A Handbook For Local Government Leaders , UNISDR , Geneva.
Zare, M. (1993) "An Introduction to Seismic Response of Site to Extreme Movement of Ground during Groundquakes"; Master's Seminar on Engineering Geology, Tarbiat Modarres University.