Site selection of emergency drinking water supply tanks in post-earthquake conditions, a case study of Shiraz

Document Type : Original Article

Authors

1 Assistant Professor, Department of Remote Sensing and GIS, Shiraz Branch, Islamic Azad University, Shiraz, Iran

2 M.Sc. in urban design, Islamic Azad University, South Tehran Branch, Tehran, Iran,

3 Master of Science in Water Engineering and Irrigation and Drainage, Shiraz Branch, Islamic Azad University, Shiraz, Iran

4 Assistant Prof., Department of Urbanism, Shiraz Branch, Islamic Azad University, Shiraz, Iran

Abstract

Due to the earthquake damage caused by the earthquake, one of the most important issues which is considered by the authorities after the earthquake is the water supply of citizens of a city. Unfortunately, in many cities of Iran, the management of the crisis, especially concerning drinking water, is not noticed in the aftermath of the various events that the metropolitan is considering. due to the great importance of this issue, in this study, suitable spaces to locate water emergency reservoirs in shiraz, based on criteria urban public open spaces (park and green space, open space Stadium, city Squares), Population density (near Population block whit high Population density), roads network (access to roads high way, main road, minor road), high-risk centers against Earthquake (wearing texture areas in the slopes areas Close to the fault, Historical points of the earthquake) Based on the hierarchical analysis Process (AHP) and decision support system, GIS, (using of transformation functions of a polygon to point, vector to raster, Euclidean distance, reclassify and the functions of a scalar subset to be evaluated. The results of this study suggest the locations with the scores of 7,8,9, that located mainly in destroyed texture areas, regions with high population density and urban main roads of Shiraz as the alternatives for locating of the city's emergency water Resviors.

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References

References (in Persian)
Ahad Nejad Roshti, M., Roustaei, S., Kameli far, M. (2015). Assessment of urban road network vulnerability against earthquake by crisis management approach Case study: region1/Tabriz. Scientific- Research Quarterly of Geographical Data (SEPEHR), 24(95), 37-50. doi: 10.22131/sepehr.2015.15550. http://www.sepehr.org/article_15550_2305.html?lang=en  [In Persian]
Ghanbari, A, Zolfi A. (2015) Assessment of urban vulnerability to earthquakes with emphasis on urban crisis management (case study of Kashmar) Journal of Spatial Analysis of Environmental Hazards.4. 74-59. http://jsaeh.khu.ac.ir/article-1-2460-en.html [In Persian]
Hajmalek, S., Forghni, M., Sadeghi, Z. (2016). Local- Spatial Distribution of Drinking Water Stations in Emergency Situations (Case Study: Region 2 of Kerman). Journal of Urban Social Geography, 3(1), 21-37. https://jusg.uk.ac.ir/article_1848.html?lang=en  [In Persian]
Hassani N., (2011). Seismic Vulnerability and Earthquake Control Strategies Knowledge of Prevention in Iranian Water Supply Systems. Disaster Prevention and Management Knowledge, 1(1). 39-63. https://www.magiran.com/paper/975641  [In Persian]
Hasani N, Mosalman Yazdi H. (2016). Determining effective criteria in locating emergency water tanks and calculating their weighted importance factors by Analytical Hierarchy Process (AHP). Disaster Prev. Manag. Know. 6 (3) :264-272. http://dpmk.ir/article-1-87-fa.html [In Persian]
Heydari, M. (2018). The vulnerability assessment of urban fabric in earthquake against (a case study: old fabric of Zanjan city). Geographical Engineering of Territory, 2(3), 101-115. http://www.jget.ir/article_69885.html?lang=en  [In Persian]
Hosseini, M. (2007). Tehran's problems in dealing with earthquakes from the perspective of urban planning and design and solutions to solve them. Journal of Seismology and Earthquake Engineering. 4 (9), 43 32. http://www.iiees.ac.ir/fa/wp-content/uploads/2009/02/win_85_4.pdf [In Persian]
Kazeminiya A, Meimandi parizi S. (2017). Zoning of Vulnerability Kerman City Buildings Against Earthquake using GIS. GEJ. 8 (3) :31-47. http://gej.issge.ir/article-1-234-en.html  [In Persian]
ParsAyand Ab Consulting Engineering Company. (2013). Basic studies of emergency water supply in zone 4 ABFA of ​​Tehran. [In Persian]
Poormohamadei, M., mosayebzadeh, A. (2008). The Vulnerability of Iranian Cities Against Earthquake and the Role of Neighborhood Participation in Providing Assistance for Them. Geography and Development Iranian Journal, 6(12), 117-144. doi: 10.22111/gdij.2008.1246. https://gdij.usb.ac.ir/article_1246.html?lang=en  [In Persian]
Roozbahani, A., Zahraei, B., Tabesh, M. (2013). Water Quantity and Quality Risk Assessment of Urban Water Supply Systems with Consideration of Uncertainties. Journal of Water and Wastewater; Ab va Fazila (in Persian), 24(4), 2-14. http://www.wwjournal.ir/article_45906.html?lang=en  [In Persian]
Shayan S, Zare G. (2014). Zoning of Earthquakes Occurred in Fars Province during 1900 to 2010 and Comparison it by Former Researches Findings. GeoRes. 29 (1) :89-104. http://georesearch.ir/article-1-418-fa.html  [In Persian]
Tavakoli, A, Shamshirband M, Hosseinpour A. (2011). Decreasing Trend of the Open Spaces in the Urban Development Process; Emphasis on Crisis Management, A Case Study of the Tehran Metropolis. Armanshahr Architecture & Urban Development, 3(5), 141-154. http://georesearch.ir/article-1-363-en.html [In Persian]
 
References (in English)
CDC., (2019). Emergency Water Supply Planning Guide for Hospitals and Healthcare Facilities. Atlanta: U.S. Department of Health and Human Services. Retrieved from CDC website: https://www.cdc.gov/healthywater/emergency/pdf/emergency-water-supply-planning-guide-2019-508.pdf.
FEMA, (2004). Food and water in emergency, U.S. Department of Homeland. Retrieved from FEMA website: https://www.fema.gov/pdf/library/f&web.pdf.
JFE, (2014). Earthquake-Resistant Water Tank, (Report No.19) JFE TECHINICAL REPORT. Retrieved from JFE website:  https://www.jfe-steel.co.jp/en/research/report/019/pdf/019-16.pdf
JICA, (2006). The study on water supply system resistant to earthquakes in Tehran municipality in the Islamic Republic of Iran (Report No.) JICA. Retrieved from Japan International Cooperation Agency website: https://openjicareport.jica.go.jp/pdf/11841665_01.pdf
JWRC, (2018). Resilient water supply and sanitation services, the case of Japan. Washington D.C. World Bank Group. Retrieved from World Bank Group website:https://thedocs.worldbank.org/en/doc/448651518134789157-0090022018/original/resilientwssjapancasestudywebdrmhubtokyo.pdf
RCAP, (2005). Emergency response planning guide for public drinking water systems. State of Connecticut Department of Public Health, Drinking Water Division. Retrieved from Rural Community Assistance Partnership (RCAP)  website:  https://www.rcac.org/wp-content/uploads/2014/12/ERP-drinking-water.pdf
Takada,S, Hassani,N., and Fukuda,K. (2001). A new proposal for simplified design of buried steel pipes crossing active faults. Earthquake Engineering and Structural Dynamics, 1243-1257, (8)30. https://doi.org/10.1002/eqe.62.

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