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جستجوی مقالات
شنبه 20 تیر 1405
پژوهش های جغرافیای انسانی
، جلد ۵۰، شماره ۴، صفحات ۹۷۷-۹۹۱
عنوان فارسی
ارزیابی تابآوری زیرساختهای شبکۀ آب شهری در برابر زلزله (مطالعۀ موردی: منطقۀ ۲ تهران)
چکیده فارسی مقاله
توسعۀ شهرها در نواحیای با خطرپذیری بالا و وقوع زلزلههای مخرب در سالهای اخیر، نشاندهنده ضرورت برنامهریزی پیش از وقوع بحران است. برایناساس تابآوری زیرساختهای شهری، بهویژه سیستم آبرسانی اهمیت بسیاری در مدیریت بحران زلزله دارد. پژوهش کاربردی و توصیفی-تحلیلی حاضر، با هدف ارزیابی میزان آسیبپذیری زیرساختهای خطوط آبرسانی در برابر زلزله، افزایش تابآوری این سیستم در منطقۀ 2 شهر تهران و ارائۀ راهکارهای کاهش آسیبپذیری انجام شده است. با توجه به خطرپذیری بالای این شهر در برابر زلزله و موقعیت عبور خطوط لولۀ اصلی از منطقۀ 2، این منطقه بهعنوان نمونۀ موردی برای بررسی خطوط آبرسانی انتخاب شد. با استفاده از روشهای تحلیل احتمال حرکت لرزهای، پارامترهای حرکت لرزهای براساس گسل شمال تهران بهدست آمد. سپس با توجه به شاخص حداقل آب مورد نیاز جامعه، مقولۀ آبرسانی اضطراری مدنظر قرار گرفت و راهکارهای افزایش تابآوری ارائه شد. با توجه به نتایج پژوهش، کمینۀ نرخ تعمیرات بر کیلومتر 06/0 و بیشینۀ آن 44/0 است؛ بنابراین، احتمال شکست خطوط و نشت آنها در محلههای شمالی منطقۀ 2 در رتبههای زیاد و خیلی زیاد و در محلههای جنوبی در رتبه متوسط به پایین قرار دارد. براساس نتایج تحلیل خسارت، در 43 نقطه شکست کامل خطوط و در 175 نقطه نشت قابلمشاهده است. در پایان، با درنظرگرفتن آسیبپذیری خطوط، خطر لرزهخیزی و شاخصهای آبرسانی اضطراری، راهکارهای افزایش تابآوری ارائه شده است.
کلیدواژههای فارسی مقاله
آسیبپذیری، تابآوری، زلزله، زیرساخت آب، منطقۀ 2 شهر تهران،
عنوان انگلیسی
Resilience Analysis of Urban Water Infrastructures In a Potential Earthquake (Case Study: Region 2 of Tehran Municipality)
چکیده انگلیسی مقاله
Extended AbstractIn recent years several disastrous earthquakes have occurred around the world which highlights the risks of infrastructure damage in urban areas. Because of improper planning urban communities are vulnerable to extreme events such as earthquakes which could reduce their ability to withstand and recover their function from emergencies and natural disasters. Recent damages caused by natural disasters have attracted researchers’ attention to urban resilience concept especially on the objective of achieving disaster- resilient infrastructures (Chang, McDaniels, Fox, Dhariwal, & Longstaff, 2014). The purpose of this article is to promote a practical approach to evaluate the water infrastructure system vulnerability toward the seismic resilient city. The methodological approach of this article is practical and focuses on water infrastructure system in district two of Tehran city, Iran, in the context of the probable earthquake. In this study, most probable earthquake scenarios were chosen to evaluate the social and built environment impacts of the potential earthquake on water pipes. Furthermore, geographic information system (GIS) technology was used to analyze the existing water distribution system and visualizing its vulnerability in high-risk areas of Tehran. In this research, seismic features like PGA, PGV, and Mw were estimated by the probabilistic analysis method. In this study, the probability of the most potential earthquake and the probability of water system pipeline failure for each 200 to 200-meter parcel of the study area were calculated. Furthermore, the system failure rate was calculated and analyzed to understand the community vulnerability. Classification of the study area was completed based on system vulnerability. The results of this article indicate that water infrastructure has significantly influenced the community resilience. Based on system repair rate and pipe damages, resilience classification was completed. Finally, we offer suggestions to increase urban resilience based on urban vulnerability.MethodologyThis article’s methodological approach is practical and concentrates on potential disruptions to water infrastructure services in the case study area. In this research, quantitative methods and analytical techniques were used to analyze and examine the impact of proposed earthquake scenario on water infrastructure by utilizing a probabilistic risk analysis and HAZUS-MH and SR methods. For this research, a solid case study selection was necessary. The process of selecting case study involved a number of steps, which seismic risk, fault features, and main city water pipe locations played a key role in these steps. We focused on district two of Tehran municipality where active faults and main water pipes cross the area. First, we acquired infrastructures, seismic and urban geographic data for the entire region and prepared a GIS database for our study area. Once maps of seismic classification, water infrastructure, and fault locations were generated, these layers were overlaid in GIS software. Second, we used probabilistic analysis method to specify the seismic features of the study area. Moreover, water pipes were divided into separate segments to evaluate each parts vulnerability. In this study, the model simulates repair rate per length as the key indicator of system resilience. Results and DiscussionIn this article, we developed a map of peak ground velocity for the potential earthquake scenario in the region which shown in map 4. Probability analysis indicates that peak ground velocity is much higher in northern parts of the study area. We calculated pipeline damage based on repair rate per length and PGV which is shown in map 4. To estimate repair rate and damage, equations number 1 to number 3 were used. Results indicate that total damage points in water pipelines will be 219 in the case of a possible earthquake. We assumed 80% of damages would be leak points while 20% of damages will be broken points in water distribution system for wave-passage. Our assumptions were based on Fema(1999), Hazus methodology. Results indicate 175 leak points and 43 full damage points in the system which means severe potable water service disruptions can be expected in most urban water infrastructure parts in the immediate aftermath. Map 5 shows the damage rate in the case study area. Based on damage probability analysis and equation number 3 we classified the case study to illustrate the urban and system resilience in case of the probable earthquake which is shown in map 6.Probability and damage results for the case study area show the likely severity of water disruptions system in the case study especially northern parts of the region. Repair rate in the southern area was less than the northern and western parts of the region. Conclusion This study has provided a practical method based on international standards for evaluating water infrastructure resilience, emphasizing the functional features of the system which could be impacted by the earthquake. For the potential proposed earthquake scenario, due to the break and leak rates, severe water service disruptions could be expected in some parts of water infrastructure sectors in the immediate aftermath.Emergency restoration efforts are essential to increase urban resilience which should be done based on schedule 2. This research gives recommendations for consideration of construction of the emergency water supply bases, use of underground water and water pipe retrofitting plans. Seismic-resilient suggestions based on this study includes not only changing the water supply system from brittle to ductile type but also providing emergency water to the citizens. Based on the median rates of repairs per km of pipeline, system vulnerability, and population density in urban areas, emergency water supply locations were suggested to increase urban disaster resilience, so that anybody in the case study area can access water within a standard distance of one to two kilometer after the earthquake. Map7 shows the proposed locations of emergency water supply bases in case study area.Based on this article''s results, we suggest prioritizing northern part of the study area for urban resilience improvement plans.Map of existing reservoir, emergency water bases, and wells should be available for all community members to enhance urban and community resilience.Overall, this study has demonstrated a practical approach that could be applied by urban planners and disaster managers to reduce risks and vulnerability of water infrastructures toward increasing urban and community resilience.
کلیدواژههای انگلیسی مقاله
نویسندگان مقاله
سیدمحسن علوی |
دانشجوی دکتری شهرسازی، دانشگاه هنر اصفهان
محمد مسعود |
دانشیار گروه شهرسازی، دانشگاه هنر اصفهان
اسدالله کریمی |
استادیار گروه مهندسی نقشهبرداری و جی.آی.اس، دانشگاه اصفهان
نشانی اینترنتی
https://jhgr.ut.ac.ir/article_61935_eb90c75d70940ea3c73620558539d702.pdf
فایل مقاله
اشکال در دسترسی به فایل - ./files/site1/rds_journals/1373/article-1373-1239892.pdf
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