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Spatial Analysis of noise pollution in Urban Development Plans (A case study about City Highways, Tehran). Dr Alireza Gharagozlou Dr. Parvin Nasiri Nasim Rahmati Mojgan Hejrani Diarjan 2010. Noise Pollution. Noise pollution is the fundamental problems of our world
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Spatial Analysis of noise pollution in Urban Development Plans (A case study about City Highways, Tehran) Dr AlirezaGharagozlou Dr. ParvinNasiri NasimRahmati MojganHejraniDiarjan 2010
Noise Pollution • Noise pollution is the fundamental problems of our world • Most cities are all sources of noise pollution • Several factors are causing noise pollution from activities including industrial, commercial, flight, road traffic, construction, moving trains and ... while operating in country, most pollution sources are cars and motorcycles • The most common sources of noise pollution due to highway traffic and increase high-speed vehicles
Standards table about Noise Quantity in Different Environment in Iran
project • Results of this study: • Determine the exact amount of the noise pollution to surrounding areas of highway has exceeded its pollution been identified • GIS capabilities while presenting relevant analysis and about information collected and offer planning suggestions in the area
Situation of Study Area • Sadr Highway is located in northern Tehran that stretches from East to West • During this highway about 6 km and its width is 40 m • Sadr Highway From north and south between the two regions (DISTRICT1 and DISTRICT3) is located • A regional population in 2009 reached about 450,000 people
Geo-referenced data and satellite images were prepared for the process under study and analysis include: • 1- Digital map of Tehran separated regions and population and Digital maps of studied districts of Tehran 1:10,000 produced by Tehran Municipality • 2-Satellite image of Tehran (the Sadr Highway) • 3-Digital Map at 1:25000 scale production of National Cartographic Center of Iran • 4- GPS control points (Filed measurement)
Measurement • Review and determine the existing user of highway and measure noise pollution from traffic (equivalent sound level (db)A and noise levels, Lmin, Lmax) using the sound meter B & K model 2236 • Many visits the highway along the way and identify areas and marginal layer of the path density areas (residential, educational, medical and ...) • At the stations into some area and streets leading to it different distances 20, 40 and 1 meters noise were determined • Condition of noise in each station using the sound meter and GPS device location maps and laser meter were determined • code, address, and station coordinates and noise parameters has been determined
Measurement • 83 stations to measure the amount of noise pollution were selected values level equivalent Sound pressure (dB) • Networks A weight two times a day and night at intervals of 1 and 20 and 40 meters was measured highway • The results show the average level equivalent to a day with average level equivalent (Leq) to night has difference, so measuring future noise levels (dB), Lmax (dB) and Lmin (dB) at different times day Networks A weight at all stations were assessed • Average level equivalent value defined by the Department of Environment for different urban applications and areas surrounding highway
Data Base • The location of noise pollution measurement stations, audio data or average sound level (leq) measured was added to the database in GIS and were identified the existing highway around where have more than Standards dB of noise on the region • Since a sound wave will be released in the air and away from the sound source (highway) Noise level is reduced using a formula, so noise levels according to distance from a linear source the Proper model was prepared for calculating Noise buffer and was set sound pollution levels around the highway
STABILA LD500 22336Sound Meter B&K GPSMAP 60CSX, GPS
intensity of sound detection by Using measuring stationsand Spatial Analysis
Location of residential areas in bounds buffer of noise pollution
Location of Parks and Gardens in bounds buffer of noise pollution
Location of universities and Cultural Centers in bounds buffer of noise pollutionAn Example of a noise map created with GISThe map shows the noise level data around Highways
Average equivalent level (dB) measured in Distance of 1 and 20 and 40 meters from Highway
Comparison of average equivalent sound level (dB) A in Day and Night time
Comparison of average equivalent sound level (dB) A in Day and Night time with separation distance
Comparison of average equivalent sound level (dB) A in Day time with separation distance Classification in GIS Spatial Statistics Levels and Sound Pressure Level
noise intensity interpolation of measuring stations by 3D Analysis and overlay with comprehensive Development Plans
Conclusion • Noise pollution is a serious environmental problem in many cities and GIS help us to monitor the problem • GIS help to improve the monitoring of such environmental issues by contributing the noise mapping of city • According to calculations made based on the measurements performed at intervals from Highway and the maps obtained in GIS the proper amount of space surrounding land uses to highway was estimated, in 48 stations above 75dB noise pollution that most of these places next to highway (less than 1 meter) is located • The areas around the highway, residential, schools, buildings, universities, parks and green spaces are, so a member of must be given on noise pollution showed around the highway
Conclusion • Analysis Comprehensive Urban Development Plans with attention to Noise Distribution around Highways • For Example with regard to the 16 schools in the study area, school rituals and the School of Science and Technology are the order of a load noise pollution • The results of analysis of spatial map buffer on residential regions, shows that residential homes be widespread and abundant around the highway and noise pollution area with noise more than national standards
Conclusion • For example the results of analysis about location of universities in the region shows that Payam-e-noor University and Islamic Azad University North Tehran Branch, respectively, between Highway 25 and 50 meters with noise pollution at 79 and 73 dB are located • With attention to standards of Noise pollution about educational centers and universities need to control procedures and management and future development plans about educational centers
Conclusion • Spatial analysis of the location of schools, residential areas, universities and green spaces under noise pollution effect, and using noise maps are recommended • With regard to the criteria of architectural spaces to protect against noise pollution should be used • Also Absorbent materials in building, walls and sealing doors and two partitions windows is recommended to use building materials in construction residential homes and hospitals and schools and universities in buffers that are under noise pollution more than standards • Location of crisis positions of noise pollution were determined by using GIS analysis in the study area and presented for future planning
Conclusion • Using double insulation, sound absorbent materials in indoor decoration, such as false ceilings and walls, floor and carpet and interior design to reduce vibration and noise control in the some at sensory buildings in critical points are suggested (GIS help us to produce kinds of maps )
Conclusion • Dense planting appropriate vegetation in the surrounding highway of planting rows of trees, especially acacia, lime and hazelnut trees in noise reduction are very effective • (with low vegetation within 30 m sound to approximately 5 dB reduces the amount) • •Construction of sound walls over the highway with their emphasis on beautification • •Construction of the new instruments and observing privacy highway to reduce noise pollution in receiving a minimum distance of 125 meters from highway • •Recommended council district 1 and 3 during a specific program plan to purchase homes or change usage of buildings and follow the standard minimum distance from the center of highway (125 to the input residential housing)