TY - JOUR TT - NO2 And CO Emissions Modeling With ISC3-St Of A Power Plant In Eskisehir Industrial Zone AU - Arar, Serdar AU - Taner, Kemal PY - 2010 DA - December Y2 - 2010 JF - Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi JO - ESOGÜ Müh Mim Fak Derg PB - Eskişehir Osmangazi University WT - DergiPark SN - 2630-5712 SP - 19 EP - 33 VL - 23 IS - 2 KW - Hava Kirliliği KW - Industrial Source Complex KW - Gauss Duman Denklemi N2 - In this paper, CO and NO2 emissions were modeled with using by ISC3-ST(Industrial Source Complex-Short Term).The required data of Endüstriyel Enerji Sanayi was taken from Environmental and Forest Department, the meteorological data was taken from Meteorology Department as monthly averages. The modeling was used for just November when the highest degree of ground level concentration was generated. Emission values have been nearly constant between 2006-2009. CO and NO2 dispersion graphics of all stacks were obtianed with a pc program using ISC3-ST. It can be shown from graphics that ground level concentrations of CO and NO2 are higher in Industrial Zone and the highest concentration values are occured at 2 km. CR - [1] I.Alameddine, M. El-Fadel, “Stack Emission from Desalination Plants: A Parametric Sensitivity Analysis for Exposure Assessment”, Desalination, V 177, 15-29, 2005. CR - [2] R. Başara, Sivas İline ait Hava Kirliliği Verileri ile Meteorolojik Veriler için Çoklu Lineer Regresyon Uygulaması, Cumhuriyet Üniversitesi, Sosyal Bilimler Enstitüsü, Yüksek Lisans Tezi, 38-55, 1996. CR - [3] A.D. Bhanarkar, S.K. Goyal, R. Sivacoumar, C.V.C. Rao, “ Assessment of Contribution of SO2 and NO2 from Different Sources in Jamshedpur Region, India”, Atmospheric Environmental, Vol. 39, pp. 7745-7760, 2005. CR - [4] Eskişehir Organize Sanayi Bölgesi’ndeki Fabrikalarına ait Emisyon Raporları. CR - [5] N. de Nevers, “Air Pollution Control Engineering”, McGraw-Hill International Editions, pp. 83-152, 2000. CR - [6] T.V.B.P.S.R. Krishna, M.K. Reddy, R.C. Reddy, R.N. Singh, “Assimilative Capacity and Dispersion of Pollutants Due to Industrial Sources in Visakhapatnam Bowl Area”, Atmospheric Environmental, Vol. 38, pp. 6775-6787, 2005. CR - [7] T.V.B.P.S.R. Krishna, M.K. Reddy, R.C. Reddy, R.N. Singh, “Impact of Indutrial Complex on the Ambient Air Quality: Case Study Using a Dispersion Model”, Atmospheric Environmental, Vol. 39, pp. 5395-5407, 2005. CR - [8] Meteoroloji Müdürlüğü Eskişehir İli Yıllık İstatistik Verileri. CR - [9] A. Müezzinoğlu, “Hava Kirliliği ve Kontrolünün Esasları, Dokuz Eylül Yayınları”, ss. 86-120, 2000. CR - [10] H. Okutan, M. Tırıs, F. Ertürk, E. Kalafatoğlu, “Hava Kirliliği Kaynakları ve Kontrolü”, TÜBİTAK Yayınları, ss. 243-264,1993. CR - [11] B. Öner, Yatağan, Yeniköy ve Kemerköy Termik Santrallerinin bacalarından çıkan gaz ve partiküllerin dağılımının modellenmesi, Muğla Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, ss. 1-40, 2000. CR - [12] B.K. Jr. Schnelle, R.D. Partha, “Atmospheric Dispersion Modeling Compliance Guide”, McGraw-Hill International Editions, Chapt. 4-9, 14, 2000. CR - [13] R. Sivacoumar, A.D. Bhanarkar, S.K. Goyal, S.K. Gadkari, A.L. Aggarwal, “ Air Pollution Modeling for an Industrial Complex and Model Performance Evaluation”, Atmospheric Environmental, V 111, 471-477, 2001. CR - [14] P. Zannetti, “ Air Pollution Modeling”, Computational Mechanics Publications, Chapter 4, 6- 10, 1990. CR - [15] www.ajdesigner.com CR - [16] www.csiro.au UR - https://dergipark.org.tr/en/pub/ogummf/issue//325376 L1 - https://dergipark.org.tr/en/download/article-file/320340 ER -