Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B
2017
Authors
Todorović, DušanJovović, Aleksandar
Radić, Dejan
Obradović, Marko
Karličić, Nikola
Stanojević, Miroslav
Conference object (Published version)
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Serbian electricity production is predominantly based on coal power plants, which produce large sources of particle matter emissions. Modeling of PM10 dispersion from the combustion process of thermal power plants Kostolac A and B (TEKO A and TEKO B) is performed in order to examine the impact of the newly built TEKO B’s Flue Gas Desulphurization (FGD) units, and the results are presented in this paper. Two scenarios are discussed within this study, “without FGD” and “with FGD”. The AERMOD dispersion model, with hourly meteorological data (five years in row) from a representative measuring station, is used as modeling tool. Despite the large reduction in emission values of TEKO B after installation of the FGD system, the results achieved indicate that the FGD has had no significant impact on air quality in the observed domain, due to dominant influence of TEKO A and characteristics of TEKO B stack/s.
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PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia, 2017, 118-130Publisher:
- Belgrade : Vinča Institute of Nuclear Sciences
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Mašinski fakultetTY - CONF AU - Todorović, Dušan AU - Jovović, Aleksandar AU - Radić, Dejan AU - Obradović, Marko AU - Karličić, Nikola AU - Stanojević, Miroslav PY - 2017 UR - https://machinery.mas.bg.ac.rs/handle/123456789/4766 AB - Serbian electricity production is predominantly based on coal power plants, which produce large sources of particle matter emissions. Modeling of PM10 dispersion from the combustion process of thermal power plants Kostolac A and B (TEKO A and TEKO B) is performed in order to examine the impact of the newly built TEKO B’s Flue Gas Desulphurization (FGD) units, and the results are presented in this paper. Two scenarios are discussed within this study, “without FGD” and “with FGD”. The AERMOD dispersion model, with hourly meteorological data (five years in row) from a representative measuring station, is used as modeling tool. Despite the large reduction in emission values of TEKO B after installation of the FGD system, the results achieved indicate that the FGD has had no significant impact on air quality in the observed domain, due to dominant influence of TEKO A and characteristics of TEKO B stack/s. PB - Belgrade : Vinča Institute of Nuclear Sciences C3 - PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia T1 - Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B EP - 130 SP - 118 UR - https://hdl.handle.net/21.15107/rcub_machinery_4766 ER -
@conference{ author = "Todorović, Dušan and Jovović, Aleksandar and Radić, Dejan and Obradović, Marko and Karličić, Nikola and Stanojević, Miroslav", year = "2017", abstract = "Serbian electricity production is predominantly based on coal power plants, which produce large sources of particle matter emissions. Modeling of PM10 dispersion from the combustion process of thermal power plants Kostolac A and B (TEKO A and TEKO B) is performed in order to examine the impact of the newly built TEKO B’s Flue Gas Desulphurization (FGD) units, and the results are presented in this paper. Two scenarios are discussed within this study, “without FGD” and “with FGD”. The AERMOD dispersion model, with hourly meteorological data (five years in row) from a representative measuring station, is used as modeling tool. Despite the large reduction in emission values of TEKO B after installation of the FGD system, the results achieved indicate that the FGD has had no significant impact on air quality in the observed domain, due to dominant influence of TEKO A and characteristics of TEKO B stack/s.", publisher = "Belgrade : Vinča Institute of Nuclear Sciences", journal = "PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia", title = "Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B", pages = "130-118", url = "https://hdl.handle.net/21.15107/rcub_machinery_4766" }
Todorović, D., Jovović, A., Radić, D., Obradović, M., Karličić, N.,& Stanojević, M.. (2017). Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B. in PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia Belgrade : Vinča Institute of Nuclear Sciences., 118-130. https://hdl.handle.net/21.15107/rcub_machinery_4766
Todorović D, Jovović A, Radić D, Obradović M, Karličić N, Stanojević M. Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B. in PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia. 2017;:118-130. https://hdl.handle.net/21.15107/rcub_machinery_4766 .
Todorović, Dušan, Jovović, Aleksandar, Radić, Dejan, Obradović, Marko, Karličić, Nikola, Stanojević, Miroslav, "Modeling of PM10 dispersion from coal thermal power plants Kostolac A and B" in PROCEEDINGS The Sixth International WeBIOPATR Workshop & Conference Particulate Matter: Research and Management WeBIOPATR2017, 6 - 8 September 2017 Belgrade, Serbia (2017):118-130, https://hdl.handle.net/21.15107/rcub_machinery_4766 .