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Year 2020, Volume: 7 Issue: 3, 319 - 324, 06.12.2020
https://doi.org/10.30897/ijegeo.734144

Abstract

References

  • [1] https://en.wikipedia.org/wiki/Electricity_sector_in_Bangladesh (DOA: 23 AUGUST, 2019) [2] https://www.dhakatribune.com/bangladesh/2018/09/08/in-pictures-celebrating-20-000mw-of-power(DOA: 2 AUGUST, 2019)
  • [3] Rahman, M., Tamin, M., & Rahman, L. (2012). Analysis of Natural Gas Consumption by the Industrial Sector of Bangladesh. Journal of Chemical Engineering, 27, 1-7. [4] Sieed, Jubair, Shaheed Hossain, and Khorshed Ahmad Kabir. "Application of INPRO Methodology to Assess Economic Feasibility of Proposed Rooppur Nuclear Power Plant."International Conference on Materials, Electronics & Information Engineering, ICMEIE-201505-06 June, 2015, Faculty of Engineering, University of Rajshahi, Bangladesh [5] http://www.cpgcbl.gov.bd/site/page/4b81edcd-a942-45eb-a092-bb0d8020c0fd/-(DOA: 12 AUGUST, 2019) [6] Zhang, L., Lee, C. S., Zhang, R., & Chen, L. (2017). Spatial and temporal evaluation of long term trend (2005–2014) of OMI retrieved NO2 and SO2 concentrations in Henan Province, China. Atmospheric environment, 154, 151-166. [7] Fioletov, V. E., McLinden, C. A., Krotkov, N., Yang, K., Loyola, D. G., Valks, P., ... & Liu, X. (2013). Application of OMI, SCIAMACHY, and GOME‐2 satellite SO2 retrievals for detection of large emission sources. Journal of Geophysical Research: Atmospheres, 118(19), 11-399. [8] Lin, C. K., Lin, R. T., Chen, P. C., Wang, P., De Marcellis-Warin, N., Zigler, C., & Christiani, D. C. (2018). A global perspective on sulfur oxide controls in coal-fired power plants and cardiovascular disease. Scientific reports, 8(1), 2611. [9] Safiullah, S., Khan, M. R. R., & Sabur, M. A. (2011). Comparative study of Bangladesh Barapukuria coal with those of various other countries. Journal of the Bangladesh Chemical Society, 24(2), 221-225. [10] Craig, L., Brook, J. R., Chiotti, Q., Croes, B., Gower, S., Hedley, A., & Pennell, W. (2008). Air pollution and public health: a guidance document for risk managers. Journal of Toxicology and Environmental Health, Part A, 71(9-10), 588-698. [11] Alam, F. (2013). Energy, Exergy and Environmental Impact Analyses of Barapukuria Coal Based Thermal Power Plant. http://lib.buet.ac.bd:8080/xmlui/handle/123456789/89
  • [12] Prinn, R. G., & Fegley Jr, B. (1987). Bolide impacts, acid rain, and biospheric traumas at the Cretaceous-Tertiary boundary. Earth and Planetary Science Letters, 83(1-4), 1-15. [13] Roy, P., & Sardar, A. (2015). SO2 emission control and finding a way out to produce sulphuric acid from industrial SO2 emission. J Chem Eng Process Technol, 6, 230. [14] Initiative, P. P. I. (2003). Volume 1 Clean Coal Technology Programs: Program Update 2003. [15] Flytzani-Stephanopoulos, M., Zhu, T., & Li, Y. (2000). Ceria-based catalysts for the recovery of elemental sulfur from SO2-laden gas streams. Catalysis Today, 62(2-3), 145-158.

Impacts & Mitigation Approach of Flue Gas (SO2) in Coal Fired Power Plant of Bangladesh

Year 2020, Volume: 7 Issue: 3, 319 - 324, 06.12.2020
https://doi.org/10.30897/ijegeo.734144

Abstract

Energy demand of Bangladesh is rising continuously. Therefore, several power plants have been establishing, where the main fuel is a coal to satisfy this requirement. In Barapukuria, a coal-based power plant has already been activated to produce 250 MW electricity. The coal-fired power plant in Matarbari (1200 MW), Payra Thermal Power Plant (1320 MW), Rampal Power Plant (1320MW) are under construction in addition to add 3840 MW. While boasting our power grid, it raises the concern of environmental adversity that may occur by the emission of flue gases (SO2, NOx, CO2) and particulate material from the chimney. This exhaust emission causes a discrepancy in human health and the environment. Among these flue gases SO2 is prime concern here. Hence, this study is done to identify the adversity of this pollutant. For this reason, the amount of flue gas (SO2) is calculated which will help to understand the deviation from standard values. If any deviation is identified, mitigation steps should be taken to prevent the adversity. There are various methods to mitigate the flue gas (SO2), for example, wet scrubber, limestone/gypsum system, ammonia scrubbing, lime/limestone scrubbing for mitigation of sulfur dioxide (SO2). According to the suitability and efficiency of these processes, the best methods are explained to capture the flue gas (SO2) for saving our environment.

References

  • [1] https://en.wikipedia.org/wiki/Electricity_sector_in_Bangladesh (DOA: 23 AUGUST, 2019) [2] https://www.dhakatribune.com/bangladesh/2018/09/08/in-pictures-celebrating-20-000mw-of-power(DOA: 2 AUGUST, 2019)
  • [3] Rahman, M., Tamin, M., & Rahman, L. (2012). Analysis of Natural Gas Consumption by the Industrial Sector of Bangladesh. Journal of Chemical Engineering, 27, 1-7. [4] Sieed, Jubair, Shaheed Hossain, and Khorshed Ahmad Kabir. "Application of INPRO Methodology to Assess Economic Feasibility of Proposed Rooppur Nuclear Power Plant."International Conference on Materials, Electronics & Information Engineering, ICMEIE-201505-06 June, 2015, Faculty of Engineering, University of Rajshahi, Bangladesh [5] http://www.cpgcbl.gov.bd/site/page/4b81edcd-a942-45eb-a092-bb0d8020c0fd/-(DOA: 12 AUGUST, 2019) [6] Zhang, L., Lee, C. S., Zhang, R., & Chen, L. (2017). Spatial and temporal evaluation of long term trend (2005–2014) of OMI retrieved NO2 and SO2 concentrations in Henan Province, China. Atmospheric environment, 154, 151-166. [7] Fioletov, V. E., McLinden, C. A., Krotkov, N., Yang, K., Loyola, D. G., Valks, P., ... & Liu, X. (2013). Application of OMI, SCIAMACHY, and GOME‐2 satellite SO2 retrievals for detection of large emission sources. Journal of Geophysical Research: Atmospheres, 118(19), 11-399. [8] Lin, C. K., Lin, R. T., Chen, P. C., Wang, P., De Marcellis-Warin, N., Zigler, C., & Christiani, D. C. (2018). A global perspective on sulfur oxide controls in coal-fired power plants and cardiovascular disease. Scientific reports, 8(1), 2611. [9] Safiullah, S., Khan, M. R. R., & Sabur, M. A. (2011). Comparative study of Bangladesh Barapukuria coal with those of various other countries. Journal of the Bangladesh Chemical Society, 24(2), 221-225. [10] Craig, L., Brook, J. R., Chiotti, Q., Croes, B., Gower, S., Hedley, A., & Pennell, W. (2008). Air pollution and public health: a guidance document for risk managers. Journal of Toxicology and Environmental Health, Part A, 71(9-10), 588-698. [11] Alam, F. (2013). Energy, Exergy and Environmental Impact Analyses of Barapukuria Coal Based Thermal Power Plant. http://lib.buet.ac.bd:8080/xmlui/handle/123456789/89
  • [12] Prinn, R. G., & Fegley Jr, B. (1987). Bolide impacts, acid rain, and biospheric traumas at the Cretaceous-Tertiary boundary. Earth and Planetary Science Letters, 83(1-4), 1-15. [13] Roy, P., & Sardar, A. (2015). SO2 emission control and finding a way out to produce sulphuric acid from industrial SO2 emission. J Chem Eng Process Technol, 6, 230. [14] Initiative, P. P. I. (2003). Volume 1 Clean Coal Technology Programs: Program Update 2003. [15] Flytzani-Stephanopoulos, M., Zhu, T., & Li, Y. (2000). Ceria-based catalysts for the recovery of elemental sulfur from SO2-laden gas streams. Catalysis Today, 62(2-3), 145-158.
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Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

H.m Rayhan Rifat 0000-0001-9925-5107

Zayed Bın Sultan This is me

Publication Date December 6, 2020
Published in Issue Year 2020 Volume: 7 Issue: 3

Cite

APA Rayhan Rifat, H., & Bın Sultan, Z. (2020). Impacts & Mitigation Approach of Flue Gas (SO2) in Coal Fired Power Plant of Bangladesh. International Journal of Environment and Geoinformatics, 7(3), 319-324. https://doi.org/10.30897/ijegeo.734144