The week's pick
Reseach Article
Combined Influence of Stack Height and Exit Velocity on Dispersion of Pollutants Caused by Helwan Cement Factory (Study using AERMOD Model)
| International Journal of Computer Applications |
| Foundation of Computer Science (FCS), NY, USA |
| Volume 121 - Number 9 |
| Year of Publication: 2015 |
| Authors: Nabil. H. Amer, Abbas A. Abbas |
10.5120/21568-4604
|
Nabil. H. Amer, Abbas A. Abbas . Combined Influence of Stack Height and Exit Velocity on Dispersion of Pollutants Caused by Helwan Cement Factory (Study using AERMOD Model). International Journal of Computer Applications. 121, 9 ( July 2015), 19-24. DOI=10.5120/21568-4604
Abstract
The cement industry plays a very important role in the growth of the national economy and the social development of any country. Therefore, severe restrictions and controls must be placed on cement industry to assess the environmental impacts of such projects not only before implementation but also during and after the operation of these projects. This research is about to introduce and build model using AERMOD model that can be used in environmental impact assessment of cement factories considering the effect of the stack height and exit gas velocity with one, two and three stacks, on the dispersion and the concentration of air emissions at receptor locations. The air dispersion model is used to predict the dispersion of particulate matter (PM10) and sulphur dioxide (SO2) emissions released from cement plant stack. Finally, the model showed that the stack heights and exit velocity are controlling factors in pollutant dispersion, where the relation between the stack height and the exit velocity against the maximum pollutant concentrations is inversely proportional. Moreover, this model was applied to a current cement plant located 30 Km south of Cairo. The emission concentrations from cement plant (8lines) were found to be less than the limits of Egyptian and International Environmental Laws. However, the emission concentrations from the cement plant when operated with full capacity (10lines) were found to violate the limits" without background reading".
References
- A. Josaa and A. Aguado, "Comparative analysis of available life cycle inventories of cement in the EU," in Cement and Concrete Research, 2007.
- L. M. N. S. Holmes "A review of dispersion modelling and its application to the dispersion of particles: An overview of different dispersion models available," in Atmospheric Environment, 2006.
- J. H. Seinfeld and S. N. Pandis, "Atmospheric chemistry and physics from air Pollution to Climate Change", Second ed. : John Wiley & Sons, Inc. , 2006.
- L. M. N. S. Holmes "A review of dispersion modelling and its application to the dispersion of particles: An overview of different dispersion models available," Atmospheric Environment, pp. 5902–5928, vol. 40, 2006.
- U. S. EPA, " AERMOD:Latest Features and Evaluation Results" vol. EPA-454/R-03-003: EPA, 2003.
- EPA, ". User's Guide for the AERMOD Terrain pre-processor (AERMAP). ," Office of Air Quality Planning and Standards, Research Triangle Park, NC. , vol. (Docket No. A-99-05, II-A-4), 1998.
- U. S. EPA, Office of Air Quality Planning and Standards,Emissions Monitoring and Analysis Division,Research Triangle Park, NC 27711, "User's Guide for the AERMOD Meteorological Preprocessors (AERMET)," 2004.
- Egyptian Meteorological Authority.
- Egyptian Environmental Affairs Agency.
- Suez Cement: http://www. suezcement. com. eg.
- Egyptian Environmental Affairs Agency, "Environmental Impact Assessment Guidelines for Cement Manufacturing Plants": Ministry of State for Environmental Affairs,Egypt, 2005.
Index Terms
Keywords