References
- Howard, H. L., J. M. Mutmansky, R. V. Ramani, and Y. J. Wang. 2012. Mine ventilation and air conditioning. Hoboken, NJ: John Wiley Sons.
- Keimig, D. G., D. J. Slymen, and O. White Jr. 1986. Occupational exposure to coke oven emissions from 1979–1983. Archives of Environmental Health: An International Journal 41(6): 363–367.
- Costantino, J. P., C. K. Redmond, and A. Bearden. 1995. Occupationally related cancer risk among coke oven workers: 30 years of follow-up. Journal of Occupational and Environmental Medicine 37(5): 597–604.
- Ghosh, N., and L. Parthasarathy. 2002. Atmospheric pollution control in coke ovens. Ranchi, Jharkhand: R&D Centre, SAIL.
- Kolaitis, D. I., and M. A. Founti. 2002. Modeling of the gas–particle flow in industrial classification chambers for design optimization. Powder Technology 125(2): 298–305.
- Loomans, M., and T. Lemaire. 2002. Particle concentration calculations using CFD. Proceedings Roomvent.
- Nieto, P. G., J. J. del Coz Díaz, D. Castro-Fresno, and F. B. Muñoz. 2010. Numerical simulation of the performance of a snow fence with airfoil snow plates by FVM. Journal of Computational and Applied Mathematics 234(4): 1200–1210.
- Azadi, M., M. Azadi, and A. Mohebbi. 2010. A CFD study of the effect of cyclone size on its performance parameters. Journal of Hazardous Materials 182(1): 835–841.
- Elsayed, K., and C. Lacor. 2013. CFD modeling and multi-objective optimization of cyclone geometry using desirability function, artificial neural networks and genetic algorithms. Applied Mathematical Modelling 37(8): 5680–5704.
- Fabiano, B., F. Currò, A.P. Reverberi, and E. Palazzi. 2014. Coal dust emissions: From environmental control to risk minimization by underground transport. An applicative case-study. Process Safety and Environmental Protection 92(2): 150–159.
- Oh, J., S. Choi, and J. Kim. 2015. Numerical simulation of an internal flow field in a uniflow cyclone separator. Powder Technology 274: 135–145.
- Fluent, A. N. S. Y. S. Ansys Fluent theory guide. ANSYS Inc., USA, 2011.
- Remus, R., M. A. Aguado-Monsonet, S. Roudier, and L. D. Sanc. Best Available Techniques (BAT) Reference Document for Iron and Steel Production: Industrial Emissions Directive 2010/75/EU: Integrated Pollution Prevention and Control. 2013, Institute for Prospective and Technological Studies, Joint Research Centre.
- Weitkamp, E. A., E. M. Lipsky, P. J. Pancras, J. M. Ondov, A. Polidori, B. J. Turpin, and A. L. Robinson. 2005. Fine particle emission profile for a large coke production facility based on highly time-resolved fence line measurements. Atmospheric Environment 39(36): 6719–6733.
- Theodore, L. 2008. Air pollution control equipment calculations. Hoboken, NJ: John Wiley & Sons.
- Zhang, Z., and Q. Chen. 2007. Comparison of the Eulerian and Lagrangian methods for predicting particle transport in enclosed spaces. Atmospheric Environment 41(25): 5236–5248.
- Abdolzadeh, M., M. A. Mehrabian, and A. S. Goharrizi. 2011. Numerical study to predict the particle deposition under the influence of operating forces on a tilted surface in the turbulent flow. Advanced Powder Technology 22(3): 405–415.
- Chung, K. C. 1998. Three-dimensional analysis of airflow and contaminant particle transport in a partitioned enclosure. Building and Environment 34(1): 7–17.
- Hinds, W. C. 1982. Aerosol technology: properties, behavior, and measurement of airborne particles. New York: Wiley-Interscience. 442 p.,. 1.
- Abdolzadeh, M., M. A. Mehrabian, G. Zahedi, and A. S. Goharrizi. 2011 Jun 30. Effect of thermophoresis and other parameters on the particle deposition on a tilted surface. International Journal of Heat and Fluid Flow 32(3): 670–679.
- Sun, K., L. Lu, and H. Jiang. 2011. A computational investigation of particle distribution and deposition in a 90° bend incorporating a particle–wall model. Building and Environment 46(6): 1251–1262.