References
- Atesok, G., F. Boylu, A. A. Sirkeci, and H. Dincer. 2002. The effect of coal properties on the viscosity of coal-water slurries. Fuel 81: 1855–1858.
- Nguyen, Q. D., C. Logos, and T. Semmler. 1997. Rheological properties of South Australian coal-water slurries. Coal Preparation 18: 185–199.
- Henderson, C. B., R. S. Scheffee, and E. McHale. 1983. Coal-water slurries—A low cost liquid fuel for boilers. Energy Progressive 3(2): 69–75.
- Papachristodoulou, G., and O. Trass. 1987. Coal slurry fuel technology. Canadian Journal of Chemical Engineering 65(2): 177–201.
- Mishra, S. K., P. K. Senapati, and D. Panda. 2002. Rheological behavior of coal water slurry. Energy Sources 24: 159–167.
- Boylu, F., and G. Atesok. 2000. Coal-water mixture and their technologies. In Fifth coal utilization and technology symposium, Ankara, Turkey, 195–202.
- Konar, M. M., P. Bandopadhyay, and S. K. Mazumdar. 1996. A glimpse into mineral matter in Indian coals. Journal of Mines Metals and Fuels 44(8): 231–235.
- Aktas, Z., and E. T. Woodburn. 2000. Effect of addition of surface active agent on the viscosity of a high concentration slurry of a low rank British coal in water. Fuel Processing Technology 62: 1–15.
- Chen, R., M. Wilson, Y. K. Leong, P. Bryant, H. Yang, and D. K. Zhang. 2011. Preparation and rheology of biochar, lignite char and coal slurry fuels. Fuel 90: 1689–1695.
- Leong, Y. K., D. E. Creasy, D. V. Boger, and Q. D. Nguyen. 1987. Rheology of brown coal-water suspensions. Rheology Acta 26: 291–300.
- Roh, N. S., D. H. Shin, D. C. Kim, and J. D. Kim. 1995. Rheological behavior of coal water mixtures. Effects of coal type, loading and particle size. Fuel 74: 1220–1227.
- Turian, R. M., H. Freng-Lung, K. S. Avramidis, and R. K. Allendorfer. 1992. Settling and rheology of suspensions of narrow sized coal particles. American Institute of Chemical Engineers Journal 38(7): 969–987.
- Wang, L., and F. Zeng. 1998. Effect of ash in coal on the properties of coal water slurry. Coal Processing and Comprehensive Utilization 3: 18–21.
- Yong-gang, W., Y. Yan, G. Xiang-kun, and X. De-ping. 2009. Rheological behavior of Shengli coal-solvent slurry at low temperatures and atmospheric pressure. Mining Science and Technology 19: 779–783.
- Yuchi, W., B. Li, W. Li, and H. Chen. 2005. Effect of coal characteristics on the properties of coal water slurry. Coal Preparation 25(4): 239–249.
- Boylu, F., H. Dincer, and G. Atesok. 2004. Effect of Coal particle size distribution, volume fraction and rank on the rheology of coal-water slurries. Fuel Processing Technology 85: 241–250.
- Round, G. F., and A. R. Hessari. 1987. Rheology of coal slurries, pH and size distribution effects. Particulate and Multiphase Processes 3: 329–340.
- Toda, M., and M. Kuriyami. 1988. The influence of particle size distribution of coal on fluidity of coal water mixtures. Powder Technology 55: 241–247.
- Usui, H., Y. Sano, M. Sawada, and T. Hongoh. 1986. Adjustment of particle size distribution for the preparation of highly loaded coal-water slurries with reduced viscosity. Society of Chemical Engineers, Japan 12: 51–56.
- Yavuz, R., and S. Kucukbayrak. 1998. Effect of particle size distribution on rheology of lignite-water slurry. Energy Sources 20(9): 787–794.
- Hasan, A. R., D. N. Baria, and A. V. Rao. 1986. Rheological behavior of low rank coal water slurries. Chemical Engineering Communications 46(4–6): 227–240.
- Sengun, M. Z., and R. F. Probstein. 1989. Bimodal model of slurry viscosity with application to coal slurries: Part I: Low shear limit behavior. Rheology Acta 28: 382–401.
- Qi, F., and R. I. Tanner. 2011. Relative viscosity of bimodal suspension. Korea-Australia Rheology Journal 23(2): 105–111.
- Das, D., U. Das, J. Meher, and P. K. Mishra. 2013. Improving stability of concentrated coal-water slurry using mixture of a natural and synthetic surfactants. Fuel Processing Technology 113: 41–51.
- Zhou, M., B. Pan, D. Yang, H. Lou, and X. Qiu. 2010. Rheological behavior investigation of concentrated coal-water suspension. Journal of Dispersion Science and Technology 31: 838–843.
- Chong, J. S., E. B. Christiansen, and A. D. Baer. 1971. Flow of viscous fluid through a circular aperature. Journal of Applied Polymer Science 15: 369–379.