References
- Biswas, A., Gandhi, B.K., Singh, S.N., Seshadri, V., 2000. Characteristics of coal ash and their role in hydraulic design of ash disposal pipelines. Indian Journal of Engineering and Material Science, 7, 1–7.
- Chandel, S., Seshadri, V., Singh, S.N., 2009a. Effect of additive on pressure drop and rheological characteristics of fly ash slurry at high concentration. Particulate Science and Technology, 27, 3, 271–284.
- Chandel, S., Singh, S.N., Seshadri, V., 2009b. Deposition characteristics of coal ash slurries at higher concentrations. Advanced Powder Technology, 20, 383–389.
- Chandel, S., Seshadri, V., Singh, S.N., 2010. Transportation of high concentration coal ash slurries through pipelines. Inter. Archive of Applied Science and Technology, 1, 1, 1–9.
- Chong, J.S., Christiansen, E.B., Baer, A.D., 1971. Rheology of concentrated suspensions. Journal of Applied Polymer Science, 15, 2007–2021.
- Gahlot, V.K., Seshadri, V., Malhotra, R.C., 1988. A method for the experimental determination of the rheological parameters of multisized course particulate slurries. In: Inter. Symposium on Hydraulic Transportation of Coal and Other Minerals, IIT Delhi, March 4–6, pp. 283–295.
- Kolar, V., Pollert, J., Sellin, R.H.J., Vlasak, P., 1988. Experiment with drag reducing polymer in an ash-slag hydro transport pipeline. Journal of Hydraulic Research, 26, 2, 143–158.
- Kunal, S., Kundan, L., 2012. Effect of Cetylpyridinium chloride, Triton x-100 and Sodium Dodecyl Sulphate on rheology of fly ash slurry. International Journal of Scientific and Research Publications, 2, 8, 1–5.
- Mosa, S., Abdel, H.M.S., Taha, A., Anas, M.E., 2008. Effect of chemical additives on flow characteristics of coal slurries. J. of Physicochemical Problems of Mineral Processing, 42, 107–118.
- Naik, H.K., Mishra, M.K., Rao Karanam, U.M., Deb, D., 2009a. Evaluation of the role of a cationic surfactant on the flow characteristics of fly ash slurry. Journal of Hazardous Materials, 169, 1134–1140.
- Naik, H.K., Mishra, M.K., Rao Karanam, U.M., 2009b. The effect of drag reducing additives on the rheological properties of fly ash-water suspensions at varying temperature environment. Coal Combustion and Gasification Products, 1, 25–31.
- Naik, H.K., Mishra, M.K., Rao, K.U.M., 2011. Influence of chemical reagents on rheological properties of fly ash – water slurry at varying temperature environment. Coal Combustion and Gasification Products, 3, 83–93.
- Panda, D., Pradhan, B., 2014. Hydraulic transport of fly ash and fly ash- bottom ash mixtures at high concentrations. International Journal of Chemical Engineering and Applied Sciences, 4, 1, 1–4.
- Senapati, P.K., Mishra, B.K., 2012. Design considerations for hydraulic backfilling with coal combustion products (CCPs) at high solids concentrations. Powder Technology, 229, 119–125.
- Senapati, P.K., Mishra, B.K., Parida, A., 2010. Modeling of viscosity for power plant ash slurry at higher concentrations: Effect of solids volume fraction, particle size and hydrodynamic interactions. Powder Technology, 197, 1–8.
- Senapati, P.K., Mishra, B.K., Parida, A., 2013. Analysis of friction mechanism and homogeneity of suspended load for high concentration fly ash & bottom ash mixture slurry using rheological and pipeline experimental data. Powder Technology, 250, 154–163.
- Seshadri, V., Singh, S.N., Jain, K.K., Verma, A.K., 2005. Rheology of fly ash slurries at high concentrations and its application to the design of high concentration slurry disposal system (HCSD). In: Proceedings of the International Conference on Fly Ash Utilization, 1, 10.
- Umesh, K., Mishra, R., Singh, S.N., Seshadri, V., 2003. Effect of particle gradation on flow characteristics of ash disposal pipelines. Powder Technology, 132, 39–51.
- Verma, A.K., Singh, S.N., Seshadri, V., 2006. Pressure drop for the flow of high concentration solid liquid mixture 90° horizontal conventional circular pipe bends. Indian Journal of Engineering and Material Science, 13, 477–483.
- Vlasak, P., Chara, Z., 2004. Laminar and turbulent transition of fine-grained slurries. Particulate Science and Technology, 22, 2, 189–200.
- Vlasak, P., Chara, Z., 2009. Conveying of solid particles in Newtonian and non-Newtonian carriers. Particulate Science and Technology, 27, 5, 428–443.
- Vlasak, P., Chara, Z., 2011. Effect of particle size distribution and concentration on flow behaviour of dense slurries. Particulate Science and Technology, 29, 1, 53–65.
- Vlasak, P., Chara, Z., Stern, P., 2010. Drag reduction of dense Fine-Grained slurries. Journal of Hydrology and Hydromechanics, 58, 4, 261–270.