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Pavel Vlasák, Zdeněk Chára, Václav Matoušek, Jiří Konfršt and Mikoláš Kesely

. Matousek, V., 2002. Pressure drops and flow patterns in sand–mixture pipes. Experimental Thermal and Fluid Science, 26, 693–702. Matousek, V., Krupicka, J., Kesely, M., 2018. A layered model for inclined pipe flow of settling slurry. Powder Technology, 333, 317–326. Spelay, R.B., Gillies, R.G., Hashemi, S.A., Sanders, R.S., 2016. Effect of pipe inclination onthe deposition velocity of settling slurries. The Canadian Journal of Chemical Engineering, 94, 1032–1039. Shook, C.A., Roco, M.C., 1991. Slurry Flow. Principles and Practice. Butterworth

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Pavel Vlasak, Zdenek Chara and Jiri Konfrst

–362. Vlasak, P., Chara, Z., Konfrst, J., Krupicka, J., 2016. Distribution of concentration of coarse particle-water mixture in horizontal smooth pipe. Canadian Journal of Chemical Engineering, 94, 1040–1047. Wilson, K.C., 1976. A unified physically based analysis of solid-liquid pipeline flow, In: Proc. 4th Int. Conf. on the Hydraulic Transport of Solids in Pipes - HYDROTRANSPORT 4, B.H.R.A., Banff (Canada), 18–21 May 1976, Pap. A1. Wilson, K.C., Addie, G.R., 1997. Coarse-particle pipeline transport: effect of particle degradation on friction. Powder Technology

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Pavel Vlasák, Zdeněk Chára, Jan Krupička and Jiří Konfršt

: Proc. of the 7th ISOPE Ocean Mining Symp., Lisbon, pp. 188-196. Vlasak, P., Chara, Z., 2011. Effect of particle size distribution and concentration on flow behavior of dense slurries. Particulate Science and Technology, 29, 1, 53-65. Vlasak, P., Kysela, B., Chara, Z., 2011a. Flow behaviour and structure of coarse-grained slurry in horizontal pipe. In: Sobota, J. (Ed.): Proc. 15th Int. Conf. on Transport & Sedimentation of Solid Particles, Wroclaw (Poland), 6-9 September 2011, 287-298. Vlasak, P., Chara, Z., Kysela, B

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Jiafu Xu, Evren Ozbayoglu, Stefan Z. Miska, Mengjiao Yu and Nicholas Takach

Downhole Conditions . SPE Drilling & Completion, Vol. 22, No. 4, pp. 304-312, December. Chen Z., 2005. Study of Cuttings Transport with Foam under Elevated Pressure and Elevated Temperature Conditions . PhD Dissertation, U. of Tulsa, Oklahoma. Clark R.K., Bickham K.L., 1994. A Mechanistic Model for Cuttings Transport . SPE 28306, 69th Annual Technical Conference and Exhibition, New Orleans-Louisiana, September 25-28, 1994. Duan M., 2007. Study of Cutting Transport Using Foam with Drill Pipe Rotation Under Simulated

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Marek Mlkvik, Róbert Olšiak and Marek Smolar

References [1] ABDULKADIR, M., HERNANDEZ-PEREZ, V., LO, S., LOWNDES, I.S., AZZOPARDI, B.J.: Comparison of experimental and Computational Fluid Dynamics (CFD) studies of slug flow in a vertical riser, Experimental Thermal and Fluid Science , Volume 68 , November 2015, pp. 468-483, ISSN 0894-1777 [2] BAKER, O.: Simultaneous flow of oil and gas, Oil Gas J. , 53 , 1954, pp. 185–195 [3] BARNEA, D.: A unified model for predicting flow-pattern transitions for the whole range of pipe inclinations, Int. J. Multiphase Flow , 13 , 1987 [4