[Chung, J.S., Yarim, G., Savasci, H., 1998. Shape effect of solids on pressure drop in a 2-phase vertically upward transport: Silica sands and spherical beads. In: Proc. the Eight (1998) Int. Offshore and Polar Engineering Conf., Montreal, 1998, pp. 58-65.]Search in Google Scholar
[Durand, R., 1953. Concentration measuring instrument for hydraulic transportation installation. Houille Blanche, 8, 2, 296-297.]Search in Google Scholar
[Krupicka, J., Matousek, V., 2011. First experimental experience with new laboratory slurry loop. In: Proc. 14th Int. Freight Pipeline Society Symp., Madrid, 28 June-1 July 2011, pp. 147-154.]Search in Google Scholar
[Krupicka, J., Matousek, V., 2012. Gamma-ray-based method for density sensing in pipes - evaluation of measurement and data processing. In: Proc. 2nd IAHR Europe Congr., Munich (Germany), 27-30 June 2012.]Search in Google Scholar
[Lukerchenko, N., Chara, Z., Vlasak, P., 2006. 2D numerical model of particle-bed collision in fluid-particle flows over bed. J. Hydraulic Research, 44, 1, 70-78.10.1080/00221686.2006.9521662]Search in Google Scholar
[Matousek, V., 2009a. Concentration profiles and solids transport above stationary deposit in enclosed conduit. J. Hydraul. Eng. ASCE, 135, 12, 1101-1106.10.1061/(ASCE)HY.1943-7900.0000113]Search in Google Scholar
[Matousek, V., 2009b. Pipe wall friction in vertical sand-slurry flows. Particulate Science and Technology, 27, 5, 456-468.10.1080/02726350903133179]Search in Google Scholar
[Newitt, D.M., Richardson, J.F., Abbott, M., Turtle, R.B., 1955. Hydraulic conveying of solids in horizontal pipes. Transactions Institute Chemical Engineers, 33, 2, 93-113.]Search in Google Scholar
[Newitt, D.M., Richardson, J.F., Gliddon, B.J., 1961. Hydraulic conveying of solids in vertical pipes. Transactions Institute of Chemical Engineers, 39, 93-100.]Search in Google Scholar
[Przewlocki, K., Michalik, A., Wolski, K., Korbel, K., 1979. A radiometric device for the determination of solids concentration distribution in a pipeline. In: Burns, A.P. (Ed.): Proc. of 6th International Conference on the Hydraulic Transport of Solids in Pipes HYDROTRANSPORT 6, 1979, Canterbury (UK), BHRA Fluid Engineering Centre, Cranfield (U.K.), Pap. B3, pp. 219-227.]Search in Google Scholar
[Pugh, F.J., Wilson, K.C., 1999. Role of the interface in stratified slurry flow. Powder Technology, 104, 221-226.10.1016/S0032-5910(99)00098-4]Search in Google Scholar
[Shook, C.A., Bartosik, A.S., 1994. Particle-wall stresses in vertical slurry flows. Powder Technology, 81, 117-124.10.1016/0032-5910(94)02877-X]Search in Google Scholar
[Shook, C.A., Roco, M.C., 1991. Slurry Flow: Principles and Practice. Butterworth/Heinemann, Boston.]Search in Google Scholar
[Shook, C.A., Geller, L., Gillies, R.G., Husband, W.H.W., Small, M., 1986. Experiments with coarse particles in a 250 mm pipeline. In: Burns, A.P. (Ed.): Proc. of 10th Int. Conf. on the Hydraulic Transport of Solids in Pipes HYDROTRANSPORT 10, 1986, Innsbruck (Austria), BHRA Fluid Engineering Centre, Cranfield, UK, pp. 219-227.]Search in Google Scholar
[Sobota, J., Plewa, F., 2000. Global and local characteristics of ash mixture flows. EJPAU 3(2), #01. Available online: http://www.ejpau.media.pl/volume3/issue2/environment/art-01.html ]Search in Google Scholar
[Sobota, J., Vlasak, P., Strozik, G., Plewa, F., 2009. Vertical distribution of concentration in horizontal pipeline - density and particle size influence. In: Proc. Eighth (8) ISOPE Ocean Mining (& Gas Hydrates) Symposium, Chennai (India), 20-24 September 2009, pp. 220-224.]Search in Google Scholar
[Vlasak, P., Chara, Z., 2007. Effect of particle size and concentration on flow behavior of complex slurries. In: Proc. of the 7th ISOPE Ocean Mining Symp., Lisbon, pp. 188-196.]Search in Google Scholar
[Vlasak, P., Chara, Z., 2011. Effect of particle size distribution and concentration on flow behavior of dense slurries. Particulate Science and Technology, 29, 1, 53-65.10.1080/02726351.2010.508509]Search in Google Scholar
[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.]Search in Google Scholar
[Vlasak, P., Chara, Z., Kysela, B., Sobota, J., 2011b. Flow behavior of coarse-grained slurries in pipes. In: Proc. the Nineth (2011) ISOPE (Deep) Ocean Mining (& Gas Hydrates) Symposium, 19-25 June 2011, Maui (Hawaii, USA), pp. 158-164.]Search in Google Scholar
[Vlasak, P., Kysela, B., Chara, Z., 2012. Flow Structure of coarse-grained slurry in horizontal pipe. J. Hydrol. Hydromech., 60, 2, 115-124.10.2478/v10098-012-0010-7]Search in Google Scholar
[Vlasak, P., Chara, Z., Konfrst, J., Kysela, B., 2013a. Experimental investigation of coarse-grained particles in pipes. In: 16th Int. Conf. on Transport & Sedimentation of Solid Particles, Rostock (Germany), 18-20 September 2013, pp. 265-273.]Search in Google Scholar
[Vlasak, P., Chara, Z., Konfrst, J., Sobota, J., Kysela, B., 2013 b. Conveying of coarse-grained particles in pipes. In: Proc.Tenth (2013) ISOPE Ocean Mining & Gas Hydrates Symposium, Szcezecin (Poland), 22-26 September 2013, pp. 215-220.]Search in Google Scholar
[Vlasak, P., Kysela, B., Chara, Z., 2014. Fully stratified particleladen flow in horizontal circular pipe. Particulate Science and Technology, 32, 2, 179-185.10.1080/02726351.2013.840705]Search in Google Scholar
[Wilson, K.C., Addie, G.R., 1997. Coarse-particle pipeline transport: effect of particle degradation on friction. Powder Technology, 94, 235-238.10.1016/S0032-5910(97)03300-7]Search in Google Scholar
[Wilson, K.C., Addie, G.R., Sellgren, A., Clift, R., 2006. Slurry Transport Using Centrifugal Pumps. 3rd edition. Springer, N. York.]Search in Google Scholar
[Wilson, K.C., Brown, N.P., Streat, M., 1979. Hydraulic hoisting at high concentration: A new study of friction mechanisms. In: Proc. 6th Int. Conf. on Hydraulic Transport of Solids in Pipes (HYDROTRANSPORT 6). Cranfield, Bedford, UK, BHRA Fluid Engineering, pp. 269-282.]Search in Google Scholar
[Worster, R.C., Denny, D.F., 1955. The hydraulic transport of solid material in pipes. Proc. Inst. Mech. Engrs., 169/32, 563-576. 10.1243/PIME_PROC_1955_169_064_02]Search in Google Scholar