We study numerically the dynamics of particles of dispersed phase in a turbulent gas flow in planar shock waves (SWs) sliding along a solid surface with a depression of trapezoid shape. The ascent of particles from the cavity walls has been computed in the approximation of a rarefied gas-particle mixture. A considerable influence of the passing SW strength and the initial location of particles on the characteristics of particles' ascent, the non-monotonicity of the dependence of the particle-ascent height on the initial longitudinal coordinate, and the SW Mach number, and a possibility of the formation of particles' accumulation and removal zones on the depression bottom are shown. (C) 2007 Elsevier Ltd. All rights reserved.