Т. А. Хмель, “Моделирование динамических процессов в слабозапыленных и насыщенных газовзвесях (обзор)”, Физика горения и взрыва, 57:3 (2021), 3–17 ; T. A. Khmel, “Modeling of dynamic processes in slightly dusty and saturated gas suspensions (review)”, Combustion, Explosion and Shock Waves, 57:3 (2021), 257–269
Y. Mehta, T. L. Jackson, S. Balachandar, “Pseudo-turbulence in inviscid simulations of shock interacting with a bed of randomly distributed particles”, Shock Waves, 30:1 (2020), 49
S. P. Medvedev, E. K. Anderzhanov, I. V. Guk, A. N. Ivantsov, A. I. Mikhaylin, M. V. Silnikov, V. S. Pomazov, A. M. Tereza, S. V. Khomik, “Testing of Explosion-Proof Coatings in Cylindrical and Conical Shock Tubes”, Russ. J. Phys. Chem. B, 14:6 (2020), 946
Andreas Nygård Osnes, Magnus Vartdal, Marianne Gjestvold Omang, Bjørn Anders Pettersson Reif, “Computational analysis of shock-induced flow through stationary particle clouds”, International Journal of Multiphase Flow, 114 (2019), 268
P. Utkin, “Numerical simulation of shock wave – dense particles cloud interaction using Godunov solver for Baer–Nunziato equations”, HFF, 29:9 (2019), 3225
Д. А. Сидоренко, П. С. Уткин, “Численное моделирование релаксации тела за проходящей ударной волной”, Матем. моделирование, 30:11 (2018), 91–104 ; D. A. Sidorenko, P. S. Utkin, “Numerical modeling of the relaxation of a body behind the transmitted shock wave”, Math. Models Comput. Simul., 11:4 (2019), 509–517