RT Journal Article ID 0153a10a3aec451e A1 Nesterovich, Dmitry V. A1 Penyazkov, Oleg G. A1 Stankevich, Yu. A. A1 Tretyak, M. S. A1 Chuprasov, Vladimir V. A1 Shatan, Ilya N. T1 DISPERSED PHASE VELOCITY IN A HIGH-TEMPERATURE GAS FLOW JF High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes JO HTM YR 2019 FD 2020-01-24 VO 23 IS 4 SP 319 OP 328 K1 dispersed phase K1 plasma torch K1 heterogeneous flow K1 heat-shielding material K1 nozzle K1 plasmatron AB At the present stage of space research, one of the most important tasks is the experimental study of heat-shielding materials of a descent spacecraft in conditions of strong dustiness of the atmosphere. To study the physicochemical processes occurring on the surface of a heat-shielding material, when modeling the entry of a spacecraft into the planet's atmosphere, it is necessary to create hypersonic high-enthalpy heterogeneous flows with constant monitoring of gas-dynamic parameters. The aim of this work was to obtain the maximum possible velocity of the heterogeneous phase at the Luch-22 setup, which is based on the electric-arc gas heater of a linear scheme with magnetogas-dynamic stabilization of the jet. A numerical simulation was carried out to determine the output nozzle geometry and the position for injection the dispersed phase into the main flow. As a dispersed phase, SiO2 particles with a determining diameter of 14.2 μm were used. A high-speed CCD camera with image intensifier with flash synchronization of a two-pulse Nd:YAG laser with Q-switching was used to record the velocity of particles in the plasma torch stream. Experimental results showed that with the selected geometry of the nozzle block and the position of the injection channel of particles, the velocity of the dispersed phase in the flow reaches 2200-2300 m/s. It is shown that when designing a nozzle unit, it is necessary to take into account the size and material of the particles of the dispersed phase. PB Begell House LK https://www.dl.begellhouse.com/journals/57d172397126f956,3b44d7b209668af9,0153a10a3aec451e.html