[1] Miao Long*, Grishin Yuri Mihailovich. Gas dynamic-thermal-concentration fields and evaporation process of quartz particles in Ar–H2 inductively coupled plasma. Plasma Sources Science and Technology, 2020, 29(6): 065006-065018
[2] Miao Long*, Grishin Yuri Mihailovich. Dynamic heating and thermal destruction conditions of quartz particles in polydisperse plasma flow of RF-ICP torch system. Plasma Science and Technology, 2020. 22(11): 115505-115517
[3] Grishin Yuri Mihailovich, Miao Long*. Numerical simulation of the evaporation process of monodispersed quartz particles in an argon plasma flow of induction plasmatron. High Temperature, 2020, 58(1): 1-11
[4] Miao Long*, Grishin Yuri Mihailovich. Analysis of parameters of an rf inductively coupled plasma torch and dispersed flow of vaporized quartz particles. Technical Physics, 2020, 65(7), 1024-1031
[5] Miao Long*, Grishin Yuri Mihailovich. Studies of vortex characteristics and gas-dynamic fields in Ar-H2 inductively coupled plasma. International Journal of Heat and Mass Transfer, 2019, 144: No.118671
[6] Grishin Yuri Mihailovich, Miao Long*, Borisov Lev Alekseevich, Serykh Nikolay Mikhailovich, Kulagin Alexey Yurievich. Applications of two electric arc plasma torches for the preparation of high purity quartz. International Journal of Minerals, Metallurgy and Materials, 2019, 26(3): 1-7
[7] Miao Long*, Grishin Yuri Mihailovich. Numerical investigation into the characteristics of a vortex in an argon inductively coupled plasma. Plasma Sources Science and Technology, 2018, 27(11): 115008-115018
[8] Miao Long*, Grishin Yuri Mihailovich. On the structure and intensity of vortex in rf inductively coupled argon plasma. Plasma Physics Reports, 2018, 44(11): 864-874
[9] Grishin Yuri Mihailovich, Miao Long*. Diagram of flow patterns of argon plasma in the RF induction plasma torch. Applied Physics, 2018, 2: 15-20(俄语论文)
[10] Grishin Yuri Mihailovich, Miao Long*. About the vortex regime of an argon-hydrogen plasma flow in the channel of the inductively-coupled RF plasma torch. Applied Physics, 2017, 3: 31-36(俄语论文)
[11] Grishin Yuri Mihailovich, Miao Long*. The efficiency of quartz particles evaporation in the argon plasma flow of the RF inductively coupled plasma torch. Nauka i Obrazovanie, 2017, 5: 119-139(俄语论文)
[12] Grishin Yuri Mihailovich, Miao Long*. About features of the plasma flow structure in the channel of an inductively-coupled RF plasmatron with axial gas feed. Applied Physics, 2016, 4: 33-38(俄语论文)
[13] Miao Long*, Grishin Yuri Mihailovich. The plasma vortex flow formation conditions and parameters in the inductively coupled RF plasmatron. Nauka i Obrazovanie, 2016, 8: 50-66(俄语论文)
[14] Grishin Yuri Mihailovich, Miao Long*. Numerical simulation of plasma-dynamical processes in the technological inductively coupled RF plasmatron with gas cooling. Nauka i Obrazovanie, 2016, 5: 104-121(俄语论文)
[15] Grishin Yuri Mihailovich, Miao Long*. The application of RF inductively coupled plasma torch for the enrichment of natural quartz. 2nd International Conference on Fusion Energy and Plasma Technologies. 2019, Moscow (会议Proceeding)
[16] Grishin Yuri Mihailovich, Miao Long*. About the influences of gas composition and generator frequency on the formation conditions and parameters of vortex tube in the RF inductively coupled plasma. IV International Conference on Laser and plasma research and technologies. 2018, Moscow (会议Proceeding).
[17] Grishin Yuri Mihailovich, Miao Long*. Numerical simulation of the argon-hydrogen plasma flow in the channel of RF inductively coupled plasma torch. The International Conference on Problems of Thermal Physics and Power Engineering.2017, Moscow (会议Proceeding).
[18] Grishin Yuri Mihailovich, Miao Long*. Numerical study of heating and evaporation processes of quartz particles in RF inductively coupled plasma. 13th International Congress on Energy Fluxes and Radiation Effects.2016,Tomsk (会议Proceeding).
