This book offers the reader an overview of the basic approaches to the theoretical description of low-temperature plasmas, covering numerical methods, mathematical models and modeling techniques. The main methods of calculating the cross sections of plasma particle interaction and the solution of the kinetic Boltzmann equation for determining the transport coefficients of the plasma are also presented. The results of calculations of thermodynamic properties, transport coefficients, the equilibrium particle-interaction cross sections and two-temperature plasmas are also discussed. Later chapters consider applications, and the results of simulation and calculation of plasma parameters in induction and arc plasma torches are presented. The complex physical processes in high-frequency plasmas and arc plasmas, the internal and external parameters of plasma torches, near-electrode processes, heat transfer, the flow of solid particles in plasmas and other phenomena are considered. The book isintended for professionals involved in the theoretical study of low-temperature plasmas and the design of plasma torches, and will be useful for advanced students in related areas.

Auteur

Shi Nguyen-Kuok - Professor, Doctor of Technical Sciences, Academician of the Russian Academy of Electrical Sciences, Head of Laboratory of Plasma Physics of National Research University "Moscow Power Engineering Institute", Supervisor of Ltd "Technokeramika". Experience of scientific and pedagogical work of Shi NguyenKuok is 22 years, including experience of pedagogical work. Shi NguyenKuok prepared 6 PhD students. Currently, the supervisor of 1 PhD graduate student.

Currently, Shi NguyenKuok has 135 publications, including 7 textbooks used in a teaching practice. Shi NguyenKuok developed a theoretical framework for the study of plasma and plasma processes in electrotechnological RF and Arc plasma torches. For the first time he has developed a method of structural modeling of plasma and plasma torches, heat and mass transfer processes and computational procedures allowing to identify the relationship between internal and external (technological and structural) parameters of plasma torches; determine the optimal regime of their agreement with the sources of supply; determine the complex physical processes in RF and Arc plasma torches, their internal and external parameters, heat and mass transfer processes in the plasma jet, near electrode processes, the processes of heat transfer and flow dynamics of solid particles in the plasma, etc.; solve the problems of analysis and structural and parametric synthesis of plasma electrotechnological installations. He developed the theoretical basis of mathematical modeling of electrotechnological plasma processes used in the preparation of lecture courses.

In 2006 Shi NguyenKuok received a grant from the President of the Russian Federation "Conducting research by young scientists."

In 2012 was awarded by the first place in the competition of manuscripts of scientific literature NRU "MPEI" and received a grant for the publication of a scientific monograph "Basics of mathematical modeling of Low temperature plasma."

In 2013 by led of Shi NguyenKuok, RF plasma installation of high power 1000 kW/0.44 MHz for the treatment of refractory particles and for test mode heating materials in the plasma jet, was prepared and released in work (Obninsk, LTD "Technokeramika"). Shi NguyenKuok is a full member of the Russian Academy of Electrical Sciences (from 2015) and the International Academy for System Studies (since 2012).

Contenu

Foreword.- 1 Basic mathematical models of Low-temperature plasma.- 2 Classical calculation of particle interaction cross sections.- 3 The quantum-mechanical description of the particles scattering theory.- 4 Determination of the composition, thermodynamic properties and plasma transport coefficients on the basis of the model of particles mean free path.- 5 The solution of the kinetic Boltzmann equation and calculation of the transport coefficients of the plasma.- 6 Numerical methods of plasma physics.- 7 Simulation and calculation of paramete of RF-plasma torches.- 8 Simulation and calculation of parameters in Arc plasma torches.- 9 The calculation of the near-electrode processes in Arc plasma torches.- 10 Calculation of the heat transfer and movement of the solid particles in the plasma torches.- 11 Features of the experimental methods and automated diagnostic systems of RF and Arc plasma torches.- Appendix.