Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor
Апстракт
For thermal plasma processing of solid particles (including processes like plasma spraying, spheroidizing, decomposition, melting or fuming of fine particles, synthesis of ultrafine particles, etc.) injection and mixing, i.e. momentum, heat and mass transfer between solid particles and plasma flow is of great importance for the quality of the product. There are numerous effects involved in plasma-particle interactions. Effects have different ranges of influence in particular plasma process or reactor. This paper present the results of a numerical analysis of the evaporation and decomposition of B2O3 powder (with particle diameter less than 100 mu m) injected in a nitrogen plasma axisymmetric, shielded reactor. This analysis serves as a basis for the optimization of the plasma reactor parameters, used for the plasma synthesis of BN ultrafine powder or boron powder production when B2O3 powder is used as a precursor. The computed fields of stream function and plasma temperature, particle... trajectories and some parameters (plasma and particle temperature, particle Re, Nu and Kn* numbers, influence of evaporation and noncontinuum effects on momentum heat and mass transfer and instantaneous particle diameter) along particle trajectories are presented and discussed.
Кључне речи:
nitrogen plasma / B2O3 particles / particle evaporation / numerical analysis / transfer plasma particlesИзвор:
Progress in plasma processing of materials 1999 : Proceedings, 1999, 209-217Напомена:
- Progress in Plasma Processing of Materials 1999: Proceedings of the Fifth International Thermal Plasma Processes Conference, July 13-16, St. Petersburg, Russia, 1998.
Колекције
Институција/група
VinčaTY - CONF AU - Stefanović, Predrag Lj. AU - Cvetinović, Dejan AU - Pavlović, Pavle B. AU - Kostić, Života PY - 1999 UR - https://vinar.vin.bg.ac.rs/handle/123456789/12371 AB - For thermal plasma processing of solid particles (including processes like plasma spraying, spheroidizing, decomposition, melting or fuming of fine particles, synthesis of ultrafine particles, etc.) injection and mixing, i.e. momentum, heat and mass transfer between solid particles and plasma flow is of great importance for the quality of the product. There are numerous effects involved in plasma-particle interactions. Effects have different ranges of influence in particular plasma process or reactor. This paper present the results of a numerical analysis of the evaporation and decomposition of B2O3 powder (with particle diameter less than 100 mu m) injected in a nitrogen plasma axisymmetric, shielded reactor. This analysis serves as a basis for the optimization of the plasma reactor parameters, used for the plasma synthesis of BN ultrafine powder or boron powder production when B2O3 powder is used as a precursor. The computed fields of stream function and plasma temperature, particle trajectories and some parameters (plasma and particle temperature, particle Re, Nu and Kn* numbers, influence of evaporation and noncontinuum effects on momentum heat and mass transfer and instantaneous particle diameter) along particle trajectories are presented and discussed. C3 - Progress in plasma processing of materials 1999 : Proceedings T1 - Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor SP - 209 EP - 217 UR - https://hdl.handle.net/21.15107/rcub_vinar_12371 ER -
@conference{ author = "Stefanović, Predrag Lj. and Cvetinović, Dejan and Pavlović, Pavle B. and Kostić, Života", year = "1999", abstract = "For thermal plasma processing of solid particles (including processes like plasma spraying, spheroidizing, decomposition, melting or fuming of fine particles, synthesis of ultrafine particles, etc.) injection and mixing, i.e. momentum, heat and mass transfer between solid particles and plasma flow is of great importance for the quality of the product. There are numerous effects involved in plasma-particle interactions. Effects have different ranges of influence in particular plasma process or reactor. This paper present the results of a numerical analysis of the evaporation and decomposition of B2O3 powder (with particle diameter less than 100 mu m) injected in a nitrogen plasma axisymmetric, shielded reactor. This analysis serves as a basis for the optimization of the plasma reactor parameters, used for the plasma synthesis of BN ultrafine powder or boron powder production when B2O3 powder is used as a precursor. The computed fields of stream function and plasma temperature, particle trajectories and some parameters (plasma and particle temperature, particle Re, Nu and Kn* numbers, influence of evaporation and noncontinuum effects on momentum heat and mass transfer and instantaneous particle diameter) along particle trajectories are presented and discussed.", journal = "Progress in plasma processing of materials 1999 : Proceedings", title = "Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor", pages = "209-217", url = "https://hdl.handle.net/21.15107/rcub_vinar_12371" }
Stefanović, P. Lj., Cvetinović, D., Pavlović, P. B.,& Kostić, Ž.. (1999). Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor. in Progress in plasma processing of materials 1999 : Proceedings, 209-217. https://hdl.handle.net/21.15107/rcub_vinar_12371
Stefanović PL, Cvetinović D, Pavlović PB, Kostić Ž. Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor. in Progress in plasma processing of materials 1999 : Proceedings. 1999;:209-217. https://hdl.handle.net/21.15107/rcub_vinar_12371 .
Stefanović, Predrag Lj., Cvetinović, Dejan, Pavlović, Pavle B., Kostić, Života, "Numerical Analysis of Momentum, Heat and Mass Transfer Between a Nitrogen Plasma Jet and B2o3 Particles Injected in An Axisymmetric Reactor" in Progress in plasma processing of materials 1999 : Proceedings (1999):209-217, https://hdl.handle.net/21.15107/rcub_vinar_12371 .