Promotion of Combustion by Electric Discharges (The Role of Vibrationally Excited Species)
スポンサーリンク
概要
- 論文の詳細を見る
It has been shown recently that plasma jets or electric discharges work effectively on the flame stabilization or the promotion of combustion reaction in several combustion experiments. In the first part of this review, the outlines of two investigations on the mechanism of combustion-reaction promotion, one is the case of injection of plasma jet and the other is the case of application of direct electric discharge, there exists active participation of vibrationally excited species produced by electric discharges on the promotion of combustion reaction through the route where vibrationally excited fuel molecules transform into radicals via specific reactions with high rate constant, although in the case of plasma jet, the participation of vibrationally excited species may be less important compared to that of specific radicals involved in plasma jet. The second part of this review refers to three experiments on the effect of plasma jet in supersonic combustions or a high-velocity stream combustion, of which results also suggest the role of vibrationally excited species on combustion promotion.
- 1988-08-15
著者
-
Kimura Itsuro
Department Of Aerospace Engineering Faculty Of Engineering Tokai University
-
Kimura Itsuro
Department Of Aeronautics And Astronautics School Of Engineering
関連論文
- Measurement of Fragment Mass Dependent Kinetic Energy and Neutron Multiplicity for Thermal Neutron Induced Fission of Plutonium-239
- Multi-parametric Measurement of Prompt Neutrons and Fission Fragments for ^U(n_, f)
- Measurement of Level Density Parameters of Fission Fragments Following Thermal Neutron Induced Fission of Uranium-235
- A Review of Research Activities at the Research Reactor Institute of Kyoto University in View of Research Publication Information
- easurement and Analysis of Leakage Neutron Spectra from Spherical Assemblies of Chromium, Manganese and Copper with 14MeV Neutrons
- Measurements of Neutron-induced Fission Cross Section of Protactinium-231 from 0. 1eV to 10keV with Lead Slowing-down Spectrometer and at 0. 0253eV with Thermal Neutron Facility
- Measurements of Neutron-induced Fission Cross Section of Americium-243 from Thermal Neutron Energy to 15keV Using Lead Slowing-down Spectrometer and Thermal Neutron Facility
- Effects of Thruster Length on MPD Flows
- Effect of Turbulence on Flame Propagation in Gases.
- NMR Study of γ Ray Induced Polymerisation of Ethyl Acrylate
- Spark Ignition of Flowing Gases
- Numerical Simulation of Combustion Promotion by Air Plasma Jets in Supersonic Airstreams
- Promotion of Combustion by Electric Discharges (The Role of Vibrationally Excited Species)
- Measurement of Fission Cross Section of Neptunium-237 in Resonance Region with Electron Linac-Driven Lead Spectrometer.