A Study on Initiation Processes of Gaseous Detonation in Methane/Oxygen Mixtures
スポンサーリンク
概要
- 論文の詳細を見る
Initiation processes of gaseous detonation waves were observed experimentally in a tube. Gases to be tested were methane/oxygen mixtures of various initial compositions. The initiation was performed by blast waves caused by gaseous detonations of initiator gases which were stoichiometric oxyhydrogen mixtures at various initial pressures, the initiation energies of which were estimated by the method developed by the authors. The initiation energies were estimated from the experimental result of the decay of an inert planar blast wave produced by the initiator by utilizing the point source blast wave theory. The critical initiation energies were evaluated for the near limit composition of the mixture. In the initiation processed, local explosions were observed which played an important role under the critical condition, which was produced not only by the effect of the leading shock wave but also by that of the detonation products of the driver gas.
- 一般社団法人日本機械学会の論文
- 1989-02-15
著者
-
Harigaya Yasuo
Department Of Mechanical Engineering Faculty Of Engineering Saitma University
-
Ohyagi Shigeharu
Department Of Mechanical Engineering Faculty Of Engineering Saitma University
-
YOSHIHASHI Teruo
Department of Mechanical Engineering, Faculty of Engineering, Saitma University
-
Yoshihashi Teruo
Department Of Mechanical Engineering Faculty Of Engineering Saitma University
関連論文
- Numerical Studies of Reacting Flows Over Flat Walls with Fuel Injection : Part 1, Velocity Anomaly and Hydrodynamic Instability
- Biochemical heterogeneity of Alzheimer's disease
- Study on Performance of Detonation-Driven Shock Tube(Compressible Flow and Detonation)
- Distribution of amyloid β protein precursor in the Alzheimer's disease brain
- Intellectual faculties in patients with Alzheimer's disease regress to the level of a 4-5-year-old child
- A Study on Initiation Processes of Gaseous Detonation in Methane/Oxygen Mixtures
- Numerical Simulation of Detonation Initiation of Combustible Gases : Series B : Fluids Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Investigation of the Purge Process on the Multi-Cycle Operations of a Pulse Detonation Engine
- A study for development of hydrogen-fueled pulse detonation engines
- TED-AJ03-290 HYDROGEN-AIR PRE-MIXED COMBUSTION IN A CONSTANT VOLUME CHAMBER
- TED-AJ03-291 A PRELIMINARY STUDY FOR DEVELOPMENT FOR HYDROGEN : FUELED PULSE DETONATION ENGINES
- Propagation of Pressure Waves Initiated by Flame and Detonation in a Tube