Hans Grönig scite author profile

This paper summarizes the studies of DDT and stable detonation waves in dust-air mixtures at the Stosswellenlabor of RWTH Aachen. The DDT process and propagation mechanism for stable heterogeneous dust detonations in air are essentially the same as in the oxygen environment studied previously. The dust DDT process in tubes is composed of a reaction compression stage followed by a reaction shock stage as the pre-detonation process. The transverse waves that couple the shock wave and the chemical energy release are responsible for the propagation of a stable dust-air detonation. However, the transverse wave spacing of dust-air mixtures is much larger. Therefore, DDT and propagation of a stable detonation in most industrial and agricultural, combustible dust-air mixtures require a tube that has a large diameter between 0.1 m and 1 m and a sufficient length-diameter ratio beyond 100, when an appropriately strong initiation energy is used. Two dust detonation tubes, 0.14 m and 0.3 m in diameter, were used for observation of the above-mentioned results in cornstarch, anthraquinone and aluminum dust suspended in air.Smoked-foil technique was also used to measure the cellular structure of dust detonations in the 0.3 m detonation tube.

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Detonation and deflagration initiation at the focusing of shock waves in combustible gaseous mixture

Gel’fand

Khomik

Bartenev

et al. 2000

Shock Waves

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Simultaneous Shadow, Schlieren and Interferometric Visualization of Compressible Flows

Kleine

Grönig

Takayama

2006

Optics and Lasers in Engineering

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Hans Grönig

Ignition of shock-heated H2-air-steam mixtures

An experimental investigation of the stability of converging cylindrical shock waves in air

DDT and detonation waves in dust-air mixtures

Detonation and deflagration initiation at the focusing of shock waves in combustible gaseous mixture

Simultaneous Shadow, Schlieren and Interferometric Visualization of Compressible Flows

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