Bijan Borzou scite author profile

Bijan Borzou

4Publications

14Citation Statements Received

59Citation Statements Given

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University of Ottawa

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Dynamics of detonations with a constant mean flow divergence

Radulescu

Borzou

2018

J. Fluid Mech.

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An exponential horn geometry is introduced in order to establish cellular detonations with a constant mean lateral mass divergence, propagating at quasi-steady speeds below the Chapman-Jouguet value. The experiments were conducted in 2C 2 H 2 +5O 2 +21Ar and C 3 H 8 +5O 2 . Numerical simulations were also performed for weakly unstable cellular detonations to test the validity of the exponential horn geometry. The experiments and simulations demonstrated that such quasi-steady state detonations can be realized, hence permitting to obtain the relations between the detonation speed and mean lateral flow divergence for cellular detonations in an unambiguous manner. The experimentally obtained speed (D) dependencies on divergence (K) were compared with the predictions for steady detonations with lateral flow divergence obtained with the real thermochemical data of the mixtures. For the 2C 2 H 2 +5O 2 +21Ar system, reasonable agreement was found between the experiments and steady wave prediction, particularly for the critical divergence leading to failure. Observations of the reaction zone structure in these detonations indicated that all the gas reacted very close to the front, as the transverse waves were reactive. The experiments obtained in the much more unstable detonations in C 3 H 8 +5O 2 showed significant differences between the experimentally derived D(K) curve and the prediction of steady wave propagation. The latter was found to significantly under-predict the detonability of cellular detonations. The transverse waves in this mixture were found to be non-reactive, hence permitting to shed off non-reacted pockets, which burn via turbulent flames on their surface. It is believed that the large differences between experiment and the inviscid model in this class of cellular structures is due to the importance of diffusive processes in the burn-out of the non-reacted pockets. The empirical tuning of a global one step chemical model to describe the macro-scale kinetics in cellular detonations revealed that the effective activation energy was lower by 14% in 2C 2 H 2 +5O 2 +21Ar and 54% in the more unstable C 3 H 8 +5O 2 system. This confirms previous observations that diffusive processes in highly unstable detonations are responsible for reducing the thermal ignition character of the gases processed by the detonation front. † Email address for correspondence: matei@uottawa.ca arXiv:1606.05323v2 [physics.flu-dyn]

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High Precision Numerical and Experimental Thermal Studies of Microelectronic Packages in Still Air Chamber Tests

Souare

Touré

Allard³

et al. 2018

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Dynamics of detonations with a constant mean flow divergence

Radulescu¹,

Borzou²

2016

Preprint

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The Influence of Cellular Structure on the Dynamics of Detonations with Constant Mass Divergence

Borzou¹

2016

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Bijan Borzou

Dynamics of detonations with a constant mean flow divergence

High Precision Numerical and Experimental Thermal Studies of Microelectronic Packages in Still Air Chamber Tests

Dynamics of detonations with a constant mean flow divergence

The Influence of Cellular Structure on the Dynamics of Detonations with Constant Mass Divergence

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