An Investigation of Photochemical Initiation of Gaseous Detonations

Bergeron, Marc-A.

January 1976

No description available.

Photochemical Initiation

The effect of enviromental factors on vegetative growth and reproductive development in sweet cherry (Prunus avium L.)

Mahmood, Khalid

January 1999

No description available.

630

Flower initiation

The regulation of polypeptide chain initiation in mammalian cells

Cox, S.

January 1987

No description available.

572

Muscle protein initiation

Numerical Simulations of Detonation Re-initiation Behind an Obstacle

Lau-Chapdelaine, S. She-Ming

25 February 2013

This numerical study explored the mechanisms responsible for the re-initiation of a detonation, which quenched while diffracting over a half-cylinder obstacle. Its purpose was to accurately predict when detonation re-initiations occur, determine roles of re-initiation mechanisms, and compare effects of chemical models. The model used reactive Euler equations with the one-step Arrhenius or two-step chain-branching chemical models, calibrated to post-shock conditions to reproduce the ignition delay. Simulations were validated using the stoichiometric methane-oxygen experiments of Bhattacharjee et al.. The model accurately predicted detonation re-initiation conditions found in experiments with good qualitative and quantitative agreement. While the one-step model was sufficient in predicting re-initiation, the two-step model reproduced finer details. Kelvin-Helmholtz and Richtmyer-Meshkov instabilities did not appear to influence detonation re-initiation of the Mach stem. Detonation re-initiation occurred due to adiabatic compression of the Mach stem, or transport of a flame along the wall jet. Transverse detonations were poorly reproduced.

Detonation re-initiation

Numerical Simulations of Detonation Re-initiation Behind an Obstacle

Lau-Chapdelaine, S. She-Ming

25 February 2013

This numerical study explored the mechanisms responsible for the re-initiation of a detonation, which quenched while diffracting over a half-cylinder obstacle. Its purpose was to accurately predict when detonation re-initiations occur, determine roles of re-initiation mechanisms, and compare effects of chemical models. The model used reactive Euler equations with the one-step Arrhenius or two-step chain-branching chemical models, calibrated to post-shock conditions to reproduce the ignition delay. Simulations were validated using the stoichiometric methane-oxygen experiments of Bhattacharjee et al.. The model accurately predicted detonation re-initiation conditions found in experiments with good qualitative and quantitative agreement. While the one-step model was sufficient in predicting re-initiation, the two-step model reproduced finer details. Kelvin-Helmholtz and Richtmyer-Meshkov instabilities did not appear to influence detonation re-initiation of the Mach stem. Detonation re-initiation occurred due to adiabatic compression of the Mach stem, or transport of a flame along the wall jet. Transverse detonations were poorly reproduced.

Detonation re-initiation

The implications of celebrating the sacrament of confirmation at the time of first eucharist for children in the Latin rite

Hite, Gregory Richard.

January 1987

Thesis (S.T.L.)--Catholic University of America, 1988. / Includes bibliographical references (leaves 126-135).

Confirmation Initiation rites

Revising the rite of adult initiation the structural reform of the Ordo initiationis Christianae adultorum, Ordo catechumenatus per gradus dispositus, 1964-1972 /

Pitt, David Andrew.

January 2007

Thesis (Ph. D.)--University of Notre Dame, 2007. / Thesis directed by Maxwell E. Johnson for the Department of Theology. "April 2007." Includes bibliographical references (leaves 739-756).

Catholic Church. Initiation rites

Use of lectionary in RCIA

Sinnott, Alice M.

January 1990

Thesis (M.T.S.)--Catholic Theological Union at Chicago, 1990. / Vita. Includes bibliographical references (leaves 89-91).

In search of an effective mystagogy

Chriszt, Dennis,

January 1998

Thesis (D. Min.)--Catholic Theological Union at Chicago, 1998.

Initiation rites Catechetics

Numerical Simulations of Detonation Re-initiation Behind an Obstacle

Lau-Chapdelaine, S. She-Ming

January 2013

This numerical study explored the mechanisms responsible for the re-initiation of a detonation, which quenched while diffracting over a half-cylinder obstacle. Its purpose was to accurately predict when detonation re-initiations occur, determine roles of re-initiation mechanisms, and compare effects of chemical models. The model used reactive Euler equations with the one-step Arrhenius or two-step chain-branching chemical models, calibrated to post-shock conditions to reproduce the ignition delay. Simulations were validated using the stoichiometric methane-oxygen experiments of Bhattacharjee et al.. The model accurately predicted detonation re-initiation conditions found in experiments with good qualitative and quantitative agreement. While the one-step model was sufficient in predicting re-initiation, the two-step model reproduced finer details. Kelvin-Helmholtz and Richtmyer-Meshkov instabilities did not appear to influence detonation re-initiation of the Mach stem. Detonation re-initiation occurred due to adiabatic compression of the Mach stem, or transport of a flame along the wall jet. Transverse detonations were poorly reproduced.

Detonation re-initiation