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An Investigation of Photochemical Initiation of Gaseous DetonationsBergeron, Marc-A. January 1976 (has links)
No description available.
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The effect of enviromental factors on vegetative growth and reproductive development in sweet cherry (Prunus avium L.)Mahmood, Khalid January 1999 (has links)
No description available.
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The regulation of polypeptide chain initiation in mammalian cellsCox, S. January 1987 (has links)
No description available.
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Numerical Simulations of Detonation Re-initiation Behind an ObstacleLau-Chapdelaine, S. She-Ming 25 February 2013 (has links)
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.
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Numerical Simulations of Detonation Re-initiation Behind an ObstacleLau-Chapdelaine, S. She-Ming 25 February 2013 (has links)
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.
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The implications of celebrating the sacrament of confirmation at the time of first eucharist for children in the Latin riteHite, Gregory Richard. January 1987 (has links)
Thesis (S.T.L.)--Catholic University of America, 1988. / Includes bibliographical references (leaves 126-135).
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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 (has links)
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).
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Use of lectionary in RCIASinnott, Alice M. January 1990 (has links)
Thesis (M.T.S.)--Catholic Theological Union at Chicago, 1990. / Vita. Includes bibliographical references (leaves 89-91).
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In search of an effective mystagogyChriszt, Dennis, January 1998 (has links)
Thesis (D. Min.)--Catholic Theological Union at Chicago, 1998.
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Numerical Simulations of Detonation Re-initiation Behind an ObstacleLau-Chapdelaine, S. She-Ming January 2013 (has links)
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.
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