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Molecular dynamics simulation of (N2 )2 formation using the monotonic Lagrangian grid (1989)

Lambrakos, S. G. ; Boris, J. P. ; Guirguis, R. H. ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 90 (1989), S. 4473-4481

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: In this report, we describe some general features of the monotonic Lagrangian grid (MLG) that are important in molecular dynamics simulations. The monotonic Lagrangian grid is a highly efficient and general algorithm for tracking particles and computing interactions in simulations of systems consisting of large numbers of particles. Further, the MLG algorithm is highly adaptable to vector or parallel processing. The mode of implementing the MLG algorithm depends on the nature of the particle simulation. We present results of simulations for calculating the dimer mole fraction as a function of temperature in a three-dimensional N2 gas system. The results are consistent with experimental and theoretical results and demonstrate the effectiveness of the MLG algorithm in simulating gas systems and monitoring dynamically rare processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.456634

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Molecular dynamics simulation of (N2 )2 formation using the monotonic Lagrangian grid (1989)

Lambrakos, S. G. ; Boris, J. P. ; Guirguis, R. H. ; [et al.]

American Institute of Physics

In: Journal of Chemical Physics. 1989; 90(8): 4473-4481. Published 1989 Apr 15. doi: 10.1063/1.456634.

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Publication Date: 1989-04-15

Print ISSN: 0021-9606

Electronic ISSN: 1089-7690

Topics: Chemistry and Pharmacology , Physics

Published by American Institute of Physics

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Barenblatt, G. I. ; Guirguis, R. H. ; Kamel, M. M. ; [et al.]

Cambridge University Press

In: Journal of Fluid Mechanics. 1980; 99(4): 841-858. Published 1980 Aug 29. doi: 10.1017/s0022112080000936.

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Publication Date: 1980-08-29

Description: A set of self-similar solutions for blast waves associated with the deposition of variable energy at the front is presented. As a consequence of self-similarity, the results are applicable when the ambient atmosphere into which the wave front propagates is at a negligibly low pressure and temperature. Besides the class of (1) blast waves associated with energy gain that covers a regime bounded on one side by the well-known solution for adiabatic strong explosion waves (ASE) and, on the other side, by the solution for waves having the Chapman–Jouguet condition established immediately behind the front, included within the scope of our analysis are two others: (2) blast waves associated with energy loss that occupy a regime between the ASE solution and the case of infinite density ratio across the front, and (3) a non-unique class of solutions for blast waves associated with energy deposition that may have either locally sonic or supersonic flow immediately behind the front, extending over the regime between the waves headed by the Chapman-Jouguet detonation and the case of infinite rate of energy deposition. Specific results for a number of representative cases are expressed in terms of integral curves on the phase plane of reduced blast wave co-ordinates, as well as in the form of particle velocity, temperature, density, and pressure profiles across the flow field. © 1980, Cambridge University Press. All rights reserved.

Print ISSN: 0022-1120

Electronic ISSN: 1469-7645

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Published by Cambridge University Press

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A barely implicit correction for flux-corrected transport (1987)

Patnaik, G. ; Guirguis, R. H. ; Oran, E. S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: In virtue of adding one elliptic equation that must be implicitly solved, the 'barely implicit correction' method presented removes the stringent sidestep limit imposed by sound speed in the explicit methods. The barely implicit method is presently combined with a flux-corrected transport algorithm, which has been rendered fourth-order by the appropriate subtraction of corrected fluxes, in order to accurately represent the sharp gradients in subsonic flows. The multigrid MGRID technique (DeVore, 1984) is used to efficiently solve the elliptic pressure equation.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Journal of Computational Physics (ISSN 0021-9991); 71; 1-20

Format: text

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Implicit flux-corrected transport scheme for low-speed flow (1987)

Patnaik, G. ; Oran, E. S. ; Guirguis, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A new high-order nonlinear Eulerian convection algorithm, the barely implicit correction (BIC)-FCT method, is presented. The BIC-FCT makes it possible to perform accurate, multidimensional, slow-flow calculations in which the fluid expansion is important. Owing to its low cost even in two dimensions, fairly detailed chemistry models and other physical processes can be included. Areas of BIC-FCT applicability include premixed flames, diffusion flames, and turbulent jet flames.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 87-0482

Format: text

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Kamel, M. M. ; Oppenheim, A. K. ; Guirguis, R. H.

In: Other Sources

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Publication Date: 2019-06-28

Description: The present investigation is concerned with the development of a systematic approach to the problem of self-similar blast waves incorporating nonsteady flames. The regime covered by the presented solutions is bounded on one side by an adiabatic strong explosion and, on the other, by deflagration propagating at an infinite acceleration. Results for a representative set of accelerations are displayed, taking into account the full range of propagation speeds from zero to velocities corresponding to the Chapman-Jouguet deflagration. It is found that the distribution of stored energy in the undisturbed medium determines the acceleration of the deflagration-shock wave system. The obtained results reveal the existence of a simple relation between the location of the deflagration and its Mach number.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

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