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References (34)
-
S. Masuri, Mathieu Sellier, Xiangmin Zhou, K. Tamma (2011)
Design of order‐preserving algorithms for transient first‐order systems with controllable numerical dissipationInternational Journal for Numerical Methods in Engineering, 88
-
M. Ishii (1975)
Thermo-fluid dynamic theory of two-phase flow, 75
-
Tao Xue, Xiaobing Zhang, Dong-hua Cui (2014)
Dynamic analysis of a guided projectile during engraving processDefence Technology, 10
-
R. Maccormack (1981)
A Numerical Method for Solving the Equations of Compressible Viscous FlowAIAA Journal, 20
-
P. Jorgenson, R. Chima (1988)
Explicit Runge-Kutta method for unsteady rotor/stator interactionAIAA Journal, 27
-
Tao Xue, K. Tamma, Xiaobing Zhang (2016)
A consistent Moving Particle System Simulation method: Applications to parabolic/hyperbolic heat conduction type problemsInternational Journal of Heat and Mass Transfer, 101
-
R. Gollan, I. Johnston, Brendan O'Flaherty, P. Jacobs (2007)
Development of Casbar: a Two-phase Flow Code for the Interior Ballistics Problem, 1
-
J. Butcher (1987)
The numerical analysis of ordinary differential equations: Runge-Kutta and general linear methodsMathematics of Computation, 51
-
K. Tamma, J. Har, Xiangming Zhou, M. Shimada, A. Hoitink (2011)
An Overview and Recent Advances in Vector and Scalar Formalisms: Space/Time Discretizations in Computational Dynamics—A Unified ApproachArchives of Computational Methods in Engineering, 18
-
M. Baer, J. Nunziato (1986)
A two-phase mixture theory for the deflagration-to-detonation transition (ddt) in reactive granular materialsInternational Journal of Multiphase Flow, 12
-
K. Tamma, Xiangming Zhou, D. Sha (2000)
The time dimension: A theory towards the evolution, classification, characterization and design of computational algorithms for transient/ dynamic applicationsArchives of Computational Methods in Engineering, 7
-
F. Mashayek (1998)
Direct numerical simulations of evaporating droplet dispersion in forced low Mach number turbulenceInternational Journal of Heat and Mass Transfer, 41
-
P. Cundall, O. Strack (1979)
A discrete numerical model for granular assembliesGeotechnique, 29
-
W. Tassell, H. Krier (1975)
COMBUSTION AND FLAME SPREADING PHENOMENA IN GAS-PERMEABLE EXPLOSIVE MATERIALSInternational Journal of Heat and Mass Transfer, 18
-
G. Sod (1978)
A survey of several finite difference methods for systems of nonlinear hyperbolic conservation lawsJournal of Computational Physics, 27
-
A. Hoitink, S. Masuri, Xiangming Zhou, K. Tamma (2008)
On the Precise Evaluation of Acceleration Computations for General Structural Dynamic Applications: Issues and Noteworthy Perspectives -
N. Markatos (1986)
Modelling of two-phase transient flow and combustion of granular propellantsInternational Journal of Multiphase Flow, 12
-
A. Renzo, F. Maio (2004)
Comparison of contact-force models for the simulation of collisions in DEM-based granular flow codesChemical Engineering Science, 59
-
C. Crowe (1982)
Review—Numerical Models for Dilute Gas-Particle FlowsJournal of Fluids Engineering-transactions of The Asme, 104
-
Qiao Luo, Xiaobing Zhang (2015)
Numerical simulation of gas-solid two-phase reaction flow with multiple moving boundariesInternational Journal of Numerical Methods for Heat & Fluid Flow, 25
-
S. Jaramaz, D. Micković, P. Elek (2011)
Two-phase flows in gun barrel: Theoretical and experimental studiesInternational Journal of Multiphase Flow, 37
-
(1988)
Method for determination of propellant burning law from manometric bomb experiments -
M. Shimada (2013)
iIntegration framework and algorithms by design: implicit and explicit families of generalized single step single solve algorithms by design in two- and single-field forms -
B. Shin, Y. Iwata, T. Ikohagi (2003)
Numerical simulation of unsteady cavitating flows using a homogenous equilibrium modelComputational Mechanics, 30
-
Cheng Cheng, Xiaobing Zhang (2013)
Modeling of Interior Ballistic Gas-Solid Flow Using a Coupled Computational Fluid Dynamics-Discrete Element Method.Journal of applied mechanics, 80 3
-
M. Shimada, S. Masuri, K. Tamma (2014)
Isochronous Explicit Time Integration Framework: Illustration to Thermal Stress Problems Involving Both First- and Second-Order Transient SystemsJournal of Thermal Stresses, 37
-
Kaiwei Chu, Bow-yaw Wang, A. Yu, A. Vince, Geoffrey Barnett, P. Barnett (2009)
CFD–DEM study of the effect of particle density distribution on the multiphase flow and performance of dense medium cycloneMinerals Engineering, 22
-
H. Yee, A. Harten (1987)
Implicit TVD schemes for hyperbolic conservation laws in curvilinear coordinatesAIAA Journal, 25
-
R. Lebas, T. Ménard, P. Beau, A. Berlemont, F. Demoulin (2009)
Numerical simulation of primary break-up and atomization: DNS and modelling studyInternational Journal of Multiphase Flow, 35
-
J. Dormand, P. Prince (1980)
A family of embedded Runge-Kutta formulaeJournal of Computational and Applied Mathematics, 6
-
P. Gough, F. Zwarts (1977)
Modeling Heterogeneous Two-Phase Reacting FlowAIAA Journal, 17
-
Myung-joo Kang, R. Fedkiw, Xu-Dong Liu (2000)
A Boundary Condition Capturing Method for Multiphase Incompressible FlowJournal of Scientific Computing, 15
-
Zou Rui-rong (2006)
Experimental Study and Numerical Simulation on Laser Ignition Processes -
J. Hunt (1991)
INDUSTRIAL AND ENVIRONMENTAL FLUID MECHANICSAnnual Review of Fluid Mechanics, 23
- Publisher
- Emerald Publishing
- Copyright
- © Emerald Publishing Limited
- ISSN
- 0961-5539
- DOI
- 10.1108/hff-04-2018-0173
- Publisher site
- See Article on Publisher Site
Abstract
A consistent implementation of the general computational framework of unified second-order time accurate integrators via the well-known GSSSS framework in conjunction with the traditional Finite Difference Method is presented to improve the numerical simulations of reactive two-phase flows.Design/methodology/approachIn the present paper, the phase interaction evaluation in the present implementation of the reactive two-phase flows has been derived and implemented to preserve the consistency of the correct time level evaluation during the time integration process for solving the two phase flow dynamics with reactions.FindingsNumerical examples, including the classical Sod shock tube problem and a reactive two-phase flow problem, are exploited to validate the proposed time integration framework and families of algorithms consistently to second order in time accuracy; this is in contrast to the traditional practices which only seem to obtain first-order time accuracy because of the inconsistent time level implementation with respect to the interaction of two phases. The comparisons with the traditional implementation and the advantages of the proposed implementation are given in terms of the improved numerical accuracy in time. The proposed approaches provide a correct numerical simulation implementation to the reactive two-phase flows and can obtain better numerical stability and computational features.Originality/valueThe new algorithmic framework and the consistent time level evaluation extended with the GS4 family encompasses a multitude of past and new schemes and offers a general purpose and unified implementation for fluid dynamics.
Journal
International Journal of Numerical Methods for Heat and Fluid Flow – Emerald Publishing
Published: Feb 8, 2019
Keywords: Consistent time level; Time integration; Two-phase reactive flow