Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi

COŞKUN, Korhan; TOKER, Atılgan; TINAZTEPE, Tuğrul; Aksel, M. Haluk

Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi

Yürütücü

M. Haluk Aksel (Orta Doğu Teknik Üniversitesi, Makina Mühendisliği Bölümü, Ankara, Türkiye)

Araştırmacı(lar)

Korhan COŞKUN, (Orta Doğu Teknik Üniversitesi, Makina Mühendisliği Bölümü, Ankara, Türkiye)

Atılgan TOKER, (Orta Doğu Teknik Üniversitesi, Makina Mühendisliği Bölümü, Ankara, Türkiye)

Tuğrul TINAZTEPE (Orta Doğu Teknik Üniversitesi, Makina Mühendisliği Bölümü, Ankara, Türkiye)

4 2

Proje Grubu: MAG Sayfa Sayısı: 120 Proje No: 104M429 Proje Bitiş Tarihi: 01.07.2008 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022

Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi

Öz:

Anahtar Kelime:

Erişim Türü: Erişime Açık

ADALSTEINSSON, D. and SETHIAN, J. A., The Fast Construction of Extension Velocities in Level Set Methods, J. of Comp. Phys. 148, 2-22, (1999).
ADALSTEINSSON, D. and SETHIAN, J. D., Transport and Diffusion of Material Quantities on Propagating Interfaces Via Level Set Methods, J. of Comp. Phys., 185, 271-288, (2003).
ANDERSON, W. K. and BONHAUS, D. L., An Implicit Upwind Algorithm for Computing Turbulent Flows on Unstructured Grids, Computers & Fluids, 23, 1-21, (1994).
ALAVILLI, P., TAFTI, D. and NAJJAR, F., The Development of an Advanced Solid-Rocket Flow Simulation: Program ROCFLO, AIAA-2000-0824, (2000).
ALIABADI, S., and TEZDUYAR, T., Stabilized-finite-element / Interface-Capturing Technique for Parallel Computation of Unsteady Flows with Interfaces, Comp. Meth. Appl. Mech. Eng., 190, 243-261, (2000).
ASHGRIZ, N. and POO, J. Y., FLAIR-Flux Line Segment Model for Advection and Interface Reconstruction, J. of Comp. Phys., 93, 449-48, (1991).
BARRERE, M., JOUMATTE, A. and VANDENKERKHOVE, J., Rocket Propulsion, The Advisory Group for Aeronautical Research and Development of NATO, New York, (1960). Pp: 828.
BARTH, T. J., A 3-D Upwind Euler Solver for Unstructured Meshes, AIAA Paper 91-1548, (1991).
BARTH, T. and SETHIAN J.A., Numerical Schemes for the Hamilton-Jacobi and Level Set Equations on Triangulated Domains, J. of Comp. Phy. 145, 1-40, (1998).
BARTH, T. J. and JESPERSEN, D. C., The Design and Application of Upwnd Schemes on Unstructured Meshes, AIAA Paper 89-0366, (1989).
BRACKBILL, J. U., A Continuum Method for Modeling Surface Tension, J. of Comp. Phys., 100, 335-354, (1992).
BRACKBILL, J. U. and RUPPEL H. M., FLIP: a Method for Adoptively Zoned, Particle-In-Cell Calculations in Two-dimensions, J. of Comp. Phys., 65, 314-343, (1986).
CAMACHO, G. T. and ORTIZ, M., Adaptive Lagrangian Modeling of Ballistic Penetration of Metallic Targets, Comp. Meth. App. Mech. Eng., 142, 269-301, (1997).
CHRISTODOULOU, K. N. and SCRIVEN, L. E., Discretization of Free Surface Flows and Other Moving Boundary Problems, J. of Comp. Phys., 99, 39-55, (1992).
CRISTINI, V., BLAWSDEZIEWICZ, J. and LOEWENBERG M., An Adaptive Mesh Algorithm for Evolving Surfaces: Simulations of Drop Break-up and Coalescence, J. of Comp. Phys., 168, 445-463, (2001).
CRUCHAGA, M., CELENTANO, D. and TEZDUYAR, T., Computation of Mould Filling Processes with a Moving Lagrangian Interface Technique, Comm. Num. Meth. Eng., 18, 483-493, (2002).
DAI, M. and WANG, H., A Numerical Method for Interface Tracking ILASS 15th Annual Conference on Liquid Atomization and Spray Systems, (2002).
DAVENAS, A., Solid Rocket Propulsion Technology, Pergamon Press, (1993).
DELANAYE, M., Polynomial Reconstruction Finite Volume Schemes for the Compressible Euler and Navier-Stokes Equations on Unstuctured Adaptive Grids, (Ph. D. Thesis), The University of Liege, Belgium, (1996).
DUNN, S. S. and COATS, D. E., 3-D Grain Design and Ballistic Analysis Using the SPP97 Code, AIAA 97-3340, (1997).
FYFE, D. E., ORAN, E. S. and FRITTS M. J., Surface Tension and Viscosity with Lagrangian Hydrodynamics on a Triangular Mesh, J. Comput. Phys., 76, 349-384, (1988).
GLIMM, J., GROVE, J. W., LI, X. L. and TAN, D. C., Robust Computational Algorithms for Dynamic Interface Tracking in Three Dimensions, SIAM J. Sci. Comput., 21, 2240-2256, (2000).
GLIMM, J., GROVE, J. W., LI, X. L., SHYUE, K. M., ZHANG, Q. and ZENG Y., Three-dimensional Front Tracking, SIAM J. Sci. Comput., 19, 703-727, (1998).
GOLDSTEIN, D., HANDLER, R. and SIROVICH, L., Modeling a No-slip Flow Boundary with an External Force Field, J. of Comp. Phys., 105, 354, (1993).
HASELBACHER, A. And BLAZEK, J., On the Accurate and Efficient Discretisation of the Navier-Stokes Equations on Mixed Grids”, AIAA Journal, 38, 2094-2102, (2000).
HEJL, R. J. and HEISTER, S. D., Solid Rocket Motor Grain Burnback Analysis Using Adaptive Grids, J. of Propulsion and Power, 11, 1006-1011, (1995).
HIRT, C. W., AMSDEN, A. A. and COOK, J. L., An Arbitrary Lagrangian-Eulerian Computing Method for All Speeds, J. of Comp. Phys., 227-253, (1974).
HIRT, C. W. and NICHOLS, B. D., Volume of Fluid (VOF) Method for the Dynamics of Free Boundaries, J. of Comp. Phys., 39, 201-225, (1981).
HOU, T. Y., Numerical Solutions to Free Boundary Problems, Acta Numerica, 335-415, (1995).
HYMAN, J. M., Numerical Methods for Tracking Interfaces, Physica D, 12, 396-407, (1984).
JAMESON, A., Solution of the Euler Equations for Two-Dimensional Transonic Flow by a Multigrid Method," Princeton Uni., MAE Report No. 1613, (1983).
JAMESON, A. and BAKER, T. J., Multigrid Solutions of the Euler Equations for Aircraft Configurations, AIAA Paper 84-0093, AIAA 22nd Aerospace Sciences Meeting, Nevada, (1984).
JAMESON, A., SCHMIDT, W. and TURKEL, E., “Numerical Solutions of the Euler Equations by Finite Volume Methods Using Runge-Kutta Time Stepping Schemes”, AIAA Paper 81-1259, 14th Fluid and Plasma Dynamics Conference, California, (1981).
JOHNSON, R. A. and BELK, D. M., Multi-grid Approach to Overset Grid Communication, AIAA J., 33, 2305, (1995).
JURIC, D. and TRYGGVASON, G., A Front Tracking Method for Dendritic Solidification, J. of Comp. Phys., 123, 127-148, (1996).
KANO, S. and KAZUHIRO, N., Navier Stokes Computations of HSCT Off Design Aerodynamics Using Unstructured Hybrid Grids, AIAA Paper No. 98-0232,(1998).
KELECY, F. J. and PLETCHER, R. H., The Development of a Free Surface Capturing Approach for Multidimensional Free Surface Flows in Closed Containers, J. of Comp. Phys., 138, 939-980, (1997).
KIM, J., KIM, D. and CHOI, H., An Immersed-Boundary Finite-Volume Method for Simulations of Flow in Complex Geometries, J. of Comput. Fluids, 171, 132-150, (2001).
KIMMEL, R. and SETHIAN, J. A., Computing Geodesic Paths on Manifolds, Proc. Nat. Academy Sci., (1997).
KOBAYASHI, R., Modeling and Numerical Simulation of Dendritic Crystal Growth, Physica D, 3, 410-423, (1993).
KOBAYASHI, R., WARREN, J. A. and CARTER W. C., A Continuum Model of Grain Boundaries, Physica D, 140, 141-150, (2000).
KOHNO, H. and TANAHASHI, T., Numerical Analysis of Moving Interfaces Using a Level Set Method Coupled with Adaptive Mesh Refinement, Int. J. Num. Meth. Fluids, 45, 921-944, (2004).
LE BRETON, P. and RIBEREAU, D., Casting Process Impact on Small-Scale Solid Rocket Motor Ballistic Performance, J. of Propulsion and Power, 18, 1211-1217, (2002).
MACCORMACK, R. W., and PAULLAY, A. J., Computational Efficiency Achieved by Time Splitting of Finite Difference Operators, AIAA Paper, 72-154, SanDiego, (1972).
MCDONALD, P. W., The Computation of Transonic Flow Through Two-Dimensional Gas Turbine Cascades, ASME Paper, 71-GT-89, (1971).
MONAGHAN, J. J., Simulating Free Surface Flows with SPH, J. of Comp. Phys., 110, 399-406, (1994).
MARONNIER, V., PICASSO, M. and RAPPAZ, J., “Numerical Simulation of Three-dimensional Free Surface Flows”, Int. J. Num. Meth. Fluids, 42, 697-716, (2003).
NAKAYAMA T., MORI M., “An Eulerian Finite Element Method for Time-dependent Free Surface Problems in Hydrodynamics” Int. J. Num. Meth. Fluids, vol: 22, pp. 175-194, (1996).
NI, R. H., “A Multiple-Grid Scheme for Solving the Euler Equations”, AIAA Journal, 20, 1565-1571, (1982),
OKAMOTO, T. and KAWAHARA, M., Two-dimensional Sloshing Analysis by Lagrangian Finite Element Method, Int. J. Num. Meth. Fluids, 11, 453-477, (1990).
OSHER, S. and FEDKIW, R. P., Level Set Methods: An overview and Some Recent Results, J. of Comp. Phys., 169, 463-502, (2001).
OSHER, S. and SETHIAN, J. A., Fronts Propagating with Curvature Dependent Speed: Algorithms Based on Hamilton-Jacobi Formulations, J. of Comp. Phys., 79, 12-49, (1988).
PESKIN, C. S., The Dynamics of Heart Valves: Experimental, Theoretical and Computational Methods, Ann. Rev. Fluid Mech., 14, 235, (1982).
POPINET, S. and ZALESKI, S., A Front Tracking Algorithm for Accurate Representation of Surface Tension, Int. J. Num. Meth. Fluids, 30, 775-793, (1999).
PUCKETT, E. G., ALMGREN, A. S., BELL, J. B., MARCUS, D. L. and RIDER W. J., A High Order Projection Method for Tracking Fluid Interfaces in Variable Density Compressible Flows, J. of Comp. Phys., 130, 269-282, (1997).
RIDER, W. J. and KOTHE, D. B., Reconstructing Volume Tracking, J. of Comp. Phys., 141, 112-152, (1998).
RIZZI, A., Damped Euler-Equation Model to Compute Transonic Flow Around Wing-Body Combinations, AIAA Journal, 20, 1321-1328, (1982).
RUDMAN, M., Volume Tracking Methods for Interfacial Flow Calculations, Int. J. Num. Meth. Fluids, 24, 671-691, (1997).
SAINTOUT, E., RIBERAU, D. and PERRIN, P., ELEA: A Tool for 3D Surface Regression Analysis in Propellant Grains", AIAA Paper No.89-2782, (1989).
SCARDOVELLI, R. and ZALESKI, S., Interface Reconstruction with Least-Square Fit and Split EulerianLagrangian Advection, Int. J. Num. Meth. Fluids, 41, 251-274, (2003).
SETHIAN, J. A., Fast Marching Methods and Level Set Methods for Propagating Interfaces”, VKI Lecture Series, 3, (1998).
SETHIAN J. A., Level Set Methods and Fast Marching Methods, Cambridge University Press, 2nd ed., (1999).
SETHIAN, J. A. and VLADIMIRSKY, A., Fast Methods for the Eikonal and Related Hamilton Jacobi Equations on Unstructured Meshes, PNAS, 97, 5699-5703, (2000).
SHAROV, D. and NAKAHASHI, K., Reordering of 3D Hybrid Unstructured Grids for Vectorized LUSGS Navier Stokes Calculations, AIAA Paper 97-2102, (1997).
SHAROV, D. and NAKAHASHI, K., Low Speed Preconditioning and LUSGS Scheme for 3D Viscous Flow Computations on Unstructured Grids, AIAA Paper No. 98-0614, (1998).
SHIN, S. and JURIC, D., Modeling Three-dimensional Multiphase Flow Using a Level Contour Reconstruction Method for Front Tracking without Connectivity, J. of Comp. Physics, 180, 427-470, (2002).
SHYY, W., UDAYKUMAR, H. S., RAO, M. and SMITH, R., Computational Fluid Dynamics with Moving Boundaries, Taylor & Francis, (1996).
SMOLIANSKI A., Finite Element/Level-Set/Operator-Splitting (FELSOS) Approach for Computing TwoFluid Unsteady Flows with Free Moving Interfaces, , (Doktora Tezi), Institute of Mathematics, University of Zurich, (1998).
STONE, M. W., A Practical Mathematical Approach to Grain Design, Jet Propulsion, 236-244, (1958).
SUKUMAR, N., CHOPP, D. L. and MORAN, B., Extended Finite Element Method and Fast Marching Method for Three-dimensional Fatigue Crack Propagation, Eng. Fracture Mech., 70, 29-48, (2003).
SUSSMAN, M., SMEREKA, P. and OSHER, S., A Level Set Approach for Computing Solutions to Incompressible Two-phase Flows, J. Comput. Phys., 114, 14-149, (1994).
SUTTON, G. P., Rocket Propulsion Elements, New York, (1992). Pp: 361.
TOMARO, R. F., STRANG, W. Z. and SANKAR, L. N., An Implicit Algorithm for Solving Time Dependent Flows on Unstructured Grids, AIAA Paper No. 97-0333, (1997).
TORRES, D. J. and BRACKBILL, J. U., The Point-set Method: Front Tracking without Connectivity, J. Comput. Phys., 165, 620-644, (2000).
TRYGGVASON, G., BUNNER, B., ESMAEELI, A. and JURIC D., A Front Tracking Method for the Computations of Multiphase Flow”, J. of Comp. Phys., 169-2, 708-759, (2001).
UDAYKUMAR, H. S., MITTAL, R. and SHYY, W., Computation of Solid-Liquid Phase Fronts in the Sharp Limit on Fixed Grids, J. of Comp. Phys., 153, 535-574, (1999).
UDAYKUMAR, H. S., SHYY, W. and RAO, M. M., ELAFINT-A Mixed Eulerian-Lagrangian Method for Fluid Flows with Complex and Moving Boundaries, Int. J. Numer. Methods Fluids, 22, 691, (1996).
UNVERDI, S. O. and TRYGGVASON, G., A Front Tracking Method for Viscous, Incompressible, Multifluid Flows, J. of Comp. Phys., 100, 25-37, (1992).
VENKATAKRISHNAN, V., On the Accuracy of Limiters and Convergence to Steady State Solutions, AIAA Paper No. 93-0880, (1993).
VENKATAKRISHNAN, V., Convergence to Steady State Solutions of Euler Equations on Unstructured Grids with Limiters, J. of Comp. Phys., 118,120-130, (1995).
WINPRESS, R. N., Internal Ballistics of Solid-Fuel Rockets, McGraw-Hill Book Company, New York, (1950). Pp: 214.
YANG, G., CAUSON, D. M. and INGRAM, D. M., Calculation of Compressible Flows about Complex Moving Geometries Using a Three-dimensional Cartesian Cut Cell Method, Int. J. Num. Meth. Fluids, 33, 1121-1151, (2000).
YOON, S and JAMESON, A., A Multigrid LU-SSOR Scheme for Approximate Newton-Iteration Applied to the Euler Equations, NASA CR-17954, (1986).
YORK, A. R., SULSKY, D. and SCHREYER, H. L., The Material Point Method for Simulation of Thin Membranes, Int. J. Numer. Meth. Eng., 44, 1429-1456, (1999)
ZARDA, P. R., Computer Aided Propulsion Burn Analysis, Martin Marietta Electronics and Missile Group, AIAA Paper No 88-3342, (1988).

APA	Aksel M, COŞKUN K, TOKER A, TINAZTEPE T (2008). Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. , 1 - 120.
Chicago	Aksel M. Haluk,COŞKUN Korhan,TOKER Atılgan,TINAZTEPE Tuğrul Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. (2008): 1 - 120.
MLA	Aksel M. Haluk,COŞKUN Korhan,TOKER Atılgan,TINAZTEPE Tuğrul Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. , 2008, ss.1 - 120.
AMA	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. . 2008; 1 - 120.
Vancouver	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. . 2008; 1 - 120.
IEEE	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T "Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi." , ss.1 - 120, 2008.
ISNAD	Aksel, M. Haluk vd. "Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi". (2008), 1-120.

APA	Aksel M, COŞKUN K, TOKER A, TINAZTEPE T (2008). Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. , 1 - 120.
Chicago	Aksel M. Haluk,COŞKUN Korhan,TOKER Atılgan,TINAZTEPE Tuğrul Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. (2008): 1 - 120.
MLA	Aksel M. Haluk,COŞKUN Korhan,TOKER Atılgan,TINAZTEPE Tuğrul Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. , 2008, ss.1 - 120.
AMA	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. . 2008; 1 - 120.
Vancouver	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi. . 2008; 1 - 120.
IEEE	Aksel M,COŞKUN K,TOKER A,TINAZTEPE T "Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi." , ss.1 - 120, 2008.
ISNAD	Aksel, M. Haluk vd. "Katı yakıtlı roket motorlarında üç boyutlu yakıt gerilemesi ile akışın modellenmesi". (2008), 1-120.