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Dr. Kazem Hejranfar

Professor

Ph.D. in Mechanical Engineering,
University of Tehran, Iran, 2002.
MS at University of Tehran, Iran, 1995.
BS at Ferdowsi University of Mashhad (FUM), Iran, 1991.

Last updated: Saturday, June 22nd, 2024

Research Interests and Activities

 

  Computational Fluid Dynamics

  Hypersonic Reacting Flows

  Rotary Wing Aerodynamics

  Multi-Phase / Cavitating Flows

  Fluid-Solid Interaction (FSI)

Publications

 
Journal Papers

1. K. Hejranfar and M. Aboutalebi, "Computation of three-dimensional incompressible flows using high-order weighted essentially nonoscillatory finite-difference lattice Boltzmann method" Accepted for publication in Physics of Fluids, 2024.

2. H. Hashemi Nasab, K. Hejranfar and M.H Azampour, "Application of arbitrary Lagrangian–Eulerian unstructured finite volume lattice Boltzmann method to simulate compressible viscous flows over moving bodies," Meccanica, 2023.

3. Ezzatneshan, E., and Hejranfar, K., "An unstructured preconditioned central difference finite volume multiphase Euler solver for computing inviscid cavitating flows over arbitrary two- and three-dimensional geometries," Computers & Mathematics with Applications, Vol. 143, 2023.

4. Hajihassanpour, M. and Hejranfar, K., "A high-order nodal discontinuous Galerkin method for simulation of three-dimensional non-cavitating/cavitating flows," Finite Elements in Analysis & Design, Vol. 200, 2022.

5. Rahmani, S. and Hejranfar, K. "Numerical study of shock-disturbances interaction in hypersonic inviscid flows with real gas effects using high-order WENO scheme," Computers & Fluids, Vol. 229, 2021.

6. K. Hejranfar, H. Hashemi Nasab and M.H Azampour, "Arbitrary Lagrangian-Eulerian unstructured finite volume lattice Boltzmann method for computing 2D compressible inviscid flows over moving bodies," Physical Review E, Vol. 101, 2020.

7. Parseh, K. and Hejranfar, K., "Unsteady preconditioned characteristic boundary conditions for direct numerical simulation of incompressible flows," AIAA Journal, 2020.

8. Hejranfar, K. and Ghaffarian, A., "A high-order accurate unstructured spectral difference lattice Boltzmann method for computing inviscid and viscous compressible flows," Aerospace Science and Technology, Vol. 98, 2020.

9. Hajihassanpour, M. and Hejranfar, K., "A high-order nodal discontinuous Galerkin method to solve preconditioned multiphase Euler/Navier-Stokes equations for inviscid/viscous cavitating flows," International Journal for Numerical Methods in Fluids, 2019.

10. Sadri, M., Hejranfar, K. and Ebrahimi, M., "A numerical study on fluid flow and acoustic characteristics of a supersonic impinging jet using vorticity confinement," Acta Acustica united with Acustica, Vol. 135, 2019.

11. Hajihassanpour, M. and Hejranfar, K., "An implicit dual-time stepping high-order nodal discontinuous Galerkin method for solving incompressible flows on triangle elements," Mathematics and Computers in Simulation, Vol. 168, 2019.

12. Ghaffarian, A., Hejranfar, K., "An implicit dual-time stepping spectral difference lattice Boltzmann method for simulation of viscous compressible flows on structured meshes," Meccanica, Vol. 54, 2019.

13. Hejranfar, K. and Rahmani, S., "Numerical simulation of shock-disturbances interaction in high-speed compressible inviscid flow over a blunt nose using weighted essentially non-oscillatory scheme," Wave Motion, Vol. 88, 2019.

14. Ezzatneshan, E., and Hejranfar, K., "Simulation of three-dimensional incompressible flows in generalized curvilinear coordinates using a high-order compact finite-difference lattice Boltzmann method," International Journal for Numerical Methods in Fluids, Vol. 89, 2019.

15. Hejranfar, K. and Rahmani, S., "An assessment of shock-disturbances interaction considering real gas effects," ASME, Journal of Fluid Engineering, Vol. 141(1), 2018.

16. Sadri, M., Hejranfar, K. and Ebrahimi, M., Prediction of fluid flow and acoustic field of a supersonic jet using vorticity confinement, Journal of the Acoustical Society of America, Vol. 144, 2018.

17. Parseh, K. and Hejranfar, K., "Development of a high-order compact finite-difference total Lagrangian method for nonlinear structural dynamic analysis," Applied Mathematical Modelling, Vol. 63, 2018.

18. Hejranfar, K. and M.H., Saadat, Preconditioned WENO finite-difference lattice Boltzmann method for simulation of incompressible turbulent flows, Computers & Mathematics with Applications, Vol. 76, 2018.

19. Hejranfar, K. and Ebrahimi, M., Sadri, M., "On coarse grids simulation of compressible mixing layer flows using vorticity confinement," ASME, Journal of Fluid Engineering, Vol. 40, 2018.

20. Parseh, K. and Hejranfar, K., "Assessment of characteristic boundary conditions based on the artificial compressibility method in generalized curvilinear coordinates for solution of the Euler equations," Computational Methods in Applied Mathematics, Vol. 18, 2017.

21. Hejranfar, K., and Hajihassanpour, M., "A high-order nodal discontinuous Galerkin method for solution of compressible non-cavitating and cavitating flows," Computers & Fluids, Vol. 156, 2017.

22. Hejranfar, K. and Parseh, K., "Preconditioned characteristic boundary conditions based on artificial compressibility method for solution of incompressible flows," Journal of Computational Physics, Vol. 345, 2017.

23. Hejranfar, K. and Parseh, K., "Application of a preconditioned high-order accurate artificial compressibility-based incompressible flow solver in wide range of Reynolds numbers," International Journal for Numerical Methods in Fluids, 2017. pp. 1-32.

24. Hejranfar, K. and Saadat, M.H. and Taheri, S., High-order weighted essentially nonoscillatory finite difference formulation of lattice Boltzmann method in generalized curvilinear coordinates, Physical Review E, Vol. 95, 2017.

25. Hejranfar, K., and Hajihassanpour, M., Chebyshev collocation spectral lattice Boltzmann method in generalized curvilinear coordinates, Computers & Fluids, Vol. 146, 2017.

26. Manshadi, M.D., Hejranfar, K., Farajollahi, A.H., Effect of vortex generators on hydrodynamic behavior of an underwater axisymmetric hull at high angles of attack, Journal of Visualization, 2017.

27. Rouzbahani, F., Hejranfar, K., A truly incompressible smoothed particle hydrodynamics based on artificial compressibility method, Computer Physics Communications, Vol. 210, 2017.

28. Hejranfar, K., and Azampour, M-H., Simulation of 2D fluid-structure interaction in inviscid compressible flows using a cell-vertex central difference finite volume method, Journal of Fluids and Structures, Vol. 67, 2016.

29. Hejranfar, K. and Ghaffarian, A, A spectral difference lattice Boltzmann method for solution of inviscid compressible flows on structured grids, Computers & Mathematics with Applications, Vol. 72, 2016.

30. Ghadimi, M., Farshchi, M. and Hejranfar, K., On spatial filtering of flow variables in high-order finite volume methods, Computers & Fluids, Vol. 132, 2016.

31. Hejranfar, K. and Ezzatneshan, E., Simulation of two-phase liquid-vapor flows using a high-order compact finite-difference lattice Boltzmann method, Physical Review E, Vol. 92, 2015.

32. Hejranfar, K. and Parseh, K., Numerical simulation of structural dynamics using a high-order compact finite-difference scheme, Applied Mathematical Modelling, Vol. 40, 2015.

33. Hejranfar, K., Ezzatneshan, E. and Fattah-Hesari, K., A comparative study of two cavitation modeling strategies for simulation of inviscid cavitating flows, Ocean Engineering, Vol. 108, 2015.

34. Sadri, M., Hejranfar, K. and Ebrahimi, M., On application of high-order compact finite-difference schemes to compressible vorticity confinement method, Aerospace Science and Technology, Vol. 46, 2015.

35. Hejranfar, K., and Azampour, M-H., Assessment of cell-centered and cell-vertex finite volume approaches for computation of 2D structural dynamics on arbitrary quadrilateral grids, CMES: Computer Modeling in Engineering & Sciences, Vol. 106, 2015.

36. Hejranfar, K., and Hajihassanpour, M., Chebyshev collocation spectral lattice Boltzmann method for simulation of low-speed flows, Physical Review E, Vol. 91, 2015.

37. Hejranfar, K. and Ezzatneshan, E., "Implementation of a high-order compact finite-difference lattice Boltzmann method in generalized curvilinear coordinates," Journal of Computational Physics, Vol. 267, 2014. pp. 28-49.

38. Hejranfar, K. and Ezzatneshan, E., "A high-order compact finite-difference lattice Boltzmann method for simulation of steady and unsteady incompressible flows," International Journal for Numerical Methods in Fluids, 2014.

39. Najafi, M., Hejranfar, K. and Esfahanian, V., "Application of a shock-fitted spectral collocation method For computing transient high-speed inviscid flows over a blunt nose," Journal of Computational Physics, Vol. 257, 2014, pp. 954-980.

40. Hejranfar, K. and Kamali Moghadam, R., "Preconditioned characteristic boundary conditions for solution of the preconditioned Euler equations atlow Mach number flows," Journal of Computational Physics, Vol. 231, 2012, pp. 4384-4402.

41. Hejranfar, K., Esfahanian, V. and Kamali-Moghadam, R.,"Dual-code solution procedure for efficient computing equilibrium hypersonic axisymmetric transitional/turbulent flows," Aerospace Science and Technology, 2012.

42. Hejranfar, K. and Kamali Moghadam, R., "Assessment of three preconditioning schemes for solution of the 2D Euler equations at low Mach number flows," International Journal for Numerical Methods in Engineering, 2011.

43. Hejranfar, K. and Fattah Hessary, K., "Assessment of a central difference finite volume scheme for modeling of cavitating flows using preconditioned multiphase Euler equations," Journal of Hydrodynamic, Vol. 23, No. 3, 2011.

44. Mahmoodi Darian, H., Esfahanian, V. and Hejranfar, K., "A Shock-detecting sensor for filtering of high-order compact finite difference schemes," Journal of Computational Physics, Vol. 230, 2011, pp. 494-514.

45. Hejranfar, K. and Khajeh Saeed, A., "Implementing a high-order accurate implicit operator scheme for solving steady incompressible viscous flows using artificial compressibility method," International Journal for Numerical Methods in Fluids, 2010.

46. Esfahanian, V. and Akbarzadeh, P. and Hejranfar, K., "An improved progressive preconditioning method for steady non-cavitating and sheet-cavitating flows," International Journal for Numerical Methods in Fluids, 2010.

47. Hejranfar, K., Esfahanian, V. and Najafi, M., "On the outflow conditions for spectralsSolution of the viscous blunt-body problem," Journal of Computational Physics, Vol. 228, 2009, pp. 3936-3972.

48. Hejranfar, K., Moghadam, R. K. and Esfahanian, V., "Dual-code solution procedure for efficient computing equilibrium hypersonic axisymmetric laminar flows," Aerospace Science and Technology, Vol.12, Issue 2, March 2008, pp. 135-149.

49. Hejranfar, K., Esfahanian, V. and Mahmoodi Darian, H., "On the use of high-order accurate solutions of PNS schemes as basic flows for stability analysis of hypersonic axisymmetric flows," ASME Journal of Fluids Engineering, Vol. 129, No. 10, pp. 1328-1338, Oct. 2007.

50. Esfahanian, V., Hejranfar, K., and Mahmoodi Darian, H., "Implementation of high-order compact finite-difference method to parabolized Navier-Stokes schemes," International Journal for Numerical Methods in Fluids, 2007.

51. Esfahanian, V. and Hejranfar, K., "Accuracy of parabolized Navier-Stokes schemes for stability analysis of hypersonic axisymmetric flows," AIAA Journal, Vol. 40, No. 6, June 2002, pp.1311-1322.

52. Esfahanian, V., Hejranfar, K. and Sabetghadam, F., "Linear and nonlinear PSE for stability analysis of the Blasius boundary layers using compact scheme," ASME Journal of Fluids Engineering, Vol. 123, Sept. 2001, pp. 545-550.

53. Esfahanian, V., Azimi, A., and Hejranfar, K., "Practical prediction of supersonic viscous flows over complex configurations using personal computers," Journal of Spacecraft and Rockets, Vol. 38, No. 5, Sept.-Oct. 2001, pp.795-798.

Conference Papers

1. Mortezazade, M., Hejranfar, K., "Simulation of Incompressible Multiphase Flows using the Artificial Compressibility Method," Proceedings of the ASME 2018, 5th Joint US-European Fluids Engineering Summer Conference (FEDSM2018), July 15-20, 2018, Montreal, Quebec, Canada.

2. Karbalaei, A., Hejranfar, K., "A Central Difference Finite Volume Lattice Boltzmann Method for Simulation of 2D Inviscid Compressible Flows on Triangular Meshes," Proceedings of the ASME 2018 International Mechanical Engineering Congress and Exposition IMECE2018, Nov. 9-15, 2018, Pittsburgh, PA, USA.

3. Hejranfar, K., Ezzatneshan E. and Fattah Hesary K., "A Comparative Study of Two Cavitation Modeling Strategies for Simulation of Inviscid Cavitating Flows," Proceedings of the 8th International Symposium on Cavitation, CAV2012, Aug. 2012, Singapore.

4. Hejranfar, K. and Kamali Moghadam, R., "A Comparative Study of Two Preconditioners for Solving 3D Inviscid Low Speed Flows," The 2010 International Conference on Mechanical and Aerospace Engineering (ICMAE 2010), Nov., 2010, Kuala Lumpur, Malaysia.

5. Hejranfar, K. and Kamali Moghadam, R., "A Preconditioned Euler Flow Solver for Simulation of Helicopter Rotor Flow in Hover," The Sixth International Conference on Computational Fluid Dynamics (ICCFD6), July, 2010, St. Petersburg, Russia.

6. Hejranfar, K., Najafi, M. and Esfahanian, V., "Receptivity of Hypersonic Flow over Blunt-Noses to Freestream Disturbances using Spectral Methods," The Sixth International Conference on Computational Fluid Dynamics (ICCFD6), July, 2010, St. Petersburg, Russia.

7. Hejranfar, K., Mohafez, M. H. and Khajeh-Saeed, A., "High-Order Accurate Numerical Solution of Incompressible Slip Flow and Heat Transfer in Microchannels," International Conference on Spectral and High Order Methods, June 22-26, 2009, Trondheim, Norway.

8. Najafi, M., Hejranfar, K. and Esfahanian, V., "Explicit Evolution Balancing Domain Decomposition for Spectral Collocations," International Conference on Spectral and High Order Methods, June 22-26, 2009, Trondheim, Norway.

9. Hejranfar, K. and Fattah Hesary K., "Assessment of a Central Difference Finite Volume Scheme for Modeling of Cavitating Flows Using Preconditioned Multiphase Euler Equations," The 7th International Symposium on Cavitation, CAV2009, Aug. 2009, Ann Arbor, Michigan, USA.

10. Hejranfar, K., Ezzatneshan E. and Fattah Hesary K., "A dual-time implicit preconditioned Navier-Stokes method for solving 2D steady/unsteady laminar cavitating/noncavitating flows using a Barotropic model," The 7th International Symposium on Cavitation, CAV2009, Aug. 2009, Ann Arbor, Michigan, USA.

11. Hejranfar, K. and Khajeh Saeed, A., "A High-Order Accurate Implicit Operator Scheme for Solving Incompressible Viscous Flows Using Artificial Compressibility Method," The Fifth International Conference on Computational Fluid Dynamics (ICCFD5), July, 2008, Seoul, Korea.

12. Hejranfar, K. and Azampour, M. H., "A Dual-Time Implicit Upwind Scheme for Computing Three-Dimensional Unsteady Compressible Flows Using Unstructured Moving Grids," The Fifth International Conference on Computational Fluid Dynamics (ICCFD5), July, 2008, Seoul, Korea.

13. Hejranfar, K. and Mohammadi, M., "A Coupled Prescribed Wake-Euler Solver for Efficient Computing Helicopter Rotor Flows in Hover," Proceedings of the 25th International Congress of the Aeronautical Sciences, ICAS2006, Hamburg, Sept. 2006.

14. Hejranfar, K., Esfahanian, V. and Moghadam, R. K., "Dual-Code Solution Procedure for Efficient Computing Equilibrium Hypersonic Axisymmetric Transitional/Turbulent Flows," Proceedings of the 25th International Congress of the Aeronautical Sciences, ICAS2006, Hamburg, Sept. 2006.

15. Esfahanian, V., Hejranfar, K. and Mahmoodi Darian, H., "Implementation of High-Order Compact Finite-Difference Method to Iterative Parabolized Navier-Stokes Equations," Proceedings of the 25th International Congress of the Aeronautical Sciences, ICAS2006, Hamburg, Sept. 2006.

16. Esfahanian, V., Hejranfar, K. and Mahmoodi Darian, H., "Implementation of High-Order Compact Finite-Difference Method to Parabolized Navier-Stokes Equations," Proceedings of the 12th Computational Fluid Dynamics Conference, Canada, 2004.

17. Hejranfar, K., Esfahanian, V. and Moghadam, R. K., "Computation of Hypersonic Axisymmetric Flows of Equilibrium Gas over Blunt Bodies," Proceedings of the 12th Computational Fluid Dynamics Conference, Canada, 2004.

18. Esfahanian, V., Sabetghadam, F., and Hejranfar, K., "Calculation of Turbulent Parameters in Transition Zone Using Nonlinear PSE Approach, Proceeding of the 9th Asian Congress of Fluid Mechanics, Iran, May 2002.

19. Esfahanian, V., Sabetghadam, F., and Hejranfar, K., "Analysis of Turbulent Behavior of Transitional Incompressible Flow Using Nonlinear PSE, Proceedings of the 6th Engineering Systems Design and Analysis Conference, Turkey, July 2002.

20. Esfahanian, V., Azimi, A., and Hejranfar, K., "Practical Prediction of Supersonic Viscous Flows over Complex Configurations Proceedings of the 8th Computational Fluid Dynamics Conference, Canada, June 2000.

21. Esfahanian, V. and Hejranfar, K., "Computation and Transition Prediction of Hypersonic Axisymmetric Flow Using IPNS model, European Congress on Computational Methods in Applied Sciences and Engineering, Spain, Sept. 2000.

22. Esfahanian, V., Hejranfar, K. and Sabetghadam, F., "Linear and Nonlinear PSE for Stability Analysis of Incompressible Boundary Layers Using Compact Scheme," Proceedings of the 7th Computational Fluid Dynamics Conference, Canada, May 1999.

23. Esfahanian, V. and Hejranfar, K., "The Accuracy of PNS Equations as a Basic Flow for Stability Analysis of Laminar Flow over a Blunt Cone," Proceedings of the 6th Computational Fluid Dynamics Conference, Canada, June 1998.

Courses Taught

 
Undergraduate

  Fluid Mechanics I

  Heat Transfer I

  Aerodynamics of the Helicopter

Graduate

  Viscous Fluid Flow

  Convective Heat Transfer

  Computational Fluid Dynamics I

  Computational Fluid Dynamics II

  Numerical Grid Generation

Contact

 

Phone: (+98) 21 6616 8164

Fax: (+98) 21 6602 2731

Email: khejran sharif.edu

Google Scholar: https://scholar.google.com/citations?user=3qtiYusAAAAJ&hl=en&oi=ao


Sharif University of Technlogy
Department of Aerospace Engineering
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