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Kazem Hejranfar

About Kazem Hejranfar

Kazem Hejranfar, With an exceptional h-index of 16 and a recent h-index of 12 (since 2020), a distinguished researcher at Sharif University of Technology, specializes in the field of Computational Fluid Dynamics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Application of arbitrary Lagrangian–Eulerian unstructured finite volume lattice Boltzmann method to simulate compressible viscous flows over moving bodies

An unstructured preconditioned central difference finite volume multiphase Euler solver for computing inviscid cavitating flows over arbitrary two-and three-dimensional geometries

A high-order nodal discontinuous Galerkin method for simulation of three-dimensional non-cavitating/cavitating flows

Numerical study of shock-disturbances interaction in hypersonic inviscid flows with real gas effects using high-order WENO scheme

Experimental Investigation of the Vortex Flow around an Axisymmetric Body with the Five-Hole Probe and Hot Wire Probe

A high‐order nodal discontinuous Galerkin method to solve preconditioned multiphase Euler/Navier‐Stokes equations for inviscid/viscous cavitating flows

Unsteady preconditioned characteristic boundary conditions for direct numerical simulation of incompressible flows

A high-order accurate unstructured spectral difference lattice Boltzmann method for computing inviscid and viscous compressible flows

Kazem Hejranfar Information

University

Position

Aerospace Engineering Department

Citations(all)

735

Citations(since 2020)

425

Cited By

546

hIndex(all)

16

hIndex(since 2020)

12

i10Index(all)

27

i10Index(since 2020)

17

Email

University Profile Page

Google Scholar

Kazem Hejranfar Skills & Research Interests

Computational Fluid Dynamics

Top articles of Kazem Hejranfar

Application of arbitrary Lagrangian–Eulerian unstructured finite volume lattice Boltzmann method to simulate compressible viscous flows over moving bodies

Meccanica

2023/12

Hossein Hashemi Nasab
Hossein Hashemi Nasab

H-Index: 1

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

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

2023

Eslam Ezzatneshan
Eslam Ezzatneshan

H-Index: 6

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

A high-order nodal discontinuous Galerkin method for simulation of three-dimensional non-cavitating/cavitating flows

Finite Elements in Analysis and Design

2022/3/1

Mahya Hajihassanpour
Mahya Hajihassanpour

H-Index: 4

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

Numerical study of shock-disturbances interaction in hypersonic inviscid flows with real gas effects using high-order WENO scheme

Computers & Fluids

2021/10/30

Saman Rahmani
Saman Rahmani

H-Index: 2

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

Experimental Investigation of the Vortex Flow around an Axisymmetric Body with the Five-Hole Probe and Hot Wire Probe

2020/5/20

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

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

2020/5

Mahya Hajihassanpour
Mahya Hajihassanpour

H-Index: 4

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

Unsteady preconditioned characteristic boundary conditions for direct numerical simulation of incompressible flows

AIAA Journal

2020/4

Kaveh Parseh
Kaveh Parseh

H-Index: 3

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

A high-order accurate unstructured spectral difference lattice Boltzmann method for computing inviscid and viscous compressible flows

Aerospace Science and Technology

2020/3/1

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

Arbitrary Lagrangian-Eulerian unstructured finite-volume lattice-Boltzmann method for computing two-dimensional compressible inviscid flows over moving bodies

Physical Review E

2020/2/18

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

Hossein Hashemi Nasab
Hossein Hashemi Nasab

H-Index: 1

An implicit dual-time stepping high-order nodal discontinuous Galerkin method for solving incompressible flows on triangle elements

Mathematics and Computers in Simulation

2020/2/1

Kazem Hejranfar
Kazem Hejranfar

H-Index: 12

See List of Professors in Kazem Hejranfar University(Sharif University of Technology)