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Physics of fluids
Verlag
AIP
URL
https://ld.zdb-services.de/resource/241528-8
ISSN
0031-9171
ZDBID
241528-8
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Symmetry Analysis of Renormalization Group Approach for Analysis of Unsteady Turbulence
Heat and Mass Transfer in Conical Gaps with Disks Rotating: An Asymptotic Analytical Solution for high Prandtl and Schmidt Numbers
Study of Nanofluid Flow in a Stationary Cone-Disk System with Temperature-Dependent Viscosity and Thermal Conductivity
Self-Similar Analysis of Gas Dynamics for van der Waals Gas in Slipping Flow after Normal Shock Wave
Erratum: An Asymptotic Expansion Method vs a Self-Similar Solution for Convective Heat Transfer in Rotating Cone-Disk Systems (Phys. Fluids (2022) 34 (103610) DOI: 10.1063/5.0120922)
An Improved Asymptotic Expansion Method for Fluid Flow and Convective Heat Transfer in Cone-and-Disk Geometries with Rotating Cone
An Analytical Solution for Convective Heat Transfer in Conical Gaps with either Cone or Disk Rotating
Simulation of the Lubricant Flow in thin Slot Channels with a Moving Wall Under Slip Boundary Conditions
Analytical Simulation of Normal Shock Waves in Turbulent Flow
An Asymptotic Expansion Method vs a Self-Similar Solution for Convective Heat Transfer in Rotating Cone-Disk Systems
Application of Prandtl, von Kármán, and Lattice Boltzmann methods to Investigations of Turbulent Slip Incompressible Flow in a Flat Channel
Self-similar Analysis of Fluid Flow, Heat, and Mass Transfer at Orthogonal Nanofluid Impingement onto a Flat Surface
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Publikationen
Symmetry Analysis of Renormalization Group Approach for Analysis of Unsteady Turbulence
Heat and Mass Transfer in Conical Gaps with Disks Rotating: An Asymptotic Analytical Solution for high Prandtl and Schmidt Numbers
Study of Nanofluid Flow in a Stationary Cone-Disk System with Temperature-Dependent Viscosity and Thermal Conductivity
Self-Similar Analysis of Gas Dynamics for van der Waals Gas in Slipping Flow after Normal Shock Wave
Erratum: An Asymptotic Expansion Method vs a Self-Similar Solution for Convective Heat Transfer in Rotating Cone-Disk Systems (Phys. Fluids (2022) 34 (103610) DOI: 10.1063/5.0120922)
An Improved Asymptotic Expansion Method for Fluid Flow and Convective Heat Transfer in Cone-and-Disk Geometries with Rotating Cone
An Analytical Solution for Convective Heat Transfer in Conical Gaps with either Cone or Disk Rotating
Simulation of the Lubricant Flow in thin Slot Channels with a Moving Wall Under Slip Boundary Conditions
Analytical Simulation of Normal Shock Waves in Turbulent Flow
An Asymptotic Expansion Method vs a Self-Similar Solution for Convective Heat Transfer in Rotating Cone-Disk Systems
Application of Prandtl, von Kármán, and Lattice Boltzmann methods to Investigations of Turbulent Slip Incompressible Flow in a Flat Channel
Self-similar Analysis of Fluid Flow, Heat, and Mass Transfer at Orthogonal Nanofluid Impingement onto a Flat Surface
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