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P H Gaskell

P H Gaskell

Durham University

H-index: 38

Europe-United Kingdom

Contact P H Gaskell

About P H Gaskell

P H Gaskell, With an exceptional h-index of 38 and a recent h-index of 18 (since 2020), a distinguished researcher at Durham University, specializes in the field of Fluid Mechanics, Thin Films, Turbulence, Combustion, Mathematical Modelling.

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

A new hysteresis simulation method for interpreting the magnetic properties of non-oriented electrical steels

A novel variational perturbation approach for formulating both linear and nonlinear acoustic model equations

Bilayer Couette flow over a profiled plate

Formation and evolution of vortex rings with weak to moderate swirl

An advanced, comprehensive thermochemical equilibrium model of a downdraft biomass gasifier

Gravity-driven film flow down a uniformly heated smoothly corrugated rigid substrate

A Novel Dynamic Hysteresis Model for Grain-Oriented Electrical Steels Based on Magnetic Domain Theory

A potential‐based formulation of the classical and relativistic Navier‐Stokes equations

P H Gaskell Information

University

Position

Professor of Fluid Mechanics

Citations(all)

6680

Citations(since 2020)

1550

Cited By

5730

hIndex(all)

38

hIndex(since 2020)

18

i10Index(all)

108

i10Index(since 2020)

45

Email

University Profile Page

Google Scholar

P H Gaskell Skills & Research Interests

Fluid Mechanics

Thin Films

Turbulence

Combustion

Mathematical Modelling

Top articles of P H Gaskell

Title

Journal

Author(s)

Publication Date

A new hysteresis simulation method for interpreting the magnetic properties of non-oriented electrical steels

Journal of Magnetism and Magnetic Materials

Zhi Zhang

Hamed Hamzehbahmani

PH Gaskell

2023/6/15

A novel variational perturbation approach for formulating both linear and nonlinear acoustic model equations

Mechanics Research Communications

Markus Scholle

Sara Ismail–Sutton

Philip H Gaskell

2023/11/1

Bilayer Couette flow over a profiled plate

PAMM

Markus Scholle

Philip H Gaskell

Sara Ismail–Sutton

Marcel Mellmann

2023/10

Formation and evolution of vortex rings with weak to moderate swirl

Journal of Fluid Mechanics

Rigoberto Ortega-Chavez

Lian Gan

Philip H Gaskell

2023/7

An advanced, comprehensive thermochemical equilibrium model of a downdraft biomass gasifier

Renewable Energy

A Ibrahim

S Veremieiev

PH Gaskell

2022/7/1

Gravity-driven film flow down a uniformly heated smoothly corrugated rigid substrate

Journal of Fluid Mechanics

GR Daly

PH Gaskell

S Veremieiev

2022/1

A Novel Dynamic Hysteresis Model for Grain-Oriented Electrical Steels Based on Magnetic Domain Theory

IEEE Transactions on Magnetics

Zhi Zhang

Hamed Hamzehbahmani

Philip H Gaskell

2021/11/16

A potential‐based formulation of the classical and relativistic Navier‐Stokes equations

PAMM

Markus Scholle

Florian Marner

Philip H Gaskell

2021/1

Multilayer Modelling of Lubricated Contacts: A New Approach Based on a Potential Field Description

Markus Scholle

Marcel Mellmann

Philip H Gaskell

Lena Westerkamp

Florian Marner

2020/11/24

A first integral form of the energy–momentum equations for viscous flow, with comparisons drawn to classical fluid flow theory

European Journal of Mechanics-B/Fluids

M Scholle

F Marner

PH Gaskell

2020/11/1

Potential fields in fluid mechanics: A review of two classical approaches and related recent advances

Markus Scholle

Florian Marner

Philip H Gaskell

2020/4/27

S09. 03 Boundary Layers and other Topics

Book of Abstracts

Markus Scholle

Philip H Gaskell

Florian Marner

2020/3/20

See List of Professors in P H Gaskell University(Durham University)