CUFinder

Michael G Edwards

Michael G Edwards

Swansea University

H-index: 31

Europe-United Kingdom

About Michael G Edwards

Michael G Edwards, With an exceptional h-index of 31 and a recent h-index of 15 (since 2020), a distinguished researcher at Swansea University, specializes in the field of Computational Methods, Reservoir Simulation, Porous Media, Numerical Methods, CFD.

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

A nonlinear repair technique for the MPFA-D scheme in single-phase flow problems and heterogeneous and anisotropic media

Higher Resolution Unstructured Spectral Finite-volume Methods for Polymer-flooding Simulations in Porous and Fractured Media

An algebraic multiscale solver for the simulation of two-phase flow in heterogeneous and anisotropic porous media using general unstructured grids (AMS-U)

Investigation of hydraulic fracture branching in porous media with a hybrid finite element and peridynamic approach

A state-of-the-art review of crack branching

Acute PEBI Grid Generation for Reservoir Geometries

Higher resolution hybrid-upwind spectral finite-volume methods, for flow in porous and fractured media on unstructured grids

Three-dimensional unstructured gridding for complex wells and geological features in subsurface reservoirs, with CVD-MPFA discretization performance

Michael G Edwards Information

University

Position

___

Citations(all)

3768

Citations(since 2020)

943

Cited By

3212

hIndex(all)

31

hIndex(since 2020)

15

i10Index(all)

67

i10Index(since 2020)

28

Email

Access Email

University Profile Page

Swansea University

Google Scholar

View Google Scholar Profile

Michael G Edwards Skills & Research Interests

Computational Methods

Reservoir Simulation

Porous Media

Numerical Methods

CFD

Top articles of Michael G Edwards

Title

Journal

Author(s)

Publication Date

A nonlinear repair technique for the MPFA-D scheme in single-phase flow problems and heterogeneous and anisotropic media

Journal of Computational Physics

Artur Castiel Reis de Souza

Darlan Karlo Elisiário de Carvalho

Túlio de Moura Cavalcante

Fernando Raul Licapa Contreras

Michael G Edwards

...

2024/1/17

Higher Resolution Unstructured Spectral Finite-volume Methods for Polymer-flooding Simulations in Porous and Fractured Media

Y Xie

MG Edwards

2022/9/5

An algebraic multiscale solver for the simulation of two-phase flow in heterogeneous and anisotropic porous media using general unstructured grids (AMS-U)

Applied Mathematical Modelling

Artur Castiel Reis de Souza

Darlan Karlo Elisiário de Carvalho

José Cícero Araujo dos Santos

Ramiro Brito Willmersdorf

Paulo Roberto Maciel Lyra

...

2022/3/1

Investigation of hydraulic fracture branching in porous media with a hybrid finite element and peridynamic approach

Theoretical and Applied Fracture Mechanics

Yanan Sun

Bin Chen

Michael G Edwards

Chenfeng Li

2021/12/1

A state-of-the-art review of crack branching

Yanan Sun

Michael G Edwards

Bin Chen

Chenfeng Li

2021/11/1

Acute PEBI Grid Generation for Reservoir Geometries

Shahid Manzooor

Michael G Edwards

Ali H Dogru

2021/10/19

Higher resolution hybrid-upwind spectral finite-volume methods, for flow in porous and fractured media on unstructured grids

Yawei Xie

Michael G Edwards

2021/10/19

Three-dimensional unstructured gridding for complex wells and geological features in subsurface reservoirs, with CVD-MPFA discretization performance

Computer Methods in Applied Mechanics and Engineering

Shahid Manzoor

Michael G Edwards

Ali H Dogru

2021/1/1

Higher Resolution Hybrid Unstructured Spectral Finite-volume Methods For Flow In Porous Media

Y Xie

M Edwards

2020/9/14

Quasi-k-orthogonal grid generation for quasi-positive cvd-mpfa

S Manzoor

M Edwards

A Dogru

2020/9/14

Productivity analysis for a horizontal well with multiple reorientation fractures in an anisotropic reservoir

Oil and Gas Science and Technology

S Sun

MG Edwards

F Frank

JF Li

A Salama

...

2020/1/1

See List of Professors in Michael G Edwards University(Swansea University)