2026 Robert J. Poole: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Mechanical and Aerospace Engineering	46	1476	1367	102	90	190	6373

Overview

Robert J. Poole is affiliated with the University of Liverpool in the United Kingdom. Their research primarily focuses on the field of Engineering, with significant contributions in computational mechanics, fluid flow and transfer processes, biomedical engineering, mechanical engineering, and pulmonary and respiratory medicine.

Their work covers a variety of topics including rheology and fluid dynamics studies, fluid dynamics and turbulent flows, fluid dynamics and vibration analysis, blood properties and coagulation, fluid dynamics and thin films, heat transfer mechanisms, and characterization and applications of magnetic nanoparticles.

Frequent co-authors collaborating with Robert J. Poole include Konstantinos Zografos, Amy Q. Shen, Simon J. Haward, Cláudio P. Fonte, and Henry C.-H. Ng.

They have published extensively in several academic venues. The most frequent publication venues are:

Journal of Non-Newtonian Fluid Mechanics
Physics of Fluids
Default Digital Object Group
SSRN Electronic Journal
Science Talks

Selected recent papers authored or co-authored by Robert J. Poole include:

Inelastic and flow-type parameter models for non-Newtonian fluids, 2023, Journal of Non-Newtonian Fluid Mechanics
A review of the second normal-stress difference; its importance in various flows, measurement techniques, results for various complex fluids and theoretical predictions, 2021, Journal of Non-Newtonian Fluid Mechanics
Controlling the properties of the micellar and gel phase by varying the counterion in functionalised-dipeptide systems, 2020, Chemical Communications
On the similarities between the simplified Phan-Thien-Tanner model and the finitely extensible nonlinear elastic dumbbell (Peterlin closure) model in simple and complex flows, 2022, Physics of Fluids
Periodic fluctuations of streamwise vortices in inertia-dominated intersecting flows, 2021, Physics of Fluids

Best Publications

Purely-elastic flow asymmetries

R. J. Poole;Maria Arminda Costa Alves;Paulo J. Oliveira

256
Citations
Laminar natural convection of power-law fluids in a square enclosure with differentially heated side walls subjected to constant temperatures

Osman Turan;Osman Turan;Anuj Sachdeva;Nilanjan Chakraborty;Robert J. Poole

255
Citations
Laminar natural convection of Bingham fluids in a square enclosure with differentially heated side walls

Osman Turan;Osman Turan;Nilanjan Chakraborty;Robert J. Poole

225
Citations
3D printing with 2D colloids: designing rheology protocols to predict ‘printability’ of soft-materials

Andrew Corker;Henry C.-H. Ng;Robert J. Poole;Esther García-Tuñón

213
Citations
On the reproducibility of the rheology of shear-thinning liquids

M.P. Escudier;I.W. Gouldson;A.S. Pereira;F.T. Pinho

179
Citations
Near-wake characteristics of a model horizontal axis tidal stream turbine

S. C. Tedds;Ieuan Owen;R. J. Poole

168
Citations
Non-dimensional scaling of tidal stream turbines

Allan Mason-Jones;Daphne Maria O'Doherty;Ceri E. Morris;Timothy O'Doherty

152
Citations
Development-Length Requirements for Fully Developed Laminar Pipe Flow of Inelastic Non-Newtonian Liquids

R. J. Poole;B. S. Ridley

147
Citations
The Deborah and Weissenberg numbers

Rob Poole

146
Citations
Laminar Rayleigh-Bénard convection of yield stress fluids in a square enclosure

Osman Turan;Osman Turan;Nilanjan Chakraborty;Robert J. Poole

123
Citations
Observations of asymmetrical flow behaviour in transitional pipe flow of yield-stress and other shear-thinning liquids

M.P. Escudier;R.J. Poole;F. Presti;C. Dales

121
Citations
Ascending aortic curvature as an independent risk factor for type A dissection, and ascending aortic aneurysm formation: a mathematical model.

Michael P. Poullis;Richard Warwick;Aung Oo;Robert J. Poole

119
Citations
Geometric scaling of a purely elastic flow instability in serpentine channels

J. Zilz;R. J. Poole;M. A. Alves;D. Bartolo

109
Citations
On extensibility effects in the cross-slot flow bifurcation

Gerardo N. Rocha;R. J. Poole;Maria Arminda Costa Alves;Paulo Jorge dos Santos Pimentel de Oliveira

103
Citations
Geometric scaling of purely-elastic flow instabilities

J. Zilz;R. J. Poole;M. A. Alves;D. Bartolo

101
Citations
Clinical relevance of findings in trials of antipsychotics: systematic review

Peter Lepping;Rajvinder Singh Sambhi;Richard Whittington;Steven Lane

99
Citations
Numerical and experimental investigation of heat transfer and fluid flow characteristics in a micro-scale serpentine channel

Waleed M. Abed;Richard D. Whalley;David J.C. Dennis;Robert J. Poole

98
Citations
Opening a Can of Worm(-like Micelle)s: The Effect of Temperature of Solutions of Functionalized Dipeptides.

Emily R. Draper;Hao Su;Christopher Brasnett;Robert J. Poole

93
Citations
Aspect ratio effects in laminar natural convection of Bingham fluids in rectangular enclosures with differentially heated side walls

Osman Turan;Osman Turan;Robert J. Poole;Nilanjan Chakraborty

93
Citations
Influence of drug company authorship and sponsorship on drug trial outcomes.

Tongeji Tungaraza;Rob Poole

90
Citations
Laminar, transitional and turbulent annular flow of drag-reducing polymer solutions

A. Japper-Jaafar;A. Japper-Jaafar;M.P. Escudier;R.J. Poole

90
Citations
Serpentine channels: micro-rheometers for fluid relaxation times

Josephine Zilz;Christof Schäfer;Christian Wagner;Robert J. Poole

89
Citations

Frequent Co-Authors

Manuel A. Alves University of Porto

Paulo J. Oliveira University of Coimbra

M. P. Escudier University of Liverpool

Nilanjan Chakraborty Newcastle University

Fernando T. Pinho University of Porto

Anke Lindner Université Paris Cité

R.P. Chhabra Indian Institute of Technology Kanpur

Michael D. Graham University of Wisconsin–Madison

Dave J. Adams University of Glasgow

Honggang Cui Johns Hopkins University

External Links

Personal website of Robert J. Poole Google Scholar page

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