H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Mechanical and Aerospace Engineering D-index 34 Citations 3,647 121 World Ranking 844 National Ranking 66

Overview

What is he best known for?

The fields of study he is best known for:

  • Mechanics
  • Viscosity
  • Thermodynamics

His main research concerns Mechanics, Thermodynamics, Prandtl number, Laminar flow and Rayleigh number. The concepts of his Mechanics study are interwoven with issues in Classical mechanics, Tidal power and Scaling. The Newtonian fluid, Shear flow, Mixing and Viscosity research Robert J. Poole does as part of his general Thermodynamics study is frequently linked to other disciplines of science, such as Xanthan gum, therefore creating a link between diverse domains of science.

In his study, Boundary value problem, Film temperature and Heat flux is inextricably linked to Heat transfer coefficient, which falls within the broad field of Prandtl number. His Rayleigh number research is multidisciplinary, incorporating perspectives in Nusselt number and Grashof number. His work carried out in the field of Flow brings together such families of science as Dimensionless quantity and Instability.

His most cited work include:

  • Purely-elastic flow asymmetries (138 citations)
  • Laminar natural convection of power-law fluids in a square enclosure with differentially heated side walls subjected to constant temperatures (116 citations)
  • Laminar natural convection of Bingham fluids in a square enclosure with differentially heated side walls (113 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of investigation include Mechanics, Newtonian fluid, Viscoelasticity, Reynolds number and Thermodynamics. His Mechanics and Turbulence, Flow, Laminar flow, Pipe flow and Vortex investigations all form part of his Mechanics research activities. The Newtonian fluid study combines topics in areas such as Non-Newtonian fluid, Polymer and Fluid dynamics.

As a part of the same scientific study, Robert J. Poole usually deals with the Viscoelasticity, concentrating on Streamlines, streaklines, and pathlines and frequently concerns with Scaling. His studies deal with areas such as Flow, Stagnation point and Classical mechanics, Inertia as well as Reynolds number. All of his Thermodynamics and Prandtl number, Nusselt number, Natural convection, Rayleigh number and Heat transfer investigations are sub-components of the entire Thermodynamics study.

He most often published in these fields:

  • Mechanics (71.00%)
  • Newtonian fluid (26.50%)
  • Viscoelasticity (25.00%)

What were the highlights of his more recent work (between 2016-2021)?

  • Mechanics (71.00%)
  • Reynolds number (24.00%)
  • Viscoelasticity (25.00%)

In recent papers he was focusing on the following fields of study:

Robert J. Poole mainly investigates Mechanics, Reynolds number, Viscoelasticity, Newtonian fluid and Turbulence. Vortex, Drag, Stagnation point, Laminar flow and Flow are among the areas of Mechanics where he concentrates his study. His Laminar flow research is multidisciplinary, relying on both Heat transfer, Pipe flow and Hagen–Poiseuille equation.

His Reynolds number research includes elements of Flow, Instability and Vorticity. In the subject of general Viscoelasticity, his work in Rheometry is often linked to Extensional viscosity, thereby combining diverse domains of study. The various areas that Robert J. Poole examines in his Newtonian fluid study include Rheology, Shear flow, Viscosity, Complex fluid and Capillary action.

Between 2016 and 2021, his most popular works were:

  • Turbulent drag reduction by polymer additives in parallel-shear flows (32 citations)
  • Opening a Can of Worm(-like Micelle)s: The Effect of Temperature of Solutions of Functionalized Dipeptides. (30 citations)
  • Nonlinear effects in multicomponent supramolecular hydrogels (28 citations)

In his most recent research, the most cited papers focused on:

  • Mechanics
  • Viscosity
  • Thermodynamics

His primary scientific interests are in Mechanics, Turbulence, Rheology, Reynolds number and Vortex. Robert J. Poole interconnects Bundle and Elasticity in the investigation of issues within Mechanics. In his study, which falls under the umbrella issue of Turbulence, Bounded function and Breakup is strongly linked to Drag.

Rheology is a subfield of Thermodynamics that Robert J. Poole investigates. His research in Reynolds number intersects with topics in Instability and Turbulence kinetic energy. His Newtonian fluid study improves the overall literature in Classical mechanics.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Purely-elastic flow asymmetries

R. J. Poole;Maria Arminda Costa Alves;Paulo J. Oliveira.
Physical Review Letters (2007)

199 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.
Journal of Non-newtonian Fluid Mechanics (2010)

161 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.
Journal of Non-newtonian Fluid Mechanics (2011)

155 Citations

The Deborah and Weissenberg numbers

Rob Poole.
(2012)

129 Citations

On the reproducibility of the rheology of shear-thinning liquids

M.P. Escudier;I.W. Gouldson;A.S. Pereira;F.T. Pinho.
Journal of Non-newtonian Fluid Mechanics (2001)

127 Citations

Non-dimensional scaling of tidal stream turbines

Allan Mason-Jones;Daphne Maria O'Doherty;Ceri E. Morris;Timothy O'Doherty.
Energy (2012)

124 Citations

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

S. C. Tedds;Ieuan Owen;R. J. Poole.
Renewable Energy (2014)

122 Citations

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

R. J. Poole;B. S. Ridley.
Journal of Fluids Engineering-transactions of The Asme (2007)

110 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.
Journal of Non-newtonian Fluid Mechanics (2005)

103 Citations

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

Osman Turan;Osman Turan;Nilanjan Chakraborty;Robert J. Poole.
Journal of Non-newtonian Fluid Mechanics (2012)

89 Citations

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