Convection on the RPM over three periods for three different rotational velocities (top: 40 deg/s; middle: 60 deg/s; bottom: 90 deg/s).

Exploring the geostrophic regime of rapidly rotating convection with experiments

Rajaei, H.
Kunnen, R.P.J.
Clercx, H.J.H.

April 2017

Rapidly rotating Rayleigh-Bénard convection is studied using time-resolved particle image velocimetr...

Turbulence statistics and energy budget in rotating Rayleigh-Bénard convection

Kunnen, R.P.J.
Geurts, B.J.
Clercx, H.J.H.

January 2009

The strongly-modified turbulence statistics of Rayleigh-Bénard convection subject to various rotatio...

Velocity and acceleration statistics in rapidly rotating Rayleigh-Bénard convection

Rajaei, H Hadi
Alards, KMJ Kim
Kunnen, RPJ Rudie
Clercx, HJH Herman

January 2018

\u3cp\u3eBackground rotation causes different flow structures and heat transfer efficiencies in Rayl...

Velocity profile during one period on the RPM.

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity; the flask is placed at the center of rotatio...

Preprint typeset using LATEX style emulateapj v. 04/17/13 THEORY AND SIMULATIONS OF ROTATING CONVECTION

Adrian J. Barker
Adam M. Dempsey
Yoram Lithwick

January 2014

We study thermal convection in a rotating fluid, with the ultimate goal of explaining the structure ...

Experimental and numerical investigation of turbulent convection in a rotating cylinder

Kunnen, R.P.J.
Geurts, B.J.
Clercx, H.J.H.

January 2010

The effects of an axial rotation on the turbulent convective flow because of an adverse temperature ...

Shear stresses in the flask during three periods on the RPM for three different rotational velocities (40, 60 and 90 deg/s).

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity, and the flask is placed at the center of rot...

Shear stresses along the walls during one period on the RPM.

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity; the flask is placed at the center of rotatio...

Lagrangian analysis of turbulent rotating convection

Rajaei, Hadi
Kunnen, Rudie
Clercx, Herman

January 2015

This study aims to explore how the flow transition from one state to the other in rotating convectio...

Experimental study of the convection in a rotating tangent cylinder

Aujogue, Kelig
Potherat, Alban
Sreenivasan, Binod
Debray, Francois

March 2018

This paper experimentally investigates the convection in a rapidly rotating tangent cylinder (TC), f...

Turbulent rotating convection

Kunnen, R.P.J.

January 2008

Many flows in nature and technology are driven by buoyant convection and subsequently modulated by r...

Confinement effect on the dynamics of non-equilibrium concentration fluctuations far from the onset of convection

Cédric Giraudet
Henri Bataller
Yifei Sun
Aleksandar Donev
José M. Ortiz de Zárate
Fabrizio Croccolo

December 2016

In a recent letter (C. Giraudet et al., EPL 111, 60013 (2015)) we reported preliminary data showing ...

Experimental investigation on the influence of rotation on thermal convection

Wedi, Marcel Frederik

February 2022

We report on experimental measurements of rotating Rayleigh-Bénard convection to study the influence...

Exploring the geostrophic regime of rapidly rotating convection with experiments

Rajaei, H.
Kunnen, R.P.J.
Clercx, H.J.H.

April 2017

Rapidly rotating Rayleigh-Bénard convection is studied using time-resolved particle image velocimetr...

Turbulence statistics and energy budget in rotating Rayleigh-Bénard convection

Kunnen, R.P.J.
Geurts, B.J.
Clercx, H.J.H.

January 2009

The strongly-modified turbulence statistics of Rayleigh-Bénard convection subject to various rotatio...

Velocity and acceleration statistics in rapidly rotating Rayleigh-Bénard convection

Rajaei, H Hadi
Alards, KMJ Kim
Kunnen, RPJ Rudie
Clercx, HJH Herman

January 2018

\u3cp\u3eBackground rotation causes different flow structures and heat transfer efficiencies in Rayl...

Velocity profile during one period on the RPM.

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity; the flask is placed at the center of rotatio...

Preprint typeset using LATEX style emulateapj v. 04/17/13 THEORY AND SIMULATIONS OF ROTATING CONVECTION

Adrian J. Barker
Adam M. Dempsey
Yoram Lithwick

January 2014

We study thermal convection in a rotating fluid, with the ultimate goal of explaining the structure ...

Experimental and numerical investigation of turbulent convection in a rotating cylinder

Kunnen, R.P.J.
Geurts, B.J.
Clercx, H.J.H.

January 2010

The effects of an axial rotation on the turbulent convective flow because of an adverse temperature ...

Shear stresses in the flask during three periods on the RPM for three different rotational velocities (40, 60 and 90 deg/s).

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity, and the flask is placed at the center of rot...

Shear stresses along the walls during one period on the RPM.

Simon L. Wuest (3704734)
Philip Stern (3704731)
Ernesto Casartelli (3704728)
Marcel Egli (457262)

January 2017

Both frames rotate with constant and equal velocity; the flask is placed at the center of rotatio...

Lagrangian analysis of turbulent rotating convection

Rajaei, Hadi
Kunnen, Rudie
Clercx, Herman

January 2015

This study aims to explore how the flow transition from one state to the other in rotating convectio...

Experimental study of the convection in a rotating tangent cylinder

Aujogue, Kelig
Potherat, Alban
Sreenivasan, Binod
Debray, Francois

March 2018

This paper experimentally investigates the convection in a rapidly rotating tangent cylinder (TC), f...

Turbulent rotating convection

Kunnen, R.P.J.

January 2008

Many flows in nature and technology are driven by buoyant convection and subsequently modulated by r...

Confinement effect on the dynamics of non-equilibrium concentration fluctuations far from the onset of convection

Cédric Giraudet
Henri Bataller
Yifei Sun
Aleksandar Donev
José M. Ortiz de Zárate
Fabrizio Croccolo

December 2016

In a recent letter (C. Giraudet et al., EPL 111, 60013 (2015)) we reported preliminary data showing ...

Experimental investigation on the influence of rotation on thermal convection

Wedi, Marcel Frederik

February 2022

We report on experimental measurements of rotating Rayleigh-Bénard convection to study the influence...

Exploring the geostrophic regime of rapidly rotating convection with experiments

Rajaei, H.
Kunnen, R.P.J.
Clercx, H.J.H.

April 2017

Rapidly rotating Rayleigh-Bénard convection is studied using time-resolved particle image velocimetr...

Turbulence statistics and energy budget in rotating Rayleigh-Bénard convection

Kunnen, R.P.J.
Geurts, B.J.
Clercx, H.J.H.

January 2009

The strongly-modified turbulence statistics of Rayleigh-Bénard convection subject to various rotatio...

Velocity and acceleration statistics in rapidly rotating Rayleigh-Bénard convection

Rajaei, H Hadi
Alards, KMJ Kim
Kunnen, RPJ Rudie
Clercx, HJH Herman

January 2018

\u3cp\u3eBackground rotation causes different flow structures and heat transfer efficiencies in Rayl...

Convection on the RPM over three periods for three different rotational velocities (top: 40 deg/s; middle: 60 deg/s; bottom: 90 deg/s).

Abstract

Extracted data

Convection on the RPM over three periods for three different rotational velocities (top: 40 deg/s; middle: 60 deg/s; bottom: 90 deg/s).

Abstract

Extracted data

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