MHD turbulence at low magnetic Reynolds number: spectral propertiesand transition mechanism in a square duct / Turbulence MHD à faible nombre de Reynolds magnétique: popriétés spectrales et mécanisme de transition dans une conduite carrée

Kinet, Maxime

04 September 2009

Magnetohydrodynamics describes the motions of an electrically conducting fluid under the influence of magnetic fields. Such flows are encountered in a large variety of applications, from steel industry to heat exchangers of nuclear fusion reactors. <p><p>Here we are concerned with situations where the magnetic field is relatively strong and the flow manifests turbulent motions. The interaction of the fluid with the electromagnetic field is still insufficiently understood and efficient predicting methods are lacking. Our goal is to provide more insight on this problem by making heavy use of numerical methods. In this work, two different classes of problem are investigated. <p><p>First we consider that the turbulent character of the fluid is well developed and that solid boundaries are sufficiently far away to be completely neglected. The main effects of a strong magnetic field in that case are to damp the motion and to homogenize the flow along its direction, leading to a quasi two dimensional state. Using numerical simulations we have studied the dynamics of the flow in Fourier space and in particular the non linear energy transfers between turbulent eddies. Further we investigated the scale-by-scale anisotropy and compared various methods to address this quantity. Finally, the evolution of a passive scalar embedded in the flow was analyzed and it turned out that the characteristic anisotropy of the velocity field is reflected in the distribution of the scalar quantity. <p><p>In the second problem, the flow in a duct of square cross section subject to a transverse magnetic field has been considered. Here, unlike in the previous situation, the magnetic field has globally a destabilizing effect on the flow, because of the strong inhomogeneities it produces. For instance, high velocity regions develop along the walls that are parallel to the magnetic field. There, we are mostly interested in the possible development of persistent time-dependent fluctuations. It is observed that the transition between laminar and turbulent regimes occurs through at least two distinct bifurcations. The first one takes place at moderate Reynolds number and is characterized by highly organized fluctuations. The second is encountered at higher Reynolds number and presents very strong and localized disturbances.<p>/Il existe un grand nombre d'applications industrielles dans lesquelles un écoulement de métal liquide est soumis à un champ magnétique. La production d'acier par coulée continue, la fabrication de matériaux semi-conducteurs ou encore les échan-geurs de chaleur des futurs réacteurs à fusion nucléaire en sont de bons exemples. L'interaction du liquide conducteur avec le champ magnétique est à l'origine de nombreux phénomènes inhabituels en hydrodynamique classique et doit dès lors être décrite par la magnétohydrodynamique (ou MHD en abrégé). Le but de ce travail est d'étudier la physique de ces interactions, en se basant sur la résolution numérique des équations qui les gouvernent.<p><p>Plusieurs aspects du problème ont été considérés indépendamment. Tout d'abord, l'étude de la turbulence homogène a permis de mettre en evidence les comportements du fluide loin de toute paroi solide. Ceci est mis un oeuvre dans un domaine spatial périodique, où les variables sont représentées par leur série de Fourier. L'influence du champ magnétique dans ce cas consiste à dissiper les fluctuations turbulentes et à rendre le champ de vitesse anisotrope. Les principaux résultats obtenus dans ce cadre concernent la distribution ainsi que le transfert d'énergie dans l'espace spectral, l'anisotropie des différentes échelles turbulentes de l'écoulement ainsi que le transport d'un scalaire passif au sein du fluide. <p><p>Dans un deuxième temps, le travail a porté sur l'écoulement dans une conduite rectangulaire soumise à un champ magnétique et dont les parois sont conductrices d'électricité. La particularité de cet écoulement réside dans les zones de vitesse élevées qui se développent le long des parois parallèles au champ magnétique. Celles-ci donnent lieu à un intense cisaillement qui a généralement pour effet de rendre l'écoulement instable. La simulation numérique de ce problème a permis l'étude des instabilités au sein du fluide et de la transition du régime laminaire vers la turbulence. <p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Physique

Sciences exactes et naturelles

Magnetohydrodynamics

Liquid metals

Turbulence -- Computer simulation

Magnétohydrodynamique

Metaux liquides

Turbulence -- Simulation par ordinateur

métaux liquides

simulation numérique

turbulence

liquid metals

The Continuous Rheoconversion Process: Scale-up and Optimization

Bernard, III, William J.

23 August 2005

"Semi-solid metal (SSM) processing has emerged as a preferred manufacturing method due to the superior quality associated with semi-solid castings. In recent years, the driving force to reduce process cost has led to the development of a few rheocasting (also termed slurry-on-demand) processes. These include UBE’s New Rheocasting (NRC) process [1], Idra Prince’s Semi-Solid Rheocasting (SSR) process [2], and THT’s Sub-Liquidus Casting (SLC®) process [3]. A novel slurry-making SSM process developed at ACRC/MPI, termed the “Continuous Rheoconversion Process” (CRP), is a passive liquid mixing technique in which the nucleation and growth of the primary phase are controlled using a specially designed “reactor”. The reactor provides heat extraction, copious nucleation and forced convection during the initial stage of solidification, leading to the formation of thixotropic structures. In these studies, the critical issues/challenges to optimize the CRP for industrial applications have been addressed through validation experiments and pre-industrial trials."

CRP

thixocasting

rheocasting

semisolid

Liquid metals

Metal castings

Semi-solid metals

A-C magneto hydrodynamic instability.

McHale, Edward Joseph

January 1977

Thesis. 1977. Ph.D.--Massachusetts Institute of Technology. Dept. of Electrical Engineering and Computer Science. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Includes bibliographical references. / Ph.D.

Liquid metals

Fluid dynamics

Magnetohydrodynamics

Induction heating

Formation of bulk nanocrystalline materials. / CUHK electronic theses & dissertations collection

January 1999

by Guo Wenhua. / Thesis (Ph.D.)--Chinese University of Hong Kong, 1999. / Includes bibliographical references. / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.

Nanostructured materials

Microstructure

Metals--Quenching

Liquid metals--Thermal properties

Alloys--Thermal properties

MHD Turbulence at low magneic Reynolds number : Spectral properties and transition mechanism in a square duct/Turbulence MHD à faible nombre de Reynolds magnétique : Propriétés spectrales et méchanisme de transition dans un conduite carrée.

Kinet, Maxime

04 September 2009

Magnetohydrodynamics describes the motions of an electrically conducting fluid under the influence of magnetic fields. Such flows are encountered in a large variety of applications, from steel industry to heat exchangers of nuclear fusion reactors. Here we are concerned with situations where the magnetic field is relatively strong and the flow manifests turbulent motions. The interaction of the fluid with the electromagnetic field is still insufficiently understood and efficient predicting methods are lacking. Our goal is to provide more insight on this problem by making heavy use of numerical methods. In this work, two different classes of problem are investigated. First we consider that the turbulent character of the fluid is well developed and that solid boundaries are sufficiently far away to be completely neglected. The main effects of a strong magnetic field in that case are to damp the motion and to homogenize the flow along its direction, leading to a quasi two dimensional state. Using numerical simulations we have studied the dynamics of the flow in Fourier space and in particular the non linear energy transfers between turbulent eddies. Further we investigated the scale-by-scale anisotropy and compared various methods to address this quantity. Finally, the evolution of a passive scalar embedded in the flow was analyzed and it turned out that the characteristic anisotropy of the velocity field is reflected in the distribution of the scalar quantity. In the second problem, the flow in a duct of square cross section subject to a transverse magnetic field has been considered. Here, unlike in the previous situation, the magnetic field has globally a destabilizing effect on the flow, because of the strong inhomogeneities it produces. For instance, high velocity regions develop along the walls that are parallel to the magnetic field. There, we are mostly interested in the possible development of persistent time-dependent fluctuations. It is observed that the transition between laminar and turbulent regimes occurs through at least two distinct bifurcations. The first one takes place at moderate Reynolds number and is characterized by highly organized fluctuations. The second is encountered at higher Reynolds number and presents very strong and localized disturbances. /Il existe un grand nombre d'applications industrielles dans lesquelles un écoulement de métal liquide est soumis à un champ magnétique. La production d'acier par coulée continue, la fabrication de matériaux semi-conducteurs ou encore les échan-geurs de chaleur des futurs réacteurs à fusion nucléaire en sont de bons exemples. L'interaction du liquide conducteur avec le champ magnétique est à l'origine de nombreux phénomènes inhabituels en hydrodynamique classique et doit dès lors être décrite par la magnétohydrodynamique (ou MHD en abrégé). Le but de ce travail est d'étudier la physique de ces interactions, en se basant sur la résolution numérique des équations qui les gouvernent. Plusieurs aspects du problème ont été considérés indépendamment. Tout d'abord, l'étude de la turbulence homogène a permis de mettre en evidence les comportements du fluide loin de toute paroi solide. Ceci est mis un oeuvre dans un domaine spatial périodique, où les variables sont représentées par leur série de Fourier. L'influence du champ magnétique dans ce cas consiste à dissiper les fluctuations turbulentes et à rendre le champ de vitesse anisotrope. Les principaux résultats obtenus dans ce cadre concernent la distribution ainsi que le transfert d'énergie dans l'espace spectral, l'anisotropie des différentes échelles turbulentes de l'écoulement ainsi que le transport d'un scalaire passif au sein du fluide. Dans un deuxième temps, le travail a porté sur l'écoulement dans une conduite rectangulaire soumise à un champ magnétique et dont les parois sont conductrices d'électricité. La particularité de cet écoulement réside dans les zones de vitesse élevées qui se développent le long des parois parallèles au champ magnétique. Celles-ci donnent lieu à un intense cisaillement qui a généralement pour effet de rendre l'écoulement instable. La simulation numérique de ce problème a permis l'étude des instabilités au sein du fluide et de la transition du régime laminaire vers la turbulence.

métaux liquides

simulation numérique

Magnetohydrodynamics

turbulence

turbulence

liquid metals

Experimental measurement and finite element modeling of bioheat transfer with phase changes of molten metal in contact with porcine skin

Capt, William Michael

23 June 2011

Not available / text

Biomedical engineering

Heat--Physiological effect

Heat--Transmission

Liquid metals--Thermal properties

Kenetics of hydrogen and carbon monoxide absorption by stagnant molten iron.

Solar, Maurice Yvan.

January 1971

No description available.

Gases -- Absorption and adsorption

Gases in metals

Iron -- Hydrogen content

Liquid metals

Iron

Molecular-dynamics Investigation Of The Dynamic Properties Of Pd And Al Metals, And Their Alloys

Coruh, Ali

01 February 2003

The dynamic properties of Palladium (Pd) and Aluminum (Al) metals and their alloys are investigated by means of Molecular Dynamics using the Quantum Sutton-Chen force field in five different concentrations. Calculations have been carried out for liquid structures. Although this study is done for liquid structures, basic solid state properties are also investigated to prove the validity of potential parameters. Results are compared with each other and with experimental, theoretical and simulated results. Liquid state transferability of Quantum Sutton-Chen parameters have been investigated and discussed. High temperature properties, which are not easy to work experimentally, are simulated and high temperature behavior of Pd-Al alloy is investigated.

Modélisation de l'écoulement de l'aluminium semi-solide dans le moulage sous pression /

Forté, Martin,

January 2006

Thèse (M.Eng.) -- Université du Québec à Chicoutimi, 2006. / La p. de t. porte en outre: Mémoire présenté à l'Université du Québec à Chicoutimi comme exigence partielle de la maîtrise en génie. CaQCU Bibliogr.: f. [142-145]. Document électronique également accessible en format PDF. CaQCU

Soft Multifunctional Composites Using Liquid Metal

Kazem, Navid

01 May 2018

Progress in the fields of wearable computing, soft robotics and bio hybrid engineering depend on new classes of soft multifunctional materials that match the mechanical properties of soft biological tissue and possess high toughness, while having metal-like electrical and thermal properties.

Dielectric Constant

Fracture toughness

Liquid Metal Embedded Elastomers

Liquid Metals

Mechanical Properties

Thermal Conductivity