Advanced search
Publication Cover
Fusion Technology Volume 39, 2001 - Issue 2P1
Journal homepage
28
Views
9
CrossRef citations to date
0
Altmetric
Technical Paper

Magnetohydrodynamic Heat Transfer Research Related to the Design of Fusion Blankets

Leopold BarleonInstitut für Kern- und Energietechnik (IKET) Forschungszentrum Karlsruhe GmbH, Postfach 3640, D-76021 Karlsruhe, Germany
,
Ulrich BurrETH Zürich, Institut für Hydromechanik und Wasserwirtschaft HIF C25, CH-8093 Zürich-Hönggerberg, Switzerland
,
Klaus Jürgen MackInstitut für Kern- und Energietechnik (IKET) Forschungszentrum Karlsruhe GmbH, Postfach 3640, D-76021 Karlsruhe, Germany
&
Robert StieglitzInstitut für Kern- und Energietechnik (IKET) Forschungszentrum Karlsruhe GmbH, Postfach 3640, D-76021 Karlsruhe, Germany
Pages 127-156 | Published online: 07 Apr 2017

References

  • “DEMO Relevant Test Blankets for NET/ITER,” KfK-4908, H. JOHN, S. MALANG, and H. SEBENING, Eds., Kernforschungszentrum Karlsruhe (1991).
  • S. MALANG et al., “MHD Work on Self-Cooled Liquid Metal Blankets Under the Development at the Nuclear Research Center Karlsruhe,” Perspectives in Energy, 2, 303 (1993).
  • L. GIANCARLI, “Water-Cooled Pb-17Li DEMO Blanket Line. EU Reference Conceptual Design and Performance Presentation,” DMT 94/538 (SERMA/LCA/1678) (1994).
  • L. BARLEON, U. BURR, K.-J. MACK, and R. STIEGLITZ, “Natural Convection Phenomena in Magnetic Fields of Liquid Metal Fusion Blankets,” CEA DMT97/442. SERMA/ LCA2113,p. 124, Commissariat à l’Energie Atomique (1997).
  • L. GIANCARLI, M. DALLE DONNE, and W. DIETZ, “Status of the European Breeding Blanket Technology,” Fus. Eng. Des., 36, 57 (1997).
  • R. HOLROYD and J. T. D. MITCHELL, “Liquid Lithium as a Coolant for Tokamak Reactors,” Nucl. Eng. Des./Fusion, 1, 17 (1984).
  • J. C. R. HUNT, H. BRANOVER, and YU. M. GEL’FGAT, “Magnetohydrodynamic Flow in a Rectangular Channel with Walls of Finite Conductivity,” Magn. Gidrodynam., 5, 139 (1969).
  • H. BRANOVER and A. S. VASILÉV, “Flows in Mercury Pipes with Insulated and Conducting Walls under a Transverse Magnetic Field,” Magn. Gidrodinam., 4, 80 (1978).
  • H. BRANOVER, “Magnetohydrodynamic Flow in Ducts,” Halsted Press, New York (1978).
  • H. BRANOVER, “Turbulence and the Feasibility of Self-Cooled Liquid Metal Blankets for Fusion Reactors,” Fusion Technol., 10, 822 (1986).
  • L. BÜHLER and S. MOLOKOV, “Magnetohydrodynamic Flow in Ducts with Insulating Coatings,” Magnetohydrodynamics, 30, 4, 439 (1994).
  • M. S. TILLACK, “Magnetohydrodynamic Flow in Rectangular Ducts. Design Equations for Pressure Drop and Flow Quantity,” UCLA-FNT-41 (1990).
  • S. MOLOKOV, “Fully Developed Liquid-Metal Flow in Multiple Rectangular Ducts in a Strong Uniform Magnetic Field,” Eur. J. Mech./B Fluids, 12, 6, 769 (1993).
  • J. C. R. HUNT, “Magnetohydrodynamic Duct Flow in Rectangular Ducts,” J. Fluid Mech., 21, 4, 577 (1965).
  • Y. KOLESNIKOV and A. TSINOBER, “Two-Dimensional Flow Behind a Circular Cylinder,” Magnetohydrodynamics, 8, 300 (1972).
  • “Heat Transfer Promoted by Cylindrical Obstacles in Magnetic Fields,” Proc. 2nd Int. Conf. Energy Transfer in MagnetoHydro-Dynamic Flows, 2, 371.
  • U. BURR, L. BARLEON, U. MÜLLER, and A. TSINOBER, “Turbulent Transport of Momentum and Heat in a Magnetohydrodynamic Rectangular Duct Flow with Strong Side Wall Jets,” J. Fluid Mech. 406, 247 (2000).
  • P. A. DAVIDSON, “Magnetic Damping of Jets and Vortices,” J. Fluid Mech., 299, 153 (1995).
  • L. BÜHLER, “Instabilities in Quasi-Two-Dimensional Magnetohydrodynamic Flows,” J. Fluid Mech., 326, 125 (1996).
  • U. BURR, “Turbulente Transportvorgänge in Magnetohydrodynamischen Kanal-Strömungen,” PhD Thesis, University Karlsruhe (in German) (1997).
  • L. BARLEON, U. BURR, M. FRANK, R. STIEGLITZ, and K.-J. MACK, “MHD Flow and Heat Transfer in a Rectangular Duct,” FZKA-5927 (1998).
  • L. BARLEON, K.-J. MACK, and R. STIEGLITZ, “The MEKKA-Facility a Flexible Tool to Investigate MHD-Flow Phenomena,” FZKA-5821 (Sep. 1996).
  • J. O. O’DONELL, P. G. PAPANIKOLAOU, and C. B. REED, “The Thermophysical Transport Properties of Eutectic NaK Near Room Temperature,” ANL/FPP/TM-237 (1989).
  • L. BARLEON, K.-J. MACK, R. KIRCHNER, and R. STIEGLITZ, “MHD Heat Transfer and Pressure Drop in Electrically Insulated Channels at Fusion Relevant Parameters,” Proc. 18th Symp. Fusion Technol., Vol. 2, p. 1201 (1994).
  • L. BARLEON, K.-J. MACK, R. KIRCHNER, and R. STIEGLITZ, “Heat Transfer in MHD-Flow at High Hartmann Numbers an Improvement by Turbulence Promotion,” Magneto-hydrodynamics, 31, 3, 328 (1995).
  • L. BARLEON, L. BÜHLER, U. BURR, and R. STIEGLITZ, “Integral MHD-Heat Transfer Behaviour in Ducts with Electrically Insulated Coated Walls,” Proc. 14th Int. Riga Conf. Magnetohydrodynamics, Jurmala, Latvia, August 24–26, 1995 (1995).
  • U. BURR, L. BARLEON, and R. STIEGLITZ, “Turbulent Heat Transfer in Magnetohydrodynamic Duct Flow,” Proc. 11th Int. Heat Transfer Conf., Kyongju, South Korea, August 23–28, 1998, Vol. 3, p. 3 (1998).
  • L. BARLEON, U. BURR, K.-J. MACK, and R. STIEGLITZ, “Heat Transfer in Liquid Metal Cooled Fusion Blankets,” Proc. 5th Inter. Symp. Fusion Nuclear Technology, Rome, Italy, September 19–24, 1999 (1999).
  • C. B. REED and B. F. PICOLOGLOU, “Techniques for Measurements of Velocity in Liquid Metal MHD-Flows,” 7th Topl. Mtg. Fusion Technology, Nevada (1986).
  • L. BARLEON, V. CASAL, and L. LENHART, “MHD-Flow in Liquid Metal Cooled Blankets,” Fusion Eng. Design, 14, 401 (1991).
  • U. BURR, L. BARLEON, K.-J. MACK, and U. MÜLLER, “The Effect of Vertical Magnetic Field on Liquid Metal Rayleigh-Bénard Convection,” FZKA-6267 (1999).
  • U. BURR, L. BARLEON, K.-J. MACK, and U. MÜLLER, “The Effect of Horizontal Magnetic Field on Liquid Metal Rayleigh-Bénard Convection,” FZKA-6277 (1999).
  • L. BARLEON, P. JOCHMANN, K. J. MACK, and U. BURR, “Magneto-Convective Experimental Investigations on the Flow in a Vertical Gap,” FZKA 6409 (1999).
  • FIDAP, “Theory Manual-Fluid Dynamics Analysis Package,” Fluid Dynamics International, Evanston, Illinois (1993).
  • W. RHODI, “Turbulenzmodelle und ihre Anwendung,” Scriptum zur Vorlesung an der TH Karlsruhe (1985/86) (in German).
  • SOMMERIA and MOREAU, “Why, How, and When MHD Turbulence Becomes Two-Dimensional,” J. Fluid Mech., 118, 507 (1982).
  • J. S. WALKER, “Magnetohydrodynamic Duct Flows in Rectangular Ducts with Thin Conducting Walls,” Part I, J. Mec., 20, 1, 79 (1981).
  • I. KIRILLOV, C. B. REED, L. BARLEON, and K. MIYAZAKI, “Present Understanding of MHD and Heat Transfer Phenomena for Liquid Metal Blankets,” Fusion Eng. Design, 27, 553 (1995).
  • R. STIEGLITZ, L. BARLEON, L. BÜHLER, and S. MOLOKOV, “Magnetohydrodynamic Flow in a Right Angle Bend in a Strong Magnetic Field,” J. Fluid Mech., 326, 91 (1995).
  • R. STIEGLITZ and S. MOLOKOV, “Experimental Study of Magnetohydrodynamic Flows in Electrically Coupled Bends,” J. Fluid Mech., 343, 1 (1997).
  • L. BÜHLER, “Convective-Diffusive Transport in Laminar MHD Flows,” KfK5241, Kernforschungszentrum Karlsruhe (1993).
  • A. TING, T. Q. HUA, J. S. WALKER, and B. F. PICOLOGLOU, “Liquid-Metal Flow in a Rectangular Duct with Thin Metal Walls and with a Non-Uniform Magnetic Field,” Int. J. Eng. Sci., 31, 3, 357 (1993).
  • C. B. REED and B. F. PICOLOGLOU, “Sidewall Instabilities in Liquid Metal MHD Flow Under Blanket Relevant Conditions,” Fusion Technol., 15, 705 (1989).
  • S. CUEVAS, E. RAMOS, and B. F. PICOLOGLOU, “Turbulent Liquid Metal Flow in Rectangular Ducts with Thin Conducting Walls and Strong Magnetic Fields,” Proc. 8th Beer-Sheva Int. Sem. on MHD Flows and Turbulence, Jerusalem, Israel, February 25–29, 1996, p. 1 (1996).
  • S. CUEVAS, B. F. PICOLOGLOU, J. S. WALKER, and G. TALMAGE, “Liquid Metal MHD Flow in Rectangular Ducts with Thin Conducting or Insulating Walls: Laminar and Turbulent Solutions,” Int. J. Eng. Sci., 35, 5, 485 (1997).
  • S. MOLOKOV, L. BÜHLER, and R. STIEGLITZ, “Asymptotic Structure of Magnetohydrodynamic Flows in Bends,” 2nd Int. Conf. Energy Transfer in Magnetohydrodynamic Flows, Aussois, France, September 26–30, 1994, p. 473 (1994).
  • J. C. R. HUNT and S. LEIBOVICH, “Magnetohydrodynamic Duct Flow in Channels of Variable Cross-Section with Strong Transverse Magnetic Fields, J. Fluid Mech., 28, 241 (1967).
  • S. CUEVAS, B. F. PICOLOGLOU, J. S. WALKER, and G. TALMAGE, “Heat Transfer in Laminar and Turbulent Liquid Metal MHD Flows in Square Ducts with Thin Conducting or Insulating Walls,” Int. J. Eng. Sci., 35, 5, 505 (1997).
  • I. EVTUSHENKO, I. KIRILLOV, S. SIDORENKOV, and C. B. REED, “MHD Flows in the Channels with High Aspect Ratio: Hydrodynamics, Heat Transfer, Instabilities,” Proc. 2nd Int. Conf. Energy Transfer in Magnetohydrodynamic Flows, Aussois, France, September 26–30, 1994, p. 443 (1994).
  • I. EVTUSHENKO, I. KIRILLOV, and C. B. REED, “MHD-Flow in Slotted Channels with Conducting Walls,” Fusion Eng. Des., 27, 627 (1995).
  • K. MIYAZAKI, S. KOTAKE, N. YAMAOKA, and S. INOUE, “MHD Pressure Drop of NaK Flow in Stainless Steel Pipes,” Nucl. Technol./Fusion, 4, 447 (1983).
  • K. MIYAZAKI, K. KONISHI, Y. GONNO, S. INOUE, and M. SAITO, “Reduction of MHD Pressure Drop of Liquid Metal Flow by Insulation, Part II: Three-Face Insulated Rectangular Duct,” Fusion Technol., 19, 969 (1991).
  • V. SVIRIDOV, N. RAZUVANOV, A. USTINOV, and Y. SHPANSKKIJ, “Heat Transfer and Secondary Motion in Liquid Metal Flow in Horizontal Duct under Fusion Relevant Conditions,” Proc. 19th Symp. Fusion Technology, Lisbon, Portugal, September 16–20, 1996, Vol. 2, p. 1515 (1996).
  • R. A. GARDNER, “Laminar Pipe Flow in a Transverse Magnetic Field with Heat Transfer,” Int. J. Heat Mass Transfer, 11, 1076 (1967).
  • J. REIMANN, L. BARLEON, S. DEMENTJEV, and I. PLATNIEKS, “MHD-Turbulence Generation by Cylinders in Insulated Ducts with Different Cross-Sections,” Proc. 5th Inter. Symp. Fusion Nuclear Technology, Rome, Italy, September 19–24, 1999 (1999).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.