Thermal Hydraulics Laboratory

Articles and Publications

High energy density physics (instabilities and shock induced mixing):

1. “Experimental investigation of primary and secondary features in high-mach-number shock-bubbleinteraction” Ranjan, Devesh (Engineering Physics Department, University of Wisconsin-Madison);Niederhaus, John; Motl, Bradley; Anderson, Mark; Oakley, Jason; Bonazza, Riccardo Source: Physical Review Letters, v 98, n 2, 2007, p 024502


2. “Experimental study of shock-accelerated liquid layers”, Meekunnasombat, P. (Fusion Technol. Inst.,Wisconsin Univ., Madison, WI, USA); Oakley, J.G.; Anderson, M.H.; Bonazza, R. Source: Shock Waves, v15, n 6, Oct. 2006, p 383-97


3. “Experimental Study for ICF-Related Richtmyer-Meshkov Instabilities”, Motl, B, (Fusion Technol. Inst.,Wisconsin Univ., Madison, WI, USA) Neiderhaus, J., Anderson, M., Ranjan, D., Oakley, J., Bonazza, R., source: Fusion Science and Technology, 2007


4. “Experimental investigation of a strongly shocked gas bubble”, Ranjan, Devesh (Engineering Physics Department, University of Wisconsin-Madison); Anderson, Mark; Oakley, Jason; Bonazza, Riccardo Source: Physical Review Letters, v 94, n 18, May 13, 2005, p 1-4


5. “Inertial-fusion-related hydrodynamic instabilities in a spherical gas bubble accelerated by a planar shock wave”, Niederhaus, J. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Ranjan, D.; Anderson, M.; Oakley, J.; Bonazza, R.; Greenough, J. Source: Fusion Science and Technology, v 47, n 4, May 2005, p 1160-4


6. “Protection of IFE first wall surfaces from impulsive loading by multiple liquid layers”, Meekunnasombat, P. (Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA); Oakley, J.G.; Anderson, M.H.; Bonazza, R. Source: Fusion Science and Technology, v 47, n 4, May 2005, p 1170-4


7. “Experimental study of the Richtmyer-Meshkov instability induced by a Mach 3 shock wave”,Puranik, P.B. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Oakley, J.G.; Anderson, M.H.; Bonazza, R. Source: Shock Waves, v 13, n 6, June 2004, p 413-29


8. “A thermodynamically consistent and fully conservative treatment of contact discontinuities for compressible multicomponent flows”, Wang, S.-P. (Dept. of Eng. Phys., Wisconsin-Madison Univ., Madison, Wl, USA); Anderson, M.H.; Oakley, J.G.; Corradini, M.L.; Bonazza, R. Source: Journal of Computational Physics, v 195, n 2, 10 April 2004, p 528-59


9. “Experimental investigation of a shock-accelerated liquid layer with imaging and pressure measurement”,Meekunnasombat, P. (Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA); Oakley, J.G.; Anderson, M.H.; Bonazza, R. Source: Fusion Science and Technology, v 44, n 2, Sept. 2003, p 351-5


10. “Numerical study of shock-cylinder banks interactions”,Wang, S.P. (Dept. of Eng. Phys., Univ. of Wisconsin, Madison, WI, USA); Anderson, M.H.; Oakley, J.G.; Bonazza, R. Source: Fusion Science and Technology, v 44, n 1, July 2003, p 127-31


11. “Numerical study of shock-cylinder banks interactions”, Wang, S.P. (Fusion Technology Institute, Department of Engineering Physics, University of Wisconsin-Madison); Anderson, M.H.; Oakley, J.G.; Bonazza, R. Source: Fusion Science and Technology, v 44, n 1, July, 2003, p 127-131


12. “Shock loading of IFE reactor cooling tubes”, Anderson, M.H. (Wisconsin Univ., Madison, WI, USA); Oakley, J.G.; Coil, M.A.; Bonazza, R.; Peterson, R.R. Source: Fusion Technology, v 39, n 2, pt.2, March 2001, p 828-333


13. “Shock tube investigation of hydrodynamic issues related to inertial confinement fusion”, Anderson, M.H. (Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA); Puranik, B.P.; Oakley, J.G.; Brooks, P.W.;Bonazza, R. Source: Shock Waves, v 10, n 5, Nov. 2000, p 377-87


14. “A computational parameter study for the three-dimensional shock-bubble interaction”, Niederhaus, J.H.J., Greenough, J. A., Oakley, J.G., Ranjan, D, Anderson, M.H., Bonazza, R. J. Fluid Mech. (2008), vol. 594, pp 85-124 cover issues


15. "Shock-bubble interactions: features of divergent shock-refraction geometry observed in experiments and simulations," ” Ranjan, Devesh (Engineering Physics Department, University of Wisconsin-Madison); Niederhaus, John; Anderson, Mark; Oakley, Jason; Bonazza, Riccardo, Physics of Fluids (2008) [Manuscript PF#07-0739]



Shock Physics conference papers:

16. “Shock mitigation studies of solid foams for Z-pinch chamber protection”, Anderson, M. (Wisconsin Univ., WI, USA); Oakley, J.; Vigil, V.; Rodriquez, S.; Bonazza, R. Source: 21st IEEE/NPSS Symposium on Fusion Engineering. SOFE 05 (IEEE Cat. No.05CH37764), 2007, p 4 pp.


17. “Modeling of two-phase, multi-species flows with shock-interface interactions”, Wang, S.P. (Wisconsin Univ., Madison, WI, USA); Oakley, J.; Anderson, M.; Bonazza, R. Source: Transactions of the American Nuclear Society, v 87, 2002, p 191-2


18. “Membrane Effects on the Richtmyer-Meshkov Instability”, Anderson, M. H., Puranik, B. P., Oakley, J. G., Bonazza, R., , 7th International workshop on the physics of compressible turbulent mixing, St. Petersburg, Russia 6/99


19. “Experimental Investigation of the R-M Instability for Strong Incident Shocks”, Anderson, M. H., Puranik, B. P., Oakley, J. G., Bonazza, R., 7th International workshop on the physics of compressible turbulent mixing, St. Petersburg, Russia 6/99


20. “Planar Imaging of Density Interfaces Accelerated by Strong Shocks”, Anderson, M. H., Puranik, B. P., Oakley, J. G., Bonazza, R., , The 22nd International Symposium on Shock Waves, London, England, 6/99


21. “Experimental and Numerical Investigation of Shock-Cylinder Interactions”, Anderson, M. H., Puranik, B. P., Oakley, J. G., Bonazza, R., The 22nd International Symposium on Shock Waves, London, England, 6/99


22. ”Shock Loading of a Cylinder Bank with Imaging and Pressure Measurements”, Oakley, J.G., Andesron, M.H., Wang, S.P., Bonazza 23rd International Symposium on Shock Waves, Fort Worth Texas, July 2001


23. ”Richtmyer – Meshkov Instability of an Interface Prepared by the Removal of a Sine-wave Plate”, Anderson, M.H., Oakley, J.G., Puranik, B., Bonazza23rd International Symposium on Shock Waves, Fort Worth Texas, July 2001


24. “An investigation of Shock-Induced Interfacial Instabilities for Strong Incident Shocks”, Oakley, J. G., Puranik, B., Anderson, M. H., Bonazza, R., International Conference of Theoretical and Applied Mechanics 2000, CX5, Chicago, IL, Aug 28, 2000


25. “Richtmyer-Meshkov Experiments with Rayleigh-Taylor Generated Initial Conditions”, Anderson, M. H., Oakley, J. G., Puranik, B., Bonazza, R., American Physical Society Fluids, Washington D.C, Nov 2000.


26. “Study of IFE Reactor Cooling Tubes Response to Shock Loading”, Anderson, M. H., Oakley, J. G., Coil, M., Bonazza, R., 14th ANS Topical meeting on the Technology of Fusion Energy, Park City, Utah 15-19 Oct, 2000 TOFE March 2001


27. “The Rayleigh-Taylor Instability at a Magneto-rheological Fluid/Water Interface”, Jeremy White, Jason Oakley, Mark Anderson, Riccardo Bonazza, APS division of fluid dynamics, Seattle WA, 2004


28. “Experimental study of a strongly shocked gas bubble”, D. Ranjan, J. Niederhaus, J. Oakley, M. Anderson, R. Bonazza, , APS division of fluid dynamics, Seattle WA, 2004


29. “Numerical simulation of strongly shocked gas bubble”, J. Niederhaus, D. Ranjan J. Oakley, M. Anderson, R. Bonazza, Jeff Greenough, , APS division of Plasma Physics, Savanna GA, 2004


30. “The Rayleigh-Taylor Instability at a Water/Magnet-orheological Fluid Interface”, Jeremy White, Chaine Selig, Jason Oakley, Mark Anderson, Riccardo Bonazza, IWPCTM, Cambridge, UK July 2004


31. “Experimental and computational investigations of shock-accelerated gas bubbles”, B. Motl, J. Niederhaus, D. Ranjan M. Anderson, J. Greenough, J. Oakley, R. Bonazza, , IWPCTM, Cambridge, UK July 2004


32. “Summary of shocked foam layer experiments for Z-pinch reactor protection schemes”, Anderson, M., Meekunasombat, P., Oakley, J., Bonazza, R., ISSW25, Bangalor India, July 2005


33. "Experimental Study of A Shock Accelerated Water Layer with Imaging and Velocity Measurement", P. Meekunnasombat, J. G. Oakley, M. H. Anderson and R. Bonazza, Proceedings of the 24th International Symposium on Shock Waves, Paper 2692, Springer-Verlag, 2004.


34. "Radiography for a Shock-accelerated Liquid Layer", P. Meekunnasombat, J. G. Oakley, M. H. Anderson and R. Bonazza, 25th International Symposium on Shock Waves, July 17-22, 2005, Bangalore, India.


35. "Experimental Study of A Shock Accelerated Water Layer with Imaging and Velocity Measurement", P. Meekunnasombat, J. G. Oakley, M. H. Anderson and R. Bonazza, , 24th International Symposium on Shock Waves, July 11-16, 2004, Beijing, China


36. "Experimental Investigation of A Shock-accelerated Liquid Layer with Imaging and Pressure Measurements", P. Meekunnasombat, J.G. Oakley, M.H. Anderson and R. Bonazza, , 15th Topical Meeting on the Technology of Fusion Energy, November 17-21, 2002, Washington, D.C., USA
2006 tofe, ans 2006 aps 2006, iwpctm 2006, Issw 2007 2007, tmab 2007

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Liquid metal water interaction/heat transfer

37. “Liquid-metal/water direct contact heat exchange: flow visualization, flow stability, and heat transfer using real-time X-ray imaging”, Abdulla, S.H. (Gen. Electr. Res. Lab., Schenectady, NY, USA); Xin Liu; Anderson, M.H.; Bonazza, R.; Corradini, M.L.; Dae Cho; Page, R. Source: Nuclear Science and Engineering, v 150, n 2, June 2005, p 182-220


38. “Melt quenching and coolability by water injection from below: Co-injection of water and noncondensable gas”, Cho, D.H. (Nucl. Eng. Div., Argonne Nat. Lab., IL, USA); Page, R.J.; Abdulla, S.H.; Anderson, M.H.; Klockow, H.B.; Corradini, M.L. Source: Nuclear Engineering and Design, v 236, n 19-21, Oct. 2006, p 2296-2303


39. “Energetic analysis of experimental behavior of molten SnxLiy when impacted by a vertical column of water”, Meekunnasombat, P. (Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA); Anderson, M.H.; Corradini, M.L. Source: Fusion Science and Technology, v 44, n 4, Dec. 2003, p 803-10


40. “Experimental behavior of molten SnxLiy when impacted by a vertical column of water”,Anderson, M.H. (Wisconsin Univ., Madison, WI, USA); Meekunnasombat, P.; Corradini, M.L. Source: Fusion Technology, v 39, n 2, pt.2, March 2001, p 965-9



Conference papers:

41. “Direct contact heat exchange interfacial phenomena for liquid metal reactors: part II - void fraction”,Abdulla, S. (Inst. of Nucl. Syst. & Eng. Phys., Wisconsin-Madison Univ., Madison, WI, USA); Liu, X.; Anderson, M.H.; Bonazza, R.; Corradini, M.L.; Cho, D.H.; Page, R.J.; Hurtault, D. Source: Tenth International Conference on Nuclear Engineering, 2002, p 7 pp.


42. “Local heat transfer coefficient in liquid metal/water bubbly flow” Abdulla, S. (Wisconsin Univ., Madison, WI, USA); Liu, X.; Anderson, M.H.; Bonazza, R.; Corradini, M.L.; Cho, D.H.; Page, R.J. Source: Transactions of the American Nuclear Society, v 87, 2002, p 280-1


43. “Direct contact heat exchange interfacial phenomena for liquid metal reactors: Part II-void fraction”,Abdulla, S. (Wisconsin Inst. of Nuclear Systems, Engineering Physics, Univ. of WisconsinMadison 53706); Liu, X.; Anderson, M.H.; Bonazza, R.; Corradini, M.L.; Cho, D.H.; Page, R.J.; Hurtault, D. Source: International Conference on Nuclear Engineering, Proceedings, ICONE, v 3, 2002, p 607-612


44. “Ex-vessel cooling: Heat transfer and flow stability of multiphase injection”, Klockow, Helge B. (University of Wisconsin - Madison); Anderson, Mark H.; Corradini, Michael L. Source: Transactions of the American Nuclear Society, v 91, Transactions of the American Nuclear Society - 2004 Winter Meeting, 2004, p 228-229


45. “Melt quenching by water injection from below; co-injection of water and noncondensable gas”, Cho, Dae H. (Argonne National Laboratory, Nuclear Engineering Division); Abdulla, Sherif H.; Page, Richard J.; Anderson, Mark H.; Klockow, Helge B.; Corradini, Michael L. Source: Proceedings of the International Conference on Nuclear Engineering (ICONE12), v 3, 12th International Conference on Nuclear Engineering (ICONE12) - 2004 Volume 3: Safety and Security; Fuel Cycle and High Level Waste Management; Thermal Hydraulics, 2004, p 125-131


46. “A new look at ex-vessel debris coolability”, Klockow, H. (Argonne Nat. Lab., IL, USA); Anderson, M.; Corradini, M.; Cho, D.; Bang, K. Source: Transactions of the American Nuclear Society, v 87, 2002, p 513-14


47. “Experimental behavior of molten SnxLiy when impacted by a vertical column of water”, Anderson, M.H. (University of Wisconsin - Madison); Meekunnasombat, P.; Corradini, M.L. Source: Fusion Technology, v 39, n 2 II, March, 2001, Proceedings of the 14th Topical Meeting on The Technology of Fusion Energy, p965-969


48. “Interfacial Transport Phenomena and Stability in Molten Metal-Water Systems”, Kim, H., Anderson, M. H., Cho, D., Corradini, M. L, Proceedings of the 8th International Conference on Nuclear Engineering, April 2-6, 2000, Baltimore, MD USA


49. “Ex-Vessel Cooling: Heat transfer and flow stability of Multiphase Injection”,Klockow, Helge, Anderson, Mark H., Corradini, M. L., 2004 ANS Winter meeting


50. “Melt Quenching by Water Injection From Below; Co-Injection of Water and Non-condensable Gas” Dae H. Cho, Richard Page, Sherif Mohamed, Mark Anderson, Helge Klockow, Michael Corradini Icone 12, April 25-29, 2004, Arlington, Virginia USA


51. "Local Heat Transfer Coefficient in Liquid Metal/Water Bubbly Flow",S. Abdulla, X. Liu, M. Anderson, R. Bonazza, M. Corradini, D. Cho, and R.Page, American Society of Nuclear Engineering, Winter Meeting, Washington D. C., November 2002


52. “Interfacial Transport Phenomena and Stability in Liquid-Metal/Water", S. Abdulla, X. Liu, M. Anderson, R. Bonazza, M. Corradini, D. Cho, and R.Page, Proceedings of the 12th International Heat Transfer Conference, Grenoble, France, August 2002 (Best Paper award).


53. "Direct Contact Heat Exchange Interfacial Phenomena for Liquid Metal Reactors: Part I-Heat Transfer",D. Cho, R.Page, and D. Hurtault, S. Abdulla, X. Liu, M. Anderson, R. Bonazza, and M. Corradini, Proceedings of the 10thInternational Conference On Nuclear Engineering (ICONE10), Arlington, Virginia, US, April 2002.


54. “Direct Contact Heat Exchange Interfacial Phenomena for Liquid Metal Reactors: Part II-Void Fraction", S. Abdulla, X. Liu, M. Anderson, R. Bonazza, M. Corradini, D. Cho, R.Page, and D. Hurtault, ", Proceedings of the 10thInternational Conference On Nuclear Engineering (ICONE10), Arlington, Virginia, US, April 2002.


55. "Interfacial Transport Phenomena and Stability in Liquid-Metal/Water Systems: Scaling Considerations", S. Abdulla, X. Liu, M. Anderson, R. Bonazza, M. Corradini, and D. Cho, Proceedings of the 9thInternational Conference On Nuclear Engineering (ICONE9), Nice, France, April 2001.


56. "Interfacial Transport Phenomena and Stability in Molten Metal – Water Systems",M. L. Corradini, M. H. Anderson, R. Bonazza, S. H. Abdulla, and X. Liu, DOE final Report – NERI #99-0233, 1999.


57. “Interfacial Transport Phenomena and Stability in Molten Metal-Water Systems”, Kim, H., Anderson, M. H., Cho, D., Corradini, M. L., Proceedings of the 8th International Conference on Nuclear Engineering, April 2-6, 2000, Baltimore, MD USA

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Magneto-hydrodynamics:

58. “MHD effects on vapor flow in a conductive fluid”, Anderson, M.H. (Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA); Bonazza, R.; Corradini, M.L. Source: Fusion Science and Technology, v 44, n 2, Sept. 2003, p 256-60


59. “Measurements of vapor flow regimes in liquid metal pools”, Anderson, M.H. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Corradini, M.L.; Bonazza, R. Source: Fusion Engineering and Design, v 63-64, Dec. 2002, p 383-9


60. “EVOLVE lithium tray thermal-hydraulic analysis”, Anderson, M.H. (Wisconsin Univ., Madison, WI, USA); Murphy, J.G.; Sawan, M.E.; Sviatoslavsky, I.N.; Corradini, M.L.; Malang, S. Source: Fusion Technology, v 39, n 2, pt.2, March 2001, p 810-14



Conference papers:

61. “EVOLVE lithium tray thermal-hydraulic analysis”, Anderson, M.H. (University of Wisconsin-Madison); Murphy, J.G.; Sawan, M.E.; Sviatoslavsky, I.N.; Corradini, M.L. Source: Fusion Technology, v 39, n 2 II, March, 2001, Proceedings of the 14th Topical Meeting on The Technology of Fusion Energy, p 810-814


62. “Evaluation of the Tungsten Alloy Vaporizing Lithium First Wall Blanket Concept”, Wong, C. P. C., Barleon, L., Corraini, M. L., Fogarty, P., Ghoniem, N., Majumdar, S., Malang, S., Mattas, R., McCarthy, K., Merill, B., Murphy, J., Anderson, M. A., Nelson, B., Nygren, R., Sawan, M., Sharafat, S., Sviatoslavsky, I., Zinkle, S., TOFE March (2001).


63. “EVOLVE Lithium Tray Boiling Analysis”, Anderson, M. H., Murphy, J. G., Sawan, M. E., Sviatoslavsky, I. N., Corradini, M. L., 14th ANS Topical meeting on the Technology of Fusion Energy, TOFE March 2001.

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Z-pinch IFE reactor:

64. “Z-Pinch Power Plant Shock Mitigation Experiments, Modeling, and code Assessment”, Rodriquez S.B. Dandini, V., Anderson, M. H. Vigil, V. Source: Fusion Science and Technology, Vol 47 April 2005


65. “Overview of fusion nuclear technology in the US”, Morley, N.B. (Mech. & Aerosp. Eng., UCLA, Los Angeles, CA, USA); Abdou, M.A.; Anderson, M.; Calderoni, P.; Kurtz, R.J.; Nygren, R.; Raffray, R.; Sawan, M.; Sharpe, P.; Smolentsev, S.; Willms, S.; Ying, A.Y. Source: Fusion Engineering and Design, v 81, n 1-7, Feb. 2006, p 33-43


66. “Development path for Z-pinch IFE”, Olson, C. (Sandia Nat. Labs., Albuquerque, NM, USA); Rochau, G M.; Anderson, M, et.al., . Source: Fusion Science and Technology, v 47, n 3, April 2005, p 633-40

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SCW Thermal hydraulics

67. “Heat transfer in a supercritical fluid: classification of heat transfer regimes”, Kyoung Woo Seo (Sch. of Environ. Sci. & Eng., Pohang Univ. of Sci. & Technol., South Korea); Moo Hwan Kim; Anderson, M.H.; Corradini, M.L. Source: Nuclear Technology, v 154, n 3, June 2006, p 335-49


68. “Initial study of supercritical fluid blowdown”, Mignot, G. (Dept. of Nucl. Eng. & Eng. Phys., Wisconsin Univ., Madison, WI, USA); Anderson, M.; Corradini, M. Source: Fusion Science and Technology, v 47, n 3, April 2005, p 574-8


69. “Measurements of supercritical CO2 critical flow with as a function of tube roughness and diameter” Mignot, G.P., Anderson, M. H., Corradini, M. L., Experiments in Fluids (in progress)


70. “Heat transfer to water at supercritical pressures in a circular and square annular flow geometry” Licht, Jeremy, Anderson, M. H., Corradini, M. L. International Journal of Heat and Fluid Flow v. 29, (2008)


71. "Heat Transfer and Fluid flow Characteristics in Supercritical Pressure water" , Jeremy Licht, Mark Anderson, Michael Corradini, Journal of Heat Transfer, Vol. 131 July 2009



Conference papers:

72. “Heat transfer measurements in the University of Wisconsin supercritical water loop”, Licht, Jeremy R. (Nuclear Engineering and Engineering Physics, College of Engineering, University of Wisconsin-Madison); Allex, Peter; Anderson, Mark H.; Corradini, Michael L. Source: Proceedings of the 2006 International Congress on Advances in Nuclear Power Plants, ICAPP'06, 2006, p 398-404


73. “Supercritical fluid blowdown experiment and preliminary results”, Mignot, G. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Anderson, M.; Corradini, M. Source: Transactions of the American Nuclear Society, v 93, 2005, p 401-402


74. “A study of supercritical fluid blowdown”, Mignot, Guillaume (Department of Engineering Physics, University of Wisconsin- Madison); Anderson, Mark; Corradini, Michael Source: Transactions of the American Nuclear Society, v 91, Transactions of the American Nuclear Society - 2004 Winter Meeting, 2004, p 226-227


75. “A study of supercritical fluid blowdown”, Mignot, G. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Anderson, M.; Corradini, M. Source: Transactions of the American Nuclear Society, v 91, 2004, p 226-7


76. “Key thermal-hydraulic issues associated with Gen IV supercritical water reactor development”, invited Anderson, Mark (University of Wisconsin - Madison); Jain, Rachna; Licht, Jeremy; Mignot, Guillame; Seo, Kyoungwoo; Corradini, Michael Source: Transactions of the American Nuclear Society, v 90, 2004 Annual Meeting - American Nuclear Society, 2004, p 154-155


77. “On supercritical water heat transfer, corrosion and stability”, Jain, R. (Wisconsin Univ., Madison, WI, USA); Seshadri, V.; Anderson, M.; Sridharan, K.; Corradini, M.; Cho, D.; Lomperski, S. Source: Transactions of the American Nuclear Society, v 87, 2002, p 511-13


78. “Studies of supercritical heat transfer and flow phenomena”, Seo, K, Anderson, M., Corradini, M., Byung, D., Kim, M. Paper 162, Nureth-11, France, Oct 2005


79. “Progress on the University of Wisconsin supercritical water heat transfer facility”, Licht, J., Anderson, M, Corradini, M., Paper 265, Nureth-11, France, Oct. 2005


80. “Supercritical water heat transfer”, Anderson, M., Licht, J., Seo, K., ANS summer meeting, San Diego Ca, June, 2005


81. “Key Thermal-Hydrualic Issues Associated with Gen IV Supercritical Water Reactor Development”, Anderson, M.H., Jain, R., Licht, J. Mignot, G. Seo, K., Corradini, M., “, ANS meeting 2004 Pittsburgh, PA.


82. .“Studies of natural circulation heat transfer and flow stability of a supercritical fluid”,Jain, R., Licht, J., Anderson, M., Corradini, M., Lomperski, S., Cho, D., Nureth 10, Seoul, Korea, Oct. 2003
SCW3, Icone, Icapp, ANS

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SCW materials

83. “Oxidation of plasma surface modified zirconium alloy in pressurized high temperature water”, Sridharan, K. (Dept. of Eng. Phys., Univ. of Wisconsin, Madison, WI, USA); Harrington, S.P.; Johnson, A.K.; Licht, J.R.; Anderson, M.H.; Allen, T.R. Source: Materials & Design, v 28, n 4, 2007, p 1177-85



Conference papers:

84. “Corrosion of surface modified alloys in supercritical water”, Sridharan, K. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); King, J.A.; Harrington, S.P.; Johnson, A.K.; Anderson, M.H.; Allen, T.R. Source: Transactions of the American Nuclear Society, v 92, 2005, p 123-4


85. “Corrosion of surface modified alloys in supercritical water”, Sridharan, K. (Department of Engineering Physics, University of Wisconsin, 1500 Engineering Drive); King, J.A.; Harrington, S.P.; Johnson, A.K.; Anderson, M.H.; Allen, T.R. Source: Transactions of the American Nuclear Society, v 92, Transactions of the American Nuclear Society - 2005 Annual Meeting, 2005, p 123-124


86. “Corrosion behavior of candidate alloys for supercritical water reactors”, Sridharan, K. (Department of Engineering Physics, University of Wisconsin); Zillmer, A.; Licht, J.R.; Allen, T.R.; Anderson, M.H.; Tan, L. Source: Proceedings of the 2004 International Congress on Advances in Nuclear Power Plants, ICAPP'04, Proceedings of the 2004 International Congress on Advances in Nuclear Power Plants, ICAPP'04, 2004, p 527-536

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SCW radiolysis

87. “An apparatus for the study of high temperature water radiolysis in a nuclear reactor: Calibration of dose in a mixed neutron/gamma field”, Edwards, E.J. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Wilson, P.P.H.; Anderson, M.H., Mezyk, S.P., ; Bartels, D.; Pimblottt, Review of Scientific Instruments, vol .78, 124101 (2007)



Conference papers:

88. “University of Wisconsin supercritical water loop radiation energy deposition calibration”, Edwards, E.J. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Wilson, P.P.H.; Anderson, M.; Bartels, D.; Pimblottt, S.; Schmitt, B.; Ludwig, D.; Prazak, J.; Setter, T. Source: Transactions of the American Nuclear Society, v 94, 2006, p 533-4


89. “Radiation chemistry results from the supercritical water loop at UW-Madison”, Edwards, E.J. (Dept. of Eng. Phys., Univ. of Wisconsin-Madison, Madison, WI, USA); Wilson, P.P.H.; Anderson, M.; Bartels, D. Source: Transactions of the American Nuclear Society, v 95, 2006, p 939-40


90. “Radiation chemical yields of water in neutron and gamma radiation”, Edwards, E. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Bartels, D.; Olson, L.; Wilson, P.H.; Anderson, M.; Humrickhouse, P.W. Source: Transactions of the American Nuclear Society, v 92, 2005, p 125-6


91. “Gamma shield design for the supercritical water neutron radiolysis experiment”, Humrickhouse, P.W. (Dept. of Eng. Phys., Wisconsin Univ., Madison, WI, USA); Wilson, P.P.H.; Edwards, E.; Anderson, M.; Bartels, D. Source: Transactions of the American Nuclear Society, v 92, 2005, p 161-2


92. “Neutronics design of a supercritical water neutron radiolysis loop”, Edwards, Eric (University of Wisconsin - Madison, Department of Engineering Physics); Wilson, Paul; Anderson, Mark; Bartels, Dave Source: Transactions of the American Nuclear Society, v 90, 2004 Annual Meeting - American Nuclear Society, 2004, p 307-308

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Nuclear Thermal hydraulics:

93. “Experimental analysis of heat transfer within the AP600 containment under postulated accident conditions”, Anderson, M.H. (Dept. of Nucl. Eng. & Eng. Phys., Wisconsin Univ., Madison, WI, USA); Herranz, L.E.; Corradini, M.L. Source: Nuclear Engineering and Design, v 185, n 2-3, Oct. 1998, p 153-72


94. “A diffusion layer model for steam condensation within the AP600 containment”, Herranz, L.E. (Dept. of Nucl. Technol., Centre for Energy, Environ. & Technol. Res., Madrid, Spain); Anderson, M.H.; Corradini, M.L. Source: Nuclear Engineering and Design, v 183, n 1-2, July 1998, p 133-150



Conference papers:



95. “Evaluation of Condensation Modeling Based on Heat/Mass Transfer Analogy”,Anderson, M. H.; Herranz, L. E.; Corradini, M. Source: AIChE Symposium Series, n 314, 1997, p 108


96. “Light-gas effect on steam condensation in nuclear reactors”,Anderson, M.H. (Wisconsin Univ., Madison, WI, USA); Herranz, L.E.; Corradini, M.L. Source: Transactions of the American Nuclear Society, v 77, 1997, p 450-2


97. “The Effect of Light Gases in Noncondensable Mixtures on Condensation Heat Transfer",Herranz, L.E., Anderson, M. H., Corradini, M. L. " IHTC-98, Kyongju, Korea Aug. 23-28, 1998


98. “Evaluation of Condensation Modeling Based on Heat/Mass Transfer Analogy”,Anderson, M. H., Herranz, L. E., Corradini, M. L., AIChE Symposium Series, Baltimore, MD, 1997


99. "Light Gas Effects on Steam Condensation", Anderson, M. H., Herranz L. E., Corradini, M. L., ANS 1997 Winter Meeting, Albuquerque, NM Nov. 1997


100. ”Modeling of Steam Condensation in the AP600 Containment”, Herranz, L. E., Anderson, M. H., Corradini, M. L., , POST-SMIRT 14, Pisa University, Aug 25-27, 1997


101. “Condensation in the Presence of Noncondensable Gases: Pressure Effects”,Anderson, M. H., Basken, J. D., Corradini, M. L., National Heat Transfer Conference, Houston, TX Aug 1996


102. “Condensation in the Presence of Noncondensable Gases: AP600 Containment Simulation”,Anderson, M. H., Corradini, M. L., 7th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics, Saratoga Springs, NY Sept. 10 - 15 1995

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Liquid Salt Materials and Heat Transfer

103. Ambrosek, J., M. Anderson, et al. (2009). "Current status of knowledge of the fluoride salt (FLiNaK) heat transfer." Nuclear Technology 165(Copyright 2009, The Institution of Engineering and Technology): 166-173.


104. "Materials corrosion in molten LiF-NaF-KF salt", Luke Olson, James Ambrosek, Kumar Sridharan, Mark Anderson, Todd Allen, Journal of Fluorine Chemistry, 130 (2009)67-73



Conference papers:

105. “Experimental design for testing materials corrosion in molten fluoride salt”, Olson, Luke (University of Wisconsin-Madison); Ambrosek, James; Sridharan, Kumar; Anderson, Mark; Allen, Todd; Williams, Dave; Wilson, Dane Source: Transactions of the American Nuclear Society, v 94, Transactions of the American Nuclear Society 2006 Annual Meeting and Embedded Topical Meeting - Nuclear Fuels and Structural Materials for the Next Generation Nuclear Reactors, 2006, p 805-806

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Miscellaneous



106. “Economic viability of nuclear power co-generation with hydrogen”, Anderson, Mark (University of Wisconsin - Madison); Corradini, Michael; Bilbao y Leon, Rosa M. Source: Transactions of the American Nuclear Society, v 90, 2004 Annual Meeting - American Nuclear Society, 2004, p 379-380


107. “Vortex chamber flow characterization for gelled propellant combustor applications”, Anderson, M., Valenzuela, R., Rom, C., Bonazza, R., Chiaverini, M., AIAA, Joint Propulsion Conference, Huntsville Al, July 2002


108. “Vortex Chamber Flow Field Characterization Using Laser Diagnostics”, Craig Rom, Mark Anderson, Martin Chiaverini, J. Sauer, Matt Malecki, , 52nd JANNAF Conference, May 10-14, 2004


109. “Cold Flow Analysis of a Vortex Chamber Engine for Gelled Propellant Combustor Applications”, Craig Rom, Mark Anderson, Martin Chiaverini, Jeff Sauer, Matt Malecki, AIAA, Joint Propulsion Conference, Ft. Lauderdale, FL, July 11-14, 2004


110. “Free surface flow in the mixing zone of an Annular centrifugal contactor”, Kent Wardle, Todd R. Allen, Mark H. Anderson, Ross, E. Swaney, AIChE Journal vol. 54 n. 1, 2008


111. “Vision of the U.S. Biofuel Future: A Case for Hydrogen-Enriched Biomass Gasification” Mark A. Dietenberger, Mark H. Anderson, Industrial and Engineering Chemistry v46, n26, 2007


112. "Design, Fabrication and Testing of Ceramic Plate Type Heat Exchangers with Integrated Flow Channel Design", J. Schmidt, M. Scheiffele, M. Crippa, P. F.Peterson, E. Urquiza, K. Sridharan, Y. Chen, L.C. Olson, M.H. Anderson, and T.R. Allen, International Journal of Applied Ceramics Technology,Vol.8, Issue 5, pp. 1073-1086, 2011.