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CHAetal., DevelopmentofaSupercriticalCO2BraytonEnergyConversionSystemCoupledwithaSodiumCooledFastReactor REFERENCES_______________________________ [1] V. Dostal, M.J. Driscoll, P. Hejzlar, N.E. Todreas, “A Supercritical CO2 Gas Turbine Power Cycle for Next- Generation Nuclear Reactors,” Proceedings of ICONE-10, Arlington, 2002 [2] V. Dostal, P. Hejzlar, M. J. Driscoll, and N. E. Todreas, “A Supercritical CO2 Brayton Cycle for Advanced Reactor Applications,” Trans. Am. Nucl. Soc., 85, 2001 [3] N. Kishohara, S. Kotake, and T. Sakamoto, Studies of Supercritical CO2 Gas Turbine Power Generation Fast Reactor, JAEA Report, JAEA-Review 2009-040 [4] HEATRIC website, http://www.heatric.com [5] A.V. Moisseytsev, J. J. Sienicki, and D. C. Wade, “Turbine Design for a Supercritical Carbon Dioxide Gas Turbine Brayton Cycle,” ICAPP-2003, 3064, Cordoba, Spain, May 4-7, 2003 [6] P. E. MacDonald, J. Boungiorno, Design of an Actinide Burning, Lead or Lead-Bismuth Cooled Reactor That Produces Low Cost Electricity, Annual report, INEEL/EXT- 01-01376, 2001 [7] E.W. Lemmom, M.O. Mclinden, and M.L. Huber, NIST Reference Fluid Thermodynamic and Transport Properties- REFPROP, Version 7.0, User’s Guide, National Institute of Standards and Technology, 2002 [8] A. Moisseytsev, Passive Follow Analysis of the STAR- LM and STAR-H2 Systems, Dissertation of Texas A&M University, 2003 [9] D.H. Han, et.al., KALIMER-600 Conceptual Design Report, KAERI/TR-3381/2007, KAERI Technical Report, 2007 [10] R. Fuller, “Turbo-Machinery Considerations Using Super- Critical Carbon Dioxide Working Fluid for a Closed Brayton Cycle,” presented at the MIT CANES Symposium on Supercritical CO2 Power Cycle, 2007 [11] H.W. Oh, Investigation on the Design and Performance Analysis of Centrifugal Turbomachinery, Ph. D Dissertation, KAIST, 1998 [12] S.O. Kim, J. J. Sienicki, Supercritical Carbon Dioxide Brayton Cycle Energy Conversion, I-NERI Final Reoprt, 2005-001-K, 2009 [13] D.G. Wilson, The Design of High-Efficiency Turbomachinery and Gas Turbines, The MIT Press, 1985 [14] M.P. Boyce, Gas Turbine Engineering Handbook, Second Edition, Gulf Professional Publishing, 2002 [15] A.V. Moisseytsev, J. J. Sienicki, and D. C. Wade, “Cycle Analysis of Supercritical CO2 Gas Turbine Brayton Cycle Power Conversion System for Liquid Metal-Cooled Fast Reactors,” Proc. 11th Int. Conf. on Nuclear Engineering, Tokyo, Japan, April 20-23, 2003 [16] T.W. Kim, N.H. Kim, K.Y. Suh, and S.O. Kim, “Computational Analysis of Supercritical Carbom Dioxide Flow around A Turbine and Compressor Blade,” Proc. of ICONE15, April 22-26, 2007, Nagoya, Japan [17] S. J. Dewson, C. Grady, Hetric Workshop at MIT, Cambridge, Ma, U.S.A., October 2nd., 2003 [18] H. Ishikawa, S. Miyahara and Y. Yoshizawa, “Experimental Study of Sodium-Carbon Dioxide Reaction,” Proc. of ICAPP-2005, Seoul, Korea, May 15-19, 2005 [19] K. Gezelius, M.J. Driscoll, P. Hejzlar, Design of Compact Intermediate Heat Exchangers for Gas Cooled Fast Reactor, MIT-ANP-TR-103, 2004 [20] N. Tsuzuki, Y. Kato, and T. Ishizuka, “High Performance Printed Circuit Heat Exchanger, Applied Thermal Engineering,” Vol. 27, pp. 1702~1707, 2007 [21] T. Ishizuka, Y. Kato, et.al., “Thermal-Hydraulic Characteristics of a Printed Circuit Heat Exchanger in a Supercritical CO2 Loop”, NURETH-11, Avignon, France, pp. 218~232, 2005 [22] H. Song et al., “Experimental Investigations of a Printed circuit heat exchanger for Supercritical CO2 and Water Heat Exchange”, Proceedings of 5th Korea-Japan Symposium Thermal Hydraulics and Safety, Jeju, Korea, 2006 [23] S.C. Song, “Thermal-Hydraulic Performance of a Printed Circuit Heat Exchanger in an Air Test Loop”, MS Thesis, Korea Advanced Institute of Science and Technology, 2006 [24] nHance Technology, Inc., MMS Basic Manual [25] C. Latge, G. Rodriguez and N. Simon, “Supercritical CO2 Brayton Cycle for SFR : Na-CO2 Interaction and Consequences on Design and Operation,” GLOBAL-2005, Tsukuba, Japan, Oct. 9-13, 2005 [26] H. Ishikawa, S. Miyahara and Y. Yoshizawa, “Experimental Study of Sodium-Carbon Dioxide Reaction,” Proc. of ICAPP05, Seoul, Korea, May 15-19, 2005 [27] D.H. Hahn, et al., “Design Features of Advanced Sodium- Cooled Fast Reactor KALIMER-600,” Proc. of ICAPP04, Pittsburgh, PA USA, June 13-17, 2004 1044 NUCLEAR ENGINEERING AND TECHNOLOGY, VOL.41 NO.8 OCTOBER 2009PDF Image | DEVELOPMENT OF A SUPERCRITICAL CO2 BRAYTON ENERGY
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