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References
—, “Standards of the Tubular Exchanger Manufacturers Association,” 7th Edition, Tubular Exchanger Manufacturers association, New York, 1988.
Fraas, A. P and M. N. Ozisik, “Heat Exchanger Design,” Wiley, 1965
Harpster, Joseph W., “An Impact on Plant Performance from Advanced Instrumentation,” 44th Annual ISA Industry Symposium, July 2001, Fl. USA
Harpster, Joseph W., “On Understanding the Behavior of Non-Condensables in the Shell Side of Steam Surface Condensers,” ASME Conference, June 2001, Louisiana. USA
Incropera, Frank P. and David P. De Witt, “Fundamentals of Heat And Mass Transfer,” 3rd Edition, John Wiley & Sons, 1990
Kakac, Sadik and Hongtan Liu, “Heat Exchangers Selection, Rating, and Thermal Design,” CRC Press LLC, 1998.
Kreith, F. and R. F. Boehm, “Direct — Contact Heat Exchangers,” Hemisphere Pub. Corp., 1988
Li, Chung Hsiung, “Exact Transient Solutions of Parallel-Current Transfer Processes,” Journal of Heat Transfer, Vol. 108, 365–369, May 1986.
Lorenzini, E., et. al., “Numerical Transient Analysis of Parallel and Counter Flow Heat Exchangers,” Journal of Heat and Technology, Vol. 7, No. 2, 1989.
Nahavandi A. N., M. A. Vorkas, and V. J. D’emidio, “Cost Optimization of Vertical Natural Circulation Steam Generators,” Nuclear Engineering and Design 36, 1976.
Romie, F. E., “Transient Response of the Counterflow Heat Exchanger,” Transactions of ASME, Vol. 106, 620–626. August 1984
Singh, K. P. and A. I. Soler, “Mechanical Design of Heat Exchangers,” Arcturus Publishers, 1984
Taborek, et. al., “Heat Exchangers, Theory and Practice” Hemisphere Publishing Corp. 1983
—, ASME Fluid Meters Research Committee, “The ISO-ASME Orifice Coefficient Equation”, Mech. Eng. July 1981.
—, ASME, “Flowmeter Computation Handbook,” New York, 1961.
Baker, Roger C., “Flow Measurement Handbook, Industrial Designs, Operating Principles, Performance, and Applications,” Cambridge University Press, 2000.
—, Flow Control Magazine, April/May, 2000.
Bean, H. S., “Flow Meters: Their Theory and Application,” 6th ed., ASME, New York, 1971 Control magazine, October 2002
Cussler, E. L., “Diffusion. Mass Transfer in Fluid Systems,” 2nd. Edition. Cambridge University Press, 1997.
Holman, J. P., “Experimental Methods for Engineers,” 7th edition, McGraw Hill 2001.
King, L. V., “On the Convection of Heat from Small Cylinders in a Stream of Fluid, with Applications to Hot-Wire Anemometry,” Phil. Trans. Roy. Soc. London, vol. 214, no. 14, p. 373, 1924.
Kline, S. J. and F. A. McClitock, “Describing Uncertainties in Single-Sample Experiments,” Mechanical Engineering, 75, 1, pp. 3–9. January 1953
Karassik, I. J., "Pump Handbook," 2nd Ed. McGraw-Hill. 1986.
Kreith, Frank and D. Yogi Goswami, “The CRC Handbook of Mechanical Engineering,” 2nd edition, CRC Press, 2005.
Krivchenko, G. I., “Hydraulic Machines, Turbines and Pumps,” Mir Publishers, Moscow, 1986.
Mott, Robert L., “Applied Fluid Mechanics,” 4th ed., Macmillan Publishing Company, 1994.
White, F. M., “Fluid Mechanics,” 2nd. Ed. McGraw Hill. 1986.
Wiely, Benjamin E. and Victor L. Streeter, “Fluid Transients in Systems,” Prentice Hall, 1997.
Wislicenus, G. F., “Fluid Mechanics of Turbomachinery,” 2nd edition, McGraw Hill, 1965.
Burgreen, David, “Flow Coastdown in a Loop after Pumping Power Cutoff,” Nuclear Science and Engineering, 6, 306–312, 1959.
Edwards D. K., et al, “Transfer Processes. An Introduction To Diffusion, Convection and Radiation,” 2nd Edition, McGraw Hill.
George, Thomas L., et. al., “GOTHIC Containment Analysis Package, Technical Manual,” Version 6.1, July 1999. NAI 8907-06, Rev. 9
Hargroves, D.W. and L. J. Metcalfe et. al., “CONTEMPT-LT/028A Computer Program for Predicting Containment Pressure — Temperature Response to a Loss-Of-Coolant-Accident,” NUREG/CR-0255, 1979.
Kao, Shih Ping, “A Multiple-Loop Primary System Model for Pressurized Water Reactor Plant Sensor Validation,” Ph.D. Thesis, Department of Nuclear Engineering, MIT, 1984.
Lin, C. C. et. al., “CONTEMPT4/MOD4, A Multi-compartment Containment System Analysis Program,” NUREG/CR-3716, BNL-NUREG-51754, March 1984.
McFadden, J. H. et. al., “RETRAN-02 — A Program for Transient Thermal-Hydraulic Analysis of Complex Fluid Flow Systems,” EPRI NP-1850-CCM-A, Volume 1, Revision 4, 1988.
Myer, John E., “Some Physical and Numerical Considerations for he SSC-S Code,” Brook-haven National Lab., BNL-NUREG 50913, 1978.
Reeder, Douglas L., “LOFT System and Test Description,” NUREG/CR-0247, July 1978.
Rust, J. H., “Nuclear Power Plant Engineering,” Haralson Publishing Co., Buchanon, GA, 1979.
—, “LOFT Integral Test System Design Basis Report,” DBR-1, Aerojet Nuclear Inc., Jan. 1974.
Weisman, J., “Heat Transfer to Water Flowing Parallel to Tube Bundles,” Nuc. Sci. & Eng. 6:78, 1979.
—, “American Nuclear Standard for Decay Heat Power in Light Water Reactors,” American Nuclear Society (ANS), ANSI/ANS-5.1-1979. August 1979.
Almenas, Kazys and Richard Lee, “Nuclear Engineering, An Introduction,” Springer-Verlag, 1992.
Bernath, L., Transactions A.I.Ch.E., 1955.
Brown, Theodore L. and H. Eugene LeMay, Jr., “Chemistry, The Central Science,” 2nd Edition, Prentice-Hall, Inc. 1981
Collier, John G. and Geoffrey F. Hewitt, “Introduction to Nuclear Power,” Hemisphere Publishing Company, 1987.
Connolly, Thomas J., “Foundations of Nuclear Engineering,” John Wiley & Sons, 1978.
Duderstadt, James J. and Louis J. Hamilton, “Nuclear Reactor Analysis,” John Wiley & Sons, 1976.
Evans, Robley D., “The Atomic Nucleus,” McGraw-Hill, Fourteenth Printing, 1972.
Ferziger, Joel H. and P. F. Zweifel, “The Theory of Neutron Slowing Down in Nuclear Reactors, The MIT Press, 1966.
Foster, Arthur R. and Robert L. Wright, Jr., “Basic Nuclear Engineering,” 4th Ed. Allyn & Bacon, 1983.
Glasstone, Samuel and Alexander Sesonske, “Nuclear Reactor Engineering,” Van Nostrand Reinhold Company, 1967.
Henry, Alan F., “Nuclear Reactor Analysis,” The MIT Press, 1975.
Klimov, A., “Nuclear Physics And Nuclear Reactors,” MIR Publishers, Moscow, 1975.
Knief, Ronald Allen, “Nuclear Criticality Safety, Theory and Practice”, Sixth Printing, American Nuclear Society, 1998.
Knoll, Glenn F., Radiation Detection And Measurement,” John Wiley & Sons, 1979.
Mayo, Robert M., “Introduction to Nuclear Concepts for Engineers,” American Nuclear Society, 1998.
Ott, Karl O. and Winfred A. Bezella, “Introductory Nuclear Reactor Statics,” Revised edition, ANS 1989.
Price, William J., “Nuclear Radiation Detection,” second Edition, McGraw-Hill, 1964
Rahman, Inam-Ur and Paulinus S. Shieh, “Introduction to Nuclear Engineering,” Robert E. Krieger Publishing Company, 1981.
Schaeffer, N. M., “Reactor Shielding for Nuclear Engineers,” National Technical Information Center, TID-25951, 1973.
Shultis, J. Kenneth and Richard E. Faw, “Radiation Shielding,” American Nuclear Society, 2000.
Shultis, J. Kenneth and Richard E. Faw, “Fundamentals of Nuclear Science and Engineering,” Marcel Dekker, Inc. 2002.
Walker, F. William, et. al., “Nuclides and Isotopes, Chart of Nuclides,” Fourteenth Edition, GE Nuclear Energy, General Electric Company, 1989.
Weisman, Joel, “Elements of Nuclear Reactor Design,” Second Edition, Robert E. Krieger Publishing Company, 1983.
—, “Residual Decay Energy for Light Water Reactors for Long Term Cooling,” NRC Standard Review Plan (NUREG-0800), Rev. 2, Section 9.2.5–8, Branch Technical Position ASB 9–2, July 1981.
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(2005). Applications. In: Engineering Thermofluids. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-27280-1_6
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