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Further reading 235
[6] Westinghouse Electric Company, The Westinghouse Pressurized Water Reactor Nuclear
Power Plant, Westinghouse Electric Company, Pittsburgh, 1984.
[7] D.N. Fry, J. March-Leuba, F.J. Sweeney, Use of Neutron Noise for Diagnosis of In-
Vessel Anomalies in Light Water Reactors, Oak Ridge National Laboratory, 1984,
ORNL/TM-8774 (NUREG/CR-3303, January).
[8] W.J. Garland, The Essential CANDU: A Textbook on the CANDU Nuclear Power Plant
Technology, UNENE, McMaster University, Canada, 2019.
[9] P. Swaminathan, Modeling of Instrumentation and Control System of Prototype Fast
Breeder Reactor, Doctoral Dissertation, Sathyabama University, Chennai, India, 2008.
[10] G. Vaidyanathan, et al., Sensors in sodium cooled fast breeder reactors, Natl. J. Electron.
Sci. Syst. (India) 3 (2) (2012) 78–87.
[11] K. Velusamy, et al., Overview of pool hydraulic design of Indian prototype fast breeder
reactor, Sadhana 35 (2) (2010) 97–128.
[12] HTGR Technology Course for the Nuclear Regulatory Commission, Module 12, Instru-
mentation and Controls (I&C) and Control Room Design, INL and General Atomics,
May 24–27, 2010.
[13] E.S. Bettis, L.G. Alexander, H.L. Watts, Design Studies of a Molten-Salt Reactor Dem-
onstration Plant, Oak Ridge National Laboratory, ORNL-TM-3832, 1972.
[14] K. Korsah, et al., Assessment of Sensor Technologies for Advanced Reactors, ORNL/
TM-2016/337, August, 2016.
Further reading
[15] S.J. Ball, D.E. Holcomb, S.M. Cetiner, HTGR Measurements and Instrumentation, Oak
Ridge National Laboratory, ORNL/TM-2012/107, 2012.
[16] T.W. Kerlin, R.L. Shepard, Industrial Temperature Measurement, Instrument Society of
America, Research Triangle Park, NC, 1982.
[17] T.W. Kerlin, M. Johnson, Practical Thermocouple Thermometry, second ed., Interna-
tional Society of Automation, Research Triangle Park, NC, 2012.
