Guzonas

RH Yoon, D Guzonas, BS Aksoy. Processing of hydrophobic minerals and fine coal. Proceedings of the First UBC-McGill Bi-Annual International Symposium, Vancouver, 1995, pp 277-289. [Pg.513]

Moskovits, M. (1985). Surface-enhanced spectroscopy. Rev. Mod. Phys. 57, 783. Guzonas, D.A., G.F. Atkinsons, and D.E. Irish (1984). Surface-enhanced Raman scattering of the non-aqueous system silver/acetonitrile, KSCN. Chem. Phys. Lett, 107, 193. [Pg.792]

Key water chemistry issues have been identified by Guzonas et al. (2012) predicting and controlling water radiolysis and corrosion product transport (including fission products) remain the major R D areas. In this regard, the operating experience using nuclear steam reheat at the Beloyarsk nuclear power plant (NPP) in Russia is extremely valuable. [Pg.52]

Guzonas, D., Brosseau, F., Tremaine, P., Meesungnoen, J., Jay-Gerin, J.-P., 2012. Water chemistry in a supercritical water-cooled pressure tube reactor. Nuclear Technology 179. [Pg.54]

Guzonas, D., Novotny, R., 2014. Supercritical water-cooled reactor materials — summary of research and open issues. Progress in Nuclear Energy 77, 361—372. [Pg.219]

Yetisir, M., Gaudet, M., Rhodes, D., Guzonas, D., Hamilton, H., Haque, Z., Fencer, J., Sartipi, A., 2014. Reactor core and plant design of the Canadian supercritical water-cooled reactor. In Froc. 2014 Canada—China Conference on Advanced Reactor Development (CCCARD-2014), Niagara Falls, Ontario, Canada, April 27-30, 2014. [Pg.220]

Water chemistry factors include coolant density, pH, additive and impurity concentrations, and water radiolysis. Guzonas et al. [53] reported little difference in corrosion at 450°C in oxygenated water, deoxygenated water, and water plus ammonia and... [Pg.118]

To account for changes in physical properties of water in the vicinity of the critical point, Guzonas and Cook [34] extended a phenomenological model of Guan and Macdonald [67] by adding direct chemical oxidation (CO) as a parallel process to electrochemical oxidation (EO). The relative corrosion rate, R, is given by Eq. (4.5) ... [Pg.122]

However, the model does not consider the physicochemical properties of the solvent. Guzonas [55] suggested that the expression proposed by Ohve and Cook [89] for the precipitated oxide thickness ... [Pg.128]

D.A. Guzonas, M.K. Edwards, W. Zheng, Assessment of candidate fuel cladding alloys for the Canadian supercritical water-cooled reactor concept, in 7th International S) -posium on Supercritical Water-Cooled Reactors (ISSCWR-7), March 15—18, 2015. Helsinki, Finland, Paper ISSCWR7-2090. [Pg.143]

D. Guzonas, Extreme water chemistry — how gen IV water chemistry research improves gen in water-cooled reactors, in The 19th Pacific Basin Nuclear Conference (PBNC 2014), August 24—28, 2014. Hyatt Regency Hotel, Vancouver, British Columbia, Canada, Paper PBNC2014-359. [Pg.144]

L. Qiu, D.A. Guzonas, Prediction of metal oxide stability in supercritical water reactors —Pourbaix versus Elhngham, in The 3rd Canada-China Joint Workshop on Supercritical Water-Cooled Reactors (CCSC-2012), Xian, China, April 25—28, 2012. [Pg.144]

A.S. Bakai, D.A. Guzonas, VJ4. Boriskin, AJ4. Dovbnya, S.V. Dyuldya, Supercritical water convection loop for SCWR materials corrosion tests under electron irradiation first results and lessons learned, in 6th International Symposium on Supercritical Water-Cooled Reactors (ISSCWR-6), March 03—07, 2013. Shenzhen, Guangdong, China, Piqjer ISSCWR6-13062. [Pg.144]

D.A. Guzonas, W.G. Cook, Cycle chemistry and its effect on materials in a supercritical water-cooled reactor a synthesis of current uuderstaudiug, Corros. Sci. 65 (December 2012) 48-66. [Pg.145]

IM. Svishchev, R.A. Carvqal-Ortiz, K.I. Choudhry, D.A. Guzonas, Corrosion behavior of stainless steel 316 in suh- and supercritical aqueous environments effect of liOH additions, Corros. Sci. 72 (July 2013) 20—25. [Pg.146]

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