Experimental study of the supercritical water oxidation process within the framework of solving the task of chemical production industrial water runoff treatment

Open Access

Issue		MATEC Web Conf. Volume 245, 2018 International Scientific Conference on Energy, Environmental and Construction Engineering (EECE-2018)


Article Number		12008
Number of page(s)		7
Section		Innovative Technologies in Environmental Management
DOI		https://doi.org/10.1051/matecconf/201824512008
Published online		05 December 2018

V.A. Afanasiev, G.E. Zaikov, In the world of catalysis, (Science, Moscow, 1977) [Google Scholar]
S.E. Alekseev, thesis for the degree of Candidate of Technical Sciences, Research on the processes of ozonation for the intensification of cleaning CB, 23p (2006) [Google Scholar]
O.N. Fedyaeva, A.A. Vostrikov, Russ. J. Phys. Chem. B 6, 844 (2012) [CrossRef] [Google Scholar]
S.B. Rinehimer, Water Cond. Purif. 8 92-95 (1995) [Google Scholar]
E.S. Gayazova, R.A. Usmanov, F.M. Gumerov, S.V. Friedland, Z.I. Zaripov, F.R. Gabitov, R.Z. Musin, IJAMSC 1, 48-54 (2013) [CrossRef] [Google Scholar]
X. Xiaowu, S. Shi-gun, Hefai Uniu. Sсi. 3 (2005) 270-273 [Google Scholar]
C. Jian-guo, L. Ai-min., Z. Quan-xing, Hefai Uniu. Sсi. 3, 326-331 (2004) [Google Scholar]
J. Garcia-Gonzalez, M.J. Molina, F. Rodrigez, F. Mirada, J. Chem 46, 918-921 (2001) [Google Scholar]
F.M. Gumerov, A.N. Sabirzyanov, G.I. Gumerova, Suband supercritical fluids in polymer processing, 336p (2007) [Google Scholar]
G.G. Elimanova, N.N. Batyrshin, A.A. Petukhov, Kh.E. Kharlampidi, Method for preparing soluble molybdenum catalyst. [Google Scholar]
L. Northcott, Molybdenum, in coll.: Molybdenum, trans. from English, Ed. A.C. Nathanson M., (1959) [Google Scholar]
Y.H. Shin, B. Veriansyah, E.-S. Song et al., Supercritical Water Oxidation of industrial Wastewaters, 8 International Symposium on Supercritical Fluids Kyoto (2006) [Google Scholar]
R. Usmanov, F. Shamsetdinov, R. Gabitov, Sh. Biktashev, F. Gumerov, Pilot plant for continuous transesterification of vegetable oils in the environment of supercritical ethanol and methanol, Supercritical Fluids: Theory and Practice 2, 1-19 (2011) [Google Scholar]
F. Gumerov, R. Kayumov, R. Usmanov, A. Sagdeev, I. Abdullin, AJAC 3, 950-957 (2012) [CrossRef] [Google Scholar]
J.L. Hedrick, L.J. Mulcahey, L.T. Taylor. ACS Symp. Ser 15, 206-220 (1992) [CrossRef] [Google Scholar]
G.T. Hong, The NaCl-Na2SO4-H2O system in supercritical water oxidation, In: Physical Chemistry of Aqueous Systems. Meeting the Needs of Industry, 565-572 (1995) [Google Scholar]
A.U. Aetov, R.A. Usmanov, R.R. Gabitov, S.V. Mazanov, M.S. Kurbangaleev, Bulletin of Kazan Technological University 19, 37-39 (2016) [Google Scholar]
F.H. Huang, M.H. Li, L.L. Lee, K.E. Starling, F.T. Chung, J. Chem. Eng. Japan 18, 490-496 (1985) [CrossRef] [Google Scholar]
F.M. Gumerov, R.A. Usmanov, A.U. Aetov, et al. Mass Spectrom. Purif. Tech. 3, 1-4 (2017) [Google Scholar]
R.A. Kayumov, A.A. Sagdeev, F.M. Gumerov, Disposal of molybdenum-containing waste using supercritical fluid media: monograph 144p (2016) [Google Scholar]
P.A. Webley, J.W. Tester, Supercritical Fluid Science and Technology, ACS Symp. Ser 406, 259-275 (1989) [CrossRef] [Google Scholar]
C. Jiang, Q. Pan, Z. Pan, J. of Supercritical Fluids 12, 1-9 (1998) [CrossRef] [Google Scholar]

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