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Quality and Life" № 1(21) 2019. p. 23-28
Modeling of Efficiency of a Separate Link of the Simplest Over-Superficial Electrocatcher of Aerosols from Galvanic Bath
V.I. Garshin, candidate of technical sciences, associate professor of Donskoy state technical university; Rostov-on Don
A.R. Lebedev, candidate of technical sciences, associate professor of Donskoy state technical university; Rostov-on Don
S.E. Gerasikova, senior lecturer of Donskoy state technical university; Rostov-on-Don
e-mail: cjamz-2003@mail.ru
E.S. Fil, engineer, Donskoy state technical university; Rostov-on-Don
Development of the concept of multipurpose over-superficial electrocatcher (MOSEC) of drop aerosols is presented in article. In it for calculation of the electrocatcher the data obtained by means of a method of measurement of a charge of the drops which are thrown out from the single bubble which is breaking off on the surface of liquid in the field of flat air condensate are used. Statistical modeling of elements of a trajectory of drops in electric field with the subsequent calculation of efficiency of process of catching is carried out. Influence of number of separate experiences on stability of result of calculation of efficiency is shown. The regression analysis showed that the considered model adequately describes process of catching of drops that is confirmed by Fischer’s criterion with probability 0.95.
Keywords: concept, over-superficial electrocatcher, charge a capacitor box, heterogeneous, electric charge, regression model, the criterion of adequacy, Fisher, probability.
References
1. Geraskova S.E., Garshin V.I. Statistical data of occupational diseases in galvanic production. New science: Experience, Traditions, Innovations: The international scientific periodical following the results of the International scientific and practical conference (on March 24, 2016, Omsk) in two parts. Sterlitamak, part 2. Available at: http://ami.im/sbornik/MNPK-71-2. pdf (accessed 15 of February 2017).
2. Fil E.S., Garshin V.I. The analysis of methods of fight against drop ablation in galvanic production. Scientific review. Scientific magazine. 2014, No. 11, part 3. pp. 691–694.
3. Garshin V.I., Zhadan A.I., Vatutin N.V. About electric filtering of aerosols of droplet emission over electroplating baths. Improving the efficiency and efficiency of heating and ventilation systems (Interuniversity collection). Rostov construction engineering. Rostov-on-Don, 1984. pp. 76–79.
4. Garshin V.I., Mediokritsky E.L., Zhadan A.I., Fomin I.M., Vishnevetskaya A.N., Gaponov V.L. A device for trapping liquid aerosols. Patent RF №2050979 BOC 3/16 /. Bulletin No. 36. 5 p.
5. Garshin V.I. Investigation of electrowatching processes of harmful substances released into the air environment of electroplating plants. Abstract of dissertation for the degree of candidate of technical sciences. Rostov-on-Don, 1995. 17 p.
6. Vorobieva O.Yu., Garshin V.I., Gaponov V.L. Experience planning an experiment to optimize electrowat electroplating aerosols. Life Safety. Labor protection and environment: interuniversity collection of scientific works B 40, Issue 5. Rostov state academy of agricultural engineering. Rostov-on-Don. 2001. pp. 97–98. ISBN 5-89071-065-6.
7. Garshin V.I., Harchenko V.A. Research of drop emission in galvanic production. Health and safety. «New technologies». Moscow, 2005, No. 2. pp. 49–53.
8. Garshin V.I., Fil E.S. Information support of control systems of electrocatching of galvanic aerosols. Potential of modern science. Research and production periodic magazine. Lipetsk, 2014, No. 3. pp. 20–24.
9. Garshin V.I., Gaponov V.L., Geraskova S.E., Lebedev A.R. Statistical modeling of electroplating processes and devices of electroplating aerosols. Technosphere safety, reliability, quality, energy saving. Materials of the International scientific-practical conference. Issue XIV. Rostov state university of civil engineering. Rostov-on-Don, 2012, Volume 1. pp. 102–110.
10. Garshin V.I., Gaponov V.L., Geraskova S.E., Cherednichenko O.P., Baklanova A.V. Electrolytic electroplating aerosols. Patent for a useful bulletin of RF No. 2011152587/03. Bulletin No. 19. 4 p.
11. Fil E.S., Garshin V.I., Pushenko S.L., Gapo- nov V.L. Electrolytic electroplating aerosols. Patent for useful model RF No. 140335 2006.01 B03C 3/16, B03C 3/02, B03C 3/016. No. 13.
12. Gaponov V.L. On the ways to implement an optimal drip flyback capture system in electroplating. Quality and life. 2016, No. 4 (12). pp. 89–92.
13. Fil E.S., Garshin V.I., Scherbina E.V. Patent for utility model RU 172728 IPC G01№21/91. Device for the rapid determination of the dispersed composition of aerosols. Bulletin No. 36. 8 p.
Keywords: concept, over-superficial electrocatcher, charge a capacitor box, heterogeneous, electric charge, regression model, the criterion of adequacy, Fisher, probability.
References
1. Geraskova S.E., Garshin V.I. Statistical data of occupational diseases in galvanic production. New science: Experience, Traditions, Innovations: The international scientific periodical following the results of the International scientific and practical conference (on March 24, 2016, Omsk) in two parts. Sterlitamak, part 2. Available at: http://ami.im/sbornik/MNPK-71-2. pdf (accessed 15 of February 2017).
2. Fil E.S., Garshin V.I. The analysis of methods of fight against drop ablation in galvanic production. Scientific review. Scientific magazine. 2014, No. 11, part 3. pp. 691–694.
3. Garshin V.I., Zhadan A.I., Vatutin N.V. About electric filtering of aerosols of droplet emission over electroplating baths. Improving the efficiency and efficiency of heating and ventilation systems (Interuniversity collection). Rostov construction engineering. Rostov-on-Don, 1984. pp. 76–79.
4. Garshin V.I., Mediokritsky E.L., Zhadan A.I., Fomin I.M., Vishnevetskaya A.N., Gaponov V.L. A device for trapping liquid aerosols. Patent RF №2050979 BOC 3/16 /. Bulletin No. 36. 5 p.
5. Garshin V.I. Investigation of electrowatching processes of harmful substances released into the air environment of electroplating plants. Abstract of dissertation for the degree of candidate of technical sciences. Rostov-on-Don, 1995. 17 p.
6. Vorobieva O.Yu., Garshin V.I., Gaponov V.L. Experience planning an experiment to optimize electrowat electroplating aerosols. Life Safety. Labor protection and environment: interuniversity collection of scientific works B 40, Issue 5. Rostov state academy of agricultural engineering. Rostov-on-Don. 2001. pp. 97–98. ISBN 5-89071-065-6.
7. Garshin V.I., Harchenko V.A. Research of drop emission in galvanic production. Health and safety. «New technologies». Moscow, 2005, No. 2. pp. 49–53.
8. Garshin V.I., Fil E.S. Information support of control systems of electrocatching of galvanic aerosols. Potential of modern science. Research and production periodic magazine. Lipetsk, 2014, No. 3. pp. 20–24.
9. Garshin V.I., Gaponov V.L., Geraskova S.E., Lebedev A.R. Statistical modeling of electroplating processes and devices of electroplating aerosols. Technosphere safety, reliability, quality, energy saving. Materials of the International scientific-practical conference. Issue XIV. Rostov state university of civil engineering. Rostov-on-Don, 2012, Volume 1. pp. 102–110.
10. Garshin V.I., Gaponov V.L., Geraskova S.E., Cherednichenko O.P., Baklanova A.V. Electrolytic electroplating aerosols. Patent for a useful bulletin of RF No. 2011152587/03. Bulletin No. 19. 4 p.
11. Fil E.S., Garshin V.I., Pushenko S.L., Gapo- nov V.L. Electrolytic electroplating aerosols. Patent for useful model RF No. 140335 2006.01 B03C 3/16, B03C 3/02, B03C 3/016. No. 13.
12. Gaponov V.L. On the ways to implement an optimal drip flyback capture system in electroplating. Quality and life. 2016, No. 4 (12). pp. 89–92.
13. Fil E.S., Garshin V.I., Scherbina E.V. Patent for utility model RU 172728 IPC G01№21/91. Device for the rapid determination of the dispersed composition of aerosols. Bulletin No. 36. 8 p.
