EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 193 (2020) E3S Web Conf., 193 (2020) 02002 References
Open Access
Issue
E3S Web Conf.
Volume 193, 2020
International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2020)
Article Number 02002
Number of page(s) 8
Section Ecology and Labor Protection
DOI https://doi.org/10.1051/e3sconf/202019302002
Published online 08 October 2020
  1. B.G. Pokusaev, D.A. Kazenin, S.P. Karlov, Yu.N. Skochilova, Areas of influence of an impurity source in filtration flows, Ecology and Industry of Russia, 4, pp. 41-43 (2008) [Google Scholar]
  2. A.A. Sheldaisov-Meshcheryakov, P.S. Solmanov, N.M. Maximov, A.V. Mozhaev, D.I. Ishutenko, P.A. Nikul’shin, A.A. Pimerzin, Influence of the Pore Structure of a Catalyst for Demetallization of Petroleum Feedstock on the Process Results, Russian Journal of Applied Chemistry, 92, 10, pp. 1392-1398 (2019) [CrossRef] [Google Scholar]
  3. E.V. Shiryaeva, Yu.V. Gutin, A.A. Aksenov, Determination of filtration and dewatering parameters of sediments in industrial filters, Chemical and Petroleum Engineering, 44(11-12), pp. 611-621 (2008) [CrossRef] [Google Scholar]
  4. E.N. Dyachenko, N.N. Dyachenko, Numerical modeling of filtration of liquid through layer of bulk filter, Theoretical Foundations of Chemical Engineering, 47(3), pp. 262-265 (2013) [CrossRef] [Google Scholar]
  5. F.G. Akhmadiev, I.G. Bekbulatov, M.I. Farakhov, C.K. Isyanov, Mathematical modeling of filtering process of two-phase suspensions in tubular filters under nonisothermal conditions, Theoretical Foundations of Chemical Engineering, 50(1), pp. 41-51 (2016) [CrossRef] [Google Scholar]
  6. B.G. Pokusaev, E.A. Tairov, P.V. Khan, D.P. Khramtsov, Numerical and Analytical Approaches to Modeling Critical Two-Phase Flow with Granular Layer, Journal of Engineering Thermophysics, 27(1), pp. 20-29 (2018) [CrossRef] [Google Scholar]
  7. D.P. Khramtsov, A.V. Vyazmin, B.G. Pokusaev, S.P. Karlov, D.A. Nekrasov, Numerical simulation of slug flow mass transfer in the pipe with granular layer, Chemical Engineering Transactions, 52, pp. 1033-1038 (2016) [Google Scholar]
  8. O.M. Sokovnin, S.N. Zagoskin, Kinetics of sorption of particles on granular filter, Theoretical Foundations of Chemical Engineering, 38(4), pp. 399-403 (2004) [CrossRef] [Google Scholar]
  9. A. Dmitriev, I. Madyshev, O. Dmitrieva, Experimental Study of Hydraulic and Heat and Mass Transfer Parameters of Inclined-corrugated Contact Elements of Cooling Tower Sprinkler, Ecology and Industry of Russia, 24(1), pp. 4-8 (2020) [CrossRef] [Google Scholar]
  10. A.B. Golovanchikov, V.A. Balashov, N.A. Merentsov, The filtration equation for packing material, Chem. and Pet. Eng., 53, pp. 10-13 (2017) [CrossRef] [Google Scholar]
  11. N.А. Merentsov, V.А. Balashov, D.Y. Bunin, V.N. Lebedev, A.V. Persidskiy, М.V. Topilin, Method for experimental data processing in the sphere of hydrodynamics of packed heat and mass exchange apparatuses, MATEC Web of Conf., 243, 5 (2018) [CrossRef] [Google Scholar]
  12. E.V. Shiryaeva, Y.V. Gutin, Methods of selecting primary and auxiliary equipment for industrial vacuum-filtration plants, Chemical and Petroleum Engineering, 46(5), pp. 298-304 (2010) [CrossRef] [Google Scholar]
  13. I.N. Madyshev, A.I. Khafizova, O.S. Dmitrieva, The study of gas-liquid flow dynamics in the inclined-corrugated elements of cooling tower filler unit, E3S Web of Conf., 126, 00031 (2019) [CrossRef] [Google Scholar]
  14. N.А. Merentsov, A.V. Persidskiy, M.V. Topilin, V.N. Lebedev, V.А. Balashov, A.B. Golovanchikov, Journal of Phys.: Conf. Ser., 1278, 012024 (2019) [CrossRef] [Google Scholar]
  15. A.B. Golovanchikov, N.A. Merentsov, M.V. Topilin, A.V. Persidskiy, IOP Conf. Ser.: Earth and Environmental Science, 288, 012089 (2019) [CrossRef] [Google Scholar]
  16. N. Merentsov, A. Persidskiy, M. Topilin, A. Golovanchikov, Sectional automatic adjustment of catalyst layers in gas and liquid phase reactors, MATEC Web of Conf., 298, 00030 (2019) [CrossRef] [Google Scholar]
  17. N.A. Merentsov, A.V. Persidskiy, V.V. Groshev, V.A. Kozlovtsev, A.B. Golovanchikov, Journal of Phys.: Conf. Ser., 1399, 044041 (2019) [CrossRef] [Google Scholar]
  18. A. Fomenko, L. Sokolov, Sorption Removal of Oil Products from Waste Water, Ecology and Industry of Russia, 19(5), pp. 8-12 (2015) [CrossRef] [Google Scholar]
  19. E. Dremicheva, Use of Agricultural Waste for Wastewater Treatment of Industrial Enterprises, Ecology and Industry of Russia, 23(4), pp. 16-19 (2019) [CrossRef] [Google Scholar]
  20. A. Prolejchik, I. Gaponenkov, O. Fedorova, Extraction of Heavy Metal Ions from Inorganic Wastewater, Ecology and Industry of Russia, 22(3), pp. 35-39 (2018) [CrossRef] [Google Scholar]
  21. L.A. Nikolaeva, M.A. Golubchikov, A.R. Minneyarova, Research on the Mechanism and Kinetics of Oil-Product Adsorption from Industrial Wastewater by a Modified Hydrophobic Carbonate Sludge, Chemical and Petroleum Engineering, 53(11-12), pp. 806-813 (2018) [CrossRef] [Google Scholar]
  22. L.I. Sokolov, Use of wastes of grinding industry for cleaning of chromium containing effluent waters, World Applied Sciences Journal, 22(5), pp. 690-696 (2013) [Google Scholar]
  23. N.A. Merentsov, S.A. Bokhan, V.N. Lebedev, A.V. Persidskiy, V.A. Balashov, System for centralised collection, recycling and removal of waste pickling and galvanic solutions and sludge, Materials Science Forum, 927, pp. 183-189 (2018) [CrossRef] [Google Scholar]
  24. R. Alexandrov, D. Feklistov, N. Laguntsov, I. Kurchatov, Mobile Installation of Water Treatment in the Aftermath of Emergency Situations, Ecology and Industry of Russia, 23(1), pp. 4-10 (2019) [CrossRef] [Google Scholar]
  25. E. Dremicheva, Use of Agricultural Waste for Wastewater Treatment of Industrial Enterprises, Ecology and Industry of Russia, 23(4), pp. 16-19 (2019) [CrossRef] [Google Scholar]
  26. E.S. Dremicheva, A.G. Laptev, Modeling the Process of Sorption for the Purification of Waste Water from Petroleum Products and Heavy Metals, Theoretical Foundations of Chemical Engineering, 53(3), pp. 355-363 (2019) [CrossRef] [Google Scholar]
  27. E.S. Dremicheva, E.V. Shamsutdinov, Intensification of sedimentation treatment of wastewater from oil products, Water and Ecology, 1, pp. 3-8 (2018) [CrossRef] [Google Scholar]
  28. L.A. Nikolaeva, R.Y. Iskhakova, Integrated Wastewater Treatment for a GRES, Thermal Engineering, 66(8), pp. 587-592 (2019) [CrossRef] [Google Scholar]
  29. L.A. Nikolaeva, R.Ya. Iskhakova, Adsorption of industrial wastewater from oil products with application of mathematical modeling, IOP Conference Series: Earth and Environmental Science, 288(1), 012017 (2019) [CrossRef] [Google Scholar]
  30. L.A. Nikolaeva, D.A. Khamzina, Purification of water sources from oil contamination by hydrophobic carbonate sludge, IOP Conference Series: Earth and Environmental Science, 288(1), 012018 2019 [CrossRef] [Google Scholar]
  31. L.A. Nikolaeva, R.Y. Iskhakova, Mathematical Modeling of Wastewater Treatment by Adsorption of Petroleum Products, Chemical and Petroleum Engineering, 55(1-2), pp. 68-75 (2019) [CrossRef] [Google Scholar]
  32. N. Merentsov, A. Persidskiy, M. Topilin, Description of the process and packing materials for pulse liquid extraction, Materials Today: Proceedings, 19(5), pp. 1908-1912 (2019) [CrossRef] [Google Scholar]
  33. N. Merentsov, A. Persidskiy, V. Lebedev, Automatic parameter adjustment system for packing materials and control of flow modes in mass exchange columns, Materials Today: Proceedings, 19(5), pp. 1899-1903 (2019) [CrossRef] [Google Scholar]
  34. N. Merentsov, A. Persidskiy, V. Lebedev, M. Topilin, A. Golovanchikov, Modelling and Calculation of Industrial Absorber Equipped with Adjustable Sectioned Mass Exchange Packing, Advances in Intelligent Systems and Computing, 983, pp. 560-573 (2019) [CrossRef] [Google Scholar]
  35. L.A. Nikolaeva, A.R. Minneyarova, Adsorption Treatment of Reverse-Osmosis Concentrate from Water-Treatment Units at Thermal Power Stations, Thermal Engineering, 66(5), pp. 372-376 (2019) [CrossRef] [Google Scholar]
  36. L.A. Nikolaeva, M.A. Golubchikov, A.R. Minneyarova, Research on the Mechanism and Kinetics of Oil-Product Adsorption from Industrial Wastewater by a Modified Hydrophobic Carbonate Sludge, Chemical and Petroleum Engineering, 53(11-12), pp. 806-813 (2018) [CrossRef] [Google Scholar]
  37. L.A. Nikolaeva, M.A. Golubchikov, Study of the sorption of oil products of power station wastewater modified with a TPP illuminator slurry, Thermal Engineering, 59(5), pp. 404-407 (2012) [CrossRef] [Google Scholar]
  38. L.A. Nikolaeva, R.Ya. Nedzvetskaya, Purification of effluent waters from industrial enterprises using a biosorption technology, Thermal Engineering, 59(3), pp. 258-260 (2012) [CrossRef] [Google Scholar]
  39. N.A. Merentsov, V.A. Balashov, S.A. Bokhan, E.E. Nefed’eva, D.A. Tezikov, V.V. Groshev, Modeling and calculation of flow filter, IOP Conf. Ser.: Earth and Envir. Sci., 224, 012041 (2019) [CrossRef] [Google Scholar]
  40. A. Kutergin, T. Nedobukh, The Use of Aluminosilicate Sorbent for the Purification of Natural Waters from Heavy Metals, Ecology and Industry of Russia, 24(3), pp. 19-23. (2020) [CrossRef] [Google Scholar]
  41. P.A. Krivosheev, L.F. Komarova, M.A. Poletaeva, I.A. Lebedev, S.S. Lavrinenko, Wastewater treatment with new activated charcoals to remove butano, Russian Journal of Applied Chemistry, 77(9), pp. 1515-1517 (2004) [CrossRef] [Google Scholar]
  42. V. Smirnov, V. Dyrdin, T. Kim, A. Manakov, Effect of the hydrate saturation of the pores of coal bed on the gradient of gas pressure and the rise of outburst danger, E3S Web of Conferences, 105, 01044 (2019) [CrossRef] [EDP Sciences] [Google Scholar]
  43. T. Kim, V. Dyrdin, V. Smirnov, V. Nesterov, Gas hydrates in coal seams and their impact on gas-dynamic processes in underground mining, E3S Web of Conferences, 15, 01022 (2017) [Google Scholar]
  44. N.A. Merentsov, A.B. Golovanchikov, M.V. Topilin, A.V. Persidskiy, D.A. Tezikov, Journal of Phys.: Conf. Ser., 1399, 055028 (2019) [CrossRef] [Google Scholar]
  45. A. Golovanchikov, N. Merentsov, Modelling of Absorption Process in a Column with Diffused Flow Structure in Liquid Phase, Advances in Intelligent Systems and Computing, 983, pp. 635-644 (2019) [CrossRef] [Google Scholar]
  46. A. Golovanchikov, N. Merentsov, Ion Exchange in Continuous Apparatus with Diffused Flow Structure in Liquid, Advances in Intelligent Systems and Computing, 983, pp. 645-652 (2019) [CrossRef] [Google Scholar]
  47. A.B. Golovanchikov, N.А. Merentsov, M.V. Topilin, Journal of Phys.: Conf. Ser., 1278, 012023 (2019) [CrossRef] [Google Scholar]
  48. A. Prolejchik, I. Gaponenkov, O. Fedorova, Extraction of Heavy Metal Ions from Inorganic Wastewater, Ecology and Industry of Russia, 22(3), pp. 35-39 (2018) [CrossRef] [Google Scholar]
  49. A.I. Fomenko, L.I. Sokolov, Study of Sorption Properties of Bog Ores for Extraction of Manganese and Iron Ions from Ground Water, Russian Journal of Applied Chemistry, 92(2), pp. 288-294 (2019) [CrossRef] [Google Scholar]
  50. N.G. Rachkova, I.I. Shuktomova, Sorption of uranium, radium, and thorium by analcym-containing rock and sorbents based on plant tissue, Russian Journal of Applied Chemistry, 83(4), pp. 620-624 (2010) [CrossRef] [Google Scholar]
  51. T.A. Zaporozhskikh, Ya.K. Tret’yakova, V.A. Grabel’nykh, N.V. Russavskaya, V.Yu. Vshivtsev, E.P. Levanova, E.N. Sukhomazova, I.V. Korabel, N.A. Korchevin, Granulated sulfur-containing sorbents for recovery of heavy metal ions from aqueous solutions, Russian Journal of Applied Chemistry, 81(5), pp. 886-888 (2008) [CrossRef] [Google Scholar]
  52. A.I. Fomenko, L.I. Sokolov, Sorption properties of fly ash microspheres of thermal power plants, Ecology and Industry of Russia, 23(1), p. 50-54 (2019) [CrossRef] [Google Scholar]
  53. V.G. Smirnov, V.V. Dyrdin, A.Y. Manakov, N.I. Fedorova, N.V. Shikina, Z.R. Ismagilov, Physicochemical and Sorption Properties of Natural Coal Samples with Various Degrees of Metamorphism, Russian Journal of Applied Chemistry, 92(10), pp. 1410-1421 (2019) [CrossRef] [Google Scholar]
  54. A.I. Fomenko, L.I. Sokolov, Ash of incineration plants as industrial resource for extracting rare earth elements, Ecology and Industry of Russia, 21(12), pp. 28-31 (2017) [CrossRef] [Google Scholar]
  55. N. Merentsov, A. Persidskiy, V. Lebedev, A. Golovanchikov, Automatic Control of Operating Modes of Packed Apparatus for Selective Gas Emissions Cleaning, Ecology and Industry of Russia, 24(2), pp. 10-16 (2020) [CrossRef] [Google Scholar]
  56. N. Merentsov, A. Persidskiy, V. Lebedev, A. Golovanchikov, The use of industrial wastes from machine-building enterprises as packing materials for small-sized absorbers for gas emissions purification, MATEC Web of Conf., 298, 00031 (2019) [CrossRef] [Google Scholar]
  57. A.I. Fomenko, L.I. Sokolov, A study of sorption of phosphate ions from aqueous solutions by wood ash, Russian Journal of Applied Chemistry, 88(4), pp. 652-656 (2015) [CrossRef] [Google Scholar]
  58. E.S. Dremicheva, Studying the sorption kinetics on peat ions of iron(III) and copper(II) from wastewater, Moscow University Chemistry Bulletin, 72(4), pp. 196-199 (2017) [CrossRef] [Google Scholar]
  59. L.A. Nikolaeva, É.G. Khamitova, The Use of Energy Industry Waste as Sorption Material in the Purification of Reverse Osmosis Concentrate, Chemical and Petroleum Engineering, 55(5-6), pp. 427-432 (2019) [CrossRef] [Google Scholar]
  60. L.A. Nikolaeva, É.R. Zainullina, A.K. Al’-Okbi, Adsorption Drying of Natural Gas by Carbonate Sludge, Chemical and Petroleum Engineering, 54(11-12), pp. 919-925 (2019) [CrossRef] [Google Scholar]
  61. L.A. Nikolaeva, A.N. Khusnutdinov, A Study of the Absorption of Nitrogen Oxides from the Boiler Flue Gases, Thermal Engineering, 65(8), pp. 575-579 (2018) [CrossRef] [Google Scholar]
  62. L.A. Nikolaeva, A.N. Khusnutdinov, Purification of gas emissions of chemical industry enterprises by carbonaceous cutting, Ecology and Industry of Russia, 22(8), pp. 14-18 (2018) [CrossRef] [Google Scholar]
  63. L.A. Nikolaeva, Research of sorption processes using chemical water purification sludge for nitrogen and sulfur oxides contained in smoke gases emitted from a thermal power station, Thermal Engineering (English translation of Teploenergetika), 60(4), pp. 244-247 (2013) [Google Scholar]
  64. V. Smirnov, V. Dyrdin, T. Kim, A. Manakov, A. Khoreshok, Experimental Study of Methane Hydrates in Coal, E3S Web of Conferences, 15, 01020 (2017) [CrossRef] [EDP Sciences] [Google Scholar]
  65. V.G. Smirnov, V.V. Dyrdin, A.Y. Manakov, N.V. Shikina, Z.R. Ismagilov, Physicochemical and Sorption Properties of Natural Coal Samples with Various Degrees of Metamorphism, Russian Journal of Applied Chemistry, 92(10), pp. 1410-1421 (2019) [CrossRef] [Google Scholar]
  66. A. Dmitriev, I. Madyshev, O. Dmitrieva, Cleaning of Industrial Gases from Aerosol Particles in Apparatus with Jet-Film Interaction of Phases, Ecology and Industry of Russia, 22(6), pp.10-14 (2018) [CrossRef] [Google Scholar]
  67. A.B. Golovanchikov, N.A. Merentsov, V.A. Balashov, Modeling and analysis of a mechanical-draft cooling tower with wire packing and drip irrigation, Chem. and Pet. Eng. 48, pp. 595-601 (2013). DOI: 10.1007/s10556-013-9663-2 [CrossRef] [Google Scholar]
  68. N.A. Merentsov, A.V. Persidskiy, V.N. Lebedev, Use of Wastes from Metalworking Machining for Packings in Contact Heat-and-Mass Exchange Devices, Proceedings of the 5th International Conference on Industrial Engineering (ICIE 2019), Lecture Notes in Mechanical Engineering, II, pp. 1443-1454 (2020) [CrossRef] [Google Scholar]
  69. N. Merentsov, A. Persidskiy, V. Lebedev, N. Prokhorenko, A. Golovanchikov, Heat and Mass Exchange Packing for Desinfection of Circulation Water in Electric Field, Advances in Intelligent Systems and Computing, 983, 547-559 (2019) [CrossRef] [Google Scholar]
  70. N.А. Merentsov, V.N. Lebedev, A.V. Persidskiy, A.B. Golovanchikov, Journal of Phys.: Conf. Ser., 1515, 022004 (2020) [CrossRef] [Google Scholar]
  71. N.A. Merentsov, V.N. Lebedev, A.V. Persidskiy, V.A. Balashov, IOP Conf. Ser.: Earth and Environmental Science, 288, 012106 (2019) [CrossRef] [Google Scholar]
  72. N.A. Merentsov, V.N. Lebedev, A.B. Golovanchikov, V.A. Balashov, E.E. Nefed’Eva, IOP Conf. Ser: Earth and Environmental Science, 115, 012017 (2018) [CrossRef] [Google Scholar]
  73. A.V. Persidskiy, N.A. Merentsov, V.N. Lebedev, A.B. Golovanchikov, IOP Conf. Ser.: Earth and Environmental Science, 288, 012110 (2019) [CrossRef] [Google Scholar]
  74. A.G. Kasatkin, The main processes and devices based on technology (Alliance, Moscow, 2004) [Google Scholar]
  75. P.G. Romankov, M.I. Kurochkina, Hydromechanical processes of chemical technology (Chemistry, Leningrad, 1982) [Google Scholar]
  76. M.E. Aerov, O.M. Todes, D.A. Narinsky, Devices with a stationary granular layer. Hydraulic and thermal fundamentals of work (Chemistry, Leningrad, 1979) [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.