Open Access
Issue
MATEC Web Conf.
Volume 106, 2017
International Science Conference SPbWOSCE-2016 “SMART City”
Article Number 03005
Number of page(s) 9
Section 3 Building Materials and Products
DOI https://doi.org/10.1051/matecconf/201710603005
Published online 23 May 2017
  1. Blekhman I.I. Teoriya vibracionnyh processov i ustrojstv. Vibracionnaya mekhanika i vibracionnaya tekhnika [The theory of vibrational processes and devices. Vibrational mechanics and vibrational technique]. Saint-Petersburg: Izdatel’skij dom «Ruda i metally», 2013. 640 p. (rus) [Google Scholar]
  2. Brik E.R. Issledovanie kinetiki frakcionirovaniya sypuchih stroitel’nyh materialov na grohotah s mnogoyarusnoj komponovkoj sit [The study of the kinetics of fractionation of bulk construction materials on the screens with a multi-tiered layout of screens]. Dis. … kand. tekhn. nauk [The dissertation on competition of a scientific degree of candidate of technical Sciences]. Ivanovo.: IGASU, 2011. 127 p. (rus) [Google Scholar]
  3. Vavilov A.V., Eleukenov M.T. Modelirovanie processov grohocheniya i konstrukcij grohotov dlya polucheniya kachest-vennyh zapolnitelej pri razdel’nom prigotovlenii betonov [3.Vavilov A. V., Eleukenov, M. T. Modelirovanie processov grohocheniya i structures grohotov dlya polucheniya kachest-vennyh zapolnitelej in razdel’nom prigotovlenii betonov]. Vestnik VKGTU. № 2. 2014. Pp. 31–34. (rus) [Google Scholar]
  4. Vajsberg L. A., Akimova A. V., Ivanov K. S. Novye metody modelirovaniya i rascheta vibracionnyh grohotov i groho-tov-separatorov [New methods of modeling and calculation vibrating screens and screeners-separators]. Sovremennoe mashinostroenie. Nauka i obrazovanie. Saint-Petersburg: Izd-vo SPbGPU, 2013. № 3. Pp. 651–658. (rus) [Google Scholar]
  5. Vasil’ev S.B., KolesnikovG.N., Kul’bickijA.V. Logisticheskoe uravnenie kak model’ frakcionirovaniya drevesnoj shchepy metodom rasseva [The logistic equation as a model for the fractionation of wood chips by the method of sieving]. Materialy tret’ej mezhdunarodnoj nauchno-prakt. internet-konf. «Lesa Rossii XXI veka» [Materials of the third international scientific-pract. Internet Conf. “Forests of Russia in XXI century”]. Saint-Petersburg: Izd-vo SpbGLTA, 2010. Pp. 236–239. (rus) [Google Scholar]
  6. Cundall P.A., Strack O.D.L. A distinct element model for granular assemblies. Geotechnique. 1979. No 29. Pp. 47–65. [CrossRef] [Google Scholar]
  7. Ferrara G., Preti U., Schena G.D. Modelling of screening operations. Intern. J. of Mineral Processing. 1988. 22. 1-4. Pp. 193–222. [CrossRef] [Google Scholar]
  8. Kim T-H., I. Maruta I., Sugie T. A simple and efficient constrained particle swarm optimization and its application to engineering design problems. Journal of Mechanical Engineering Science. 2010. Vol. 224. No C2. Pp. 389–400. [CrossRef] [Google Scholar]
  9. Ogurcov V. A., Ogurcov A.V., Mitrofanov A.V., Aleshina A.P. YAcheechnaya model’ psevdoozhizheniya v tekhnologii pro-izvodstva stroitel’nyh materialov [A non-line ar cell model of fluidization in the technoogy of construction materials production]. Stroitel’stvo i rekonstrukciya [Construction and reconstruction]. Iss. 5 (43). 2012. Pp. 68–74. (rus) [Google Scholar]
  10. Fedosov S.V., Mizonov V.E., Ogurcov V.A. Modelirovanie processa klassifikacii polidispersnyh materialov na vibrogrohotah [Modeling of the process of classification of polydisperse materials in vibrating screens]. Stroitel’nye materialy [Building materials]. 2007. № 11. Pp. 26–28. [Google Scholar]
  11. Mayer F.W. Fundamentals of a potential theory of the jigging process. VII Int. Min. Proc. Congr. New-York. 1964. Pp. 78–86. [Google Scholar]
  12. Nikiforova L.V., Matveev A.I., Slepcova E.S., YAkovlev B.V. Matematicheskoe modelirovanie processa otsadki [Mathematical modelling of the jigging process]. Matematicheskie zametki SVFU [Mathematical notes SVFU]. 2014. T. 21. № 1. Pp. 106–112. (rus) [Google Scholar]
  13. Slepcova E.S., Fedoseev S.M. Izvlechenie zolota iz magnitnyh shlihov otsadkoj v pole dejstviya polyusoperemennogo magnitnogo polya // Gornyj informacionno-analiticheskij byulleten’ [Mining information-analytical Bulletin]. 2015. № 7. Pp. 260–264. (rus) [Google Scholar]
  14. Gortinskij V. V., Demskij A. B., Boriskin M. A. Processy separirovaniya na zernopererabatyvayushchih predpriyatiyah [Processes of separation of grain handling companies]. Moscov: Kolos, 1980. 304 p. (rus) [Google Scholar]
  15. CHurin YU. G. Primenenie teorii separacii pri proektirovanii separatorov vibracionnogo tipa [Application of the theory of separation when designing separators, vibrating]. Vestnik Moskovskogo gosudarstvennogo agroinzhenernogo universiteta [Bulletin of Moscow state Agroengineering University]. Moscov.: RGAU, 2010. № 1. Pp. 29–32. (rus) [Google Scholar]
  16. Ponomarev V.B. Pererabotka metallurgicheskih shlakov metodom pnevmaticheskoj separacii [Processing of metallurgical slags by means of pneumatic separation] Stal’ [Steel]. 2015. № 2. Pp. 82–83. (rus) [Google Scholar]
  17. Ponomarev V.B. Vydelenie uzkih frakcij poroshkov metodom vozdushnoj klassifikacii [The allocation of narrow fractions of powders by the method of air classification]. Innovacionnye tekhnologii obogashcheniya mineral’nogo i tekhnogennogo syr’ya. Materialy nauchno-tekhnicheskoj konferencii [Innovative technologies of enrichment of mineral and technogenic raw materials. Materials of the scientifictechnical conference]. 2015. Pp. 62–65. (rus) [Google Scholar]
  18. Ponomarev V.B. Razdelenie shamotnyh poroshkov metodom vozdushnoj separacii [Separation of refractory powders by the method of air separation]. Novye ogneu-pory [New refractories]. 2014. № 10. Pp. 68–69. (rus) [Google Scholar]
  19. Bogdanov D.V., Dubrovskij V.V., Ponomarev V.B., Gavrilenko A.V. Optimizaciya tekhnologicheskih parametrov processa frakcionirovaniya sypuchih materialov []. EHnergosberegayushchie tekhnologicheskie kompleksy i oborudovanie dlya proizvodstva stroitel’nyh materialov. Mezhvuzovskij sbornik statej. [Energy saving technological complexes and equipment for manufacture of building materials. Interuniversity collection of articles]. Belgorod: 2015. Pp. 38–41. (rus) [Google Scholar]
  20. Ponomarev V.B. Suhaya pererabotka othodov kamnedrobleniya [Dry waste recycling crushing stones]. Gornyj zhurnal [Mining journal]. 2015. № 12. Pp. 50–52. (rus) [CrossRef] [Google Scholar]
  21. Lanzerstorfer C., Kröppl M. Air classification of blast furnace dust collected in a fabric filter for recycling to the sinter process. Resources, Conservation and Recycling. 2014. Vol. 86. Рp. 132–137. [CrossRef] [Google Scholar]
  22. Kleiv R. A. Value enhancement of olivine process dust through air classification. International Journal of Minerals, Metallurgy, and Materials. 2012. Vol. 19. Iss. 3. Pp. 185–191. [CrossRef] [Google Scholar]
  23. Felk A. Fine-Milling and Air Classification of Ceramic Materials by the Dry Method. Glass and aceramics. 2014. Vol. 71. Iss. 3. Pp. 92–95. [CrossRef] [Google Scholar]
  24. Shishkin S. F., Dzyuzer V. Ya., Shishkin A. S. Air Classification of Sands for the Glass Industry. Glass and Ceramics. 2001. Vol. 58. Iss. 11. Pp. 370–373. [CrossRef] [Google Scholar]
  25. Barsky E. Efficacy of separation of a pourable material. High Temperature. 2009. Vol. 47. Iss. 6. Pp. 822–828. [CrossRef] [Google Scholar]
  26. Borisevich V., Borshchevskiy M., Andronov I., Senchenkov S. Assessment of parameters of gas centrifuge and separation cascade basing on integral characteristics of separation plant. Nuclear Engineering and Design. 2013. Vol. 265. Pp. 1066–1070. [CrossRef] [Google Scholar]
  27. Mizonov V.E., Ushakov S.G., Barochkin E.V. Aehrodinamicheskaya klassifikaciya poroshkov [Aerodynamic classification of powders]. Ivanovo: PresSto, 2014. 260 p. (rus) [Google Scholar]
  28. CHumakov V.G. Delenie zernovogo voroha na frakcii pnevmoreshetnym separatorom [The division of the grain heap into fractions pnevmaticheskim separator]. Traktory i sel’hozmashiny [Tractors and farm machinery]. 2011. № 12. Pp. 31–33. (rus) [Google Scholar]
  29. Kosilov N.I., Piven V.V. Tekhnologicheskie vozmozhnosti modernizacii i sozdaniya perspektivnyh potochnyh linij dlya posleuborochnoj obrabotki zerna [The technological possibilities of modernization and the creation of advanced production lines for post-harvest grain handling]. APK Rossii [APK Russia]. 2000. Т. 31. P. 28. (rus) [Google Scholar]
  30. Kosilov N.I., Piven V.V. Povyshenie ehffektivnosti predvaritel’noj ochistki zerna v hozyajstvah [Improving the efficiency of precleaning grain farms]. Ural’skie nivy [Ural fields]. 1987. № 3. Pp. 54–55. (rus) [Google Scholar]
  31. Piven V.V., Umanskaya O.L. Osnovnye napravleniya sovershenstvovaniya tekhnologii i tekhniki dlya posleuborochnoj obrabotki zerna [The main directions of improvement of technology and machinery for post-harvest grain handling]. Hranenie i pererabotka sel’hozsyr’ya [Storage and processing of agricultural products]. 2003. № 8. Pp. 205–208. (rus) [Google Scholar]
  32. Piven V.V. Sovershenstvovanie tekhnologicheskogo processa ochistki zerna frakcionirovaniem zernovogo voroha po aehrodinamicheskim svojstvam [Improvement of technological process of cleaning the grain by fractionation of grain heap on the aerodynamic properties]. Avtoref. diss. … dokt. tekhn. nauk [Abstract of dissertation on competition of a scientific degree of doctor of technical Sciences]. Chelyabinsk, 1995. 36 p. (rus) [Google Scholar]
  33. Piven V.V., Umanskaya O.L. Osnovnye tendencii sovershenstvovaniya frakcionnyh tekhnologij ochistki zerna [Main trends in improvement of the fractional technology of grain cleaning]. Problemy sovremennoj nauki i obrazovaniya [Problems of modern science and education]. 2013. № 1 (15). Pp. 39–42. (rus) [Google Scholar]
  34. Mizonov V.E. Ogurcov V.A., Fedosov S.V., Ogurcov A.V. Processy separacii chastic v vibroozhizhennom sloe: mo-delirovanie, optimizaciya, raschet [The processes for the separation of particles in vibramicina layer: modeling, optimization, design]. Ivanovo: 2010. 192 p. (rus) [Google Scholar]
  35. Zlatev M. Equipment concept. Aufbereitungs-Technik/Mineral Processing. 2016. Iss. 11. [Google Scholar]
  36. Bauman V.A. Vibracionnye mashiny i processy v stroitel’stve [Vibration machines and processes in construction]. Moscov: Vysshaya shkola, 1977. 255 p. (rus) [Google Scholar]
  37. Matveev A. I., Nikiforova L. V., Slepcova E. S., YAkovlev B. V. Issledovanie raspredeleniya tyazhelyh frakcij v ko-leblyushchejsya sypuchej srede [The study of the distribution of heavy fractions in an oscillating granular medium]. Nauka i obrazovanie [Science and education]. 2016. № 2 (82). Pp. 21–26. (rus) [Google Scholar]
  38. Ogurcov V.A., Gorohova E.R., Makarova V.M., Medvedeva P.A. Vibracionnyj grohot kak mnogoproduktovyj klassi-fikator: kinetika izvlecheniya frakcij [Vibrating screen as a multiproduct classifier: kinetics of extraction fractions]. Stroitel’stvo i rekonstrukciya [Construction and reconstruction]. 2011. № 4(36). Pp. 47–50. (rus) [Google Scholar]
  39. Ogurcov V.A. Stohasticheskaya model’ raspredeleniya prohodovyh chastic v sloe sypuchego materiala pri vibrogroho-chenii [Stochastic model distribution Prokopovych particles in the layer of bulk material when using vibration screens]. Stroitel’nye materialy [Building materials]. 2007. № 11. Pp. 38–39. (rus) [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.