Modern state and tendencies of development of vibration separating machines structures
  • Article Type: Research Article
  • Eurasian Journal of Biosciences, 2019 - Volume 13 Issue 2, pp. 1391-1404
  • Published Online: 02 Oct 2019
  • Article Views: 35 | Article Download: 28
  • Open Access Full Text (PDF)
AMA 10th edition
In-text citation: (1), (2), (3), etc.
Reference: Piven VV. Modern state and tendencies of development of vibration separating machines structures. Eurasia J Biosci. 2019;13(2), 1391-1404.

APA 6th edition
In-text citation: (Piven, 2019)
Reference: Piven, V. V. (2019). Modern state and tendencies of development of vibration separating machines structures. Eurasian Journal of Biosciences, 13(2), 1391-1404.

In-text citation: (Piven, 2019)
Reference: Piven, Valeriy V.. "Modern state and tendencies of development of vibration separating machines structures". Eurasian Journal of Biosciences 2019 13 no. 2 (2019): 1391-1404.

In-text citation: (Piven, 2019)
Reference: Piven, V. V. (2019). Modern state and tendencies of development of vibration separating machines structures. Eurasian Journal of Biosciences, 13(2), pp. 1391-1404.

In-text citation: (Piven, 2019)
Reference: Piven, Valeriy V. "Modern state and tendencies of development of vibration separating machines structures". Eurasian Journal of Biosciences, vol. 13, no. 2, 2019, pp. 1391-1404.

In-text citation: (1), (2), (3), etc.
Reference: Piven VV. Modern state and tendencies of development of vibration separating machines structures. Eurasia J Biosci. 2019;13(2):1391-404.


The vibration machines are widely used to separate the multicomponent mixtures. Such machines have a great variety of technological and structural schemes that must take into account the separated materials properties changing over wide range. The paper is aimed at analyzing and generalizing the accumulated experience of designing of the vibration machines, at developing the recommendations on their future improvement. Analytical research methods were used.
The vibration machines structures were analyzed, which are widely used in various branches of technology to separate the friable mixtures and the multiple fluids with mechanical impurities into fractions of different qualities. The vibration machines are used also to dose the friable materials, to mix, to compact and to transport them.
The technological schemes of the vibration separating machines are considered, which are applied in the building industry, the food industry, in making the drilling fluid in the oil and gas industry.
The requirements for quality of the separating technological process are analyzed. Influence of dynamic operation modes of the driving mechanisms on the process quality is considered. The methods of designing the vibration separating machines, the methods of determining the natural oscillation frequencies of parts and structural elements of the vibration machines are reviewed. The ways of static and dynamic balancing of the vibration machines parts are surveyed generally.
It is necessary to observe the operating devices’ kinematic mode in order to assure a stable separating process on the vibration machines. This factor acquires a paramount importance in the separating processes.
Vibration from the machines’ frame structures is transmitted to the separating surface, which leads to the separating quality impairment. The separating devices’ vibrational motion through the machine frames is transmitted to the building structures too. In the long run, the kinematic motion mode is characterized by a totality of the oscillating motions of the separating surface, the machine frame and the building structures.
On the basis of the analysis conducted, the conclusions about the main development areas of the technological and structural schemes of the vibration-driven separating machines are formulated. It is proposed, during the designing, to optimize the machines structures with account taken of stiffness of their frames and load-bearing foundations.


  • Anh ND, Nguyen NX (2016) Research on the design of non-traditional dynamic vibration absorber. Journal of Mechanical Science and Technology, 30(2): 593-602.
  • Arsentiev VА, Vaisberg LА, Ustinov ID (2014) Areas of creation of water-short technologies and apparatus for enrichment of the finely groumd mineral law materials. Ore concentration, (5): 3-9.
  • Astashev V, Andrianov N, Krupenin V (2016) Vibration of string lattice. Vibroengineering Procedia 22. Dynamics of Strongly Nonlinear Systems. 22nd International Conference on Vibroengineering, 8: 97-102.
  • Astashev V, Krupenin V (2017) Efficiency of vibration machines Engineering for Rural Development. Contents of Proceedings of 16th International Scientific Conference «Engineering for rural development», Jelgava, 24.-26.05.2017, pp. 108-113.
  • Blekhman II (2013) The theoryof vibration processes and devices. St. Petersburg: I.D. «Ruda i metalli».
  • Blekhman II, Blekhman LI, Vaisberg LА, Vasilkov VB (2015) Gradient vibration segregation in processes of friable materials division. Ore concentration, 5(359): 20-24.
  • Blekhman II, Blekhman LI, Yaroshevich NP (2017) To dynamics of a drive of vibration machines with inertial excitation. Ore concentration, 4(370): 49-53.
  • Blekhman II, Vaisberg LA, Indeitsev DA (2011) Theoretical and experimental basis of advanced vibrational technologies. Springer Proceedings in Physics, 139: 133-138.
  • Boylu J, Tan Cetinel T, Guven O, Karakas F, Cinku K, Karaagaclioglu BE, Celik MS (2015) Optimum separation route for semi-bituminous oal using semi-pilot scale pneumatic stratification. Physicochemical Problems of Mineral Processing, 51(2): 559-573.
  • Cheung YL, Wong WO, Cheng L (2013) Optimization of a hybrid vibration absorber for vibration control of structures under random force excitation. Journal of Sound and Vibration, 332(3): 494-509.
  • Dmitriev SV, Ivanov KS, Mezenin АО, Nikolaev АI (2015) The use of vibration pseudo-liquefaction for dry concentration of finely disseminated ores. Ore concentration, 3(357): 14-17.
  • Elias S, Matsagr V, Datta TK (2016) Effectiveness of distributed tuned mass dampers for multi-mode control of chimney under earthquakes. Engineering Structures, 124: 1-16.
  • Gardonio P, Zilletti M (2015) Sweeping tunable vibration absorbers for low-mid frequencies vibration control, Journal of Sound and Vibration, 354: 1-12.
  • Glebov LА, Demsky АB, Vedeniev VF, Yablokov АЕ (2010) Technological equipment and production lines of the grain processing enterprises. Moscow: DeLi print.
  • Golovin МV, Dobik АА, Kortunov АV, Mischenko VI (2014) Modern tendencies of the vibration sieves development to purify the drilling fluids. Drilling and oil, (3): 50-54.
  • Guo NQ, Lou HM, Huang WP (2011) Design and Research on the New Combining Vibrating Screen. Advanced Materials Research, 201-203: 504-509.
  • Ivanov KS, Vaisberg LA (2015) New Modelling and Calculation Methods for Vibrating Screens and Separators. Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering. Springer, Cham.
  • Jang S-J, Brennan MJ, Rustighi E, Jung H-J (2012) A simple method for choosing the parameters of a two degree-of-freedom tuned vibration absorber. Journal of Sound and Vibration, 331(21): 4658-4667.
  • Kim T-H, Maruta I, Sugie T (2010) A simple and efficient constrained particle swarm optimization and its application to engineering design problems. Journal of Mechanical Engineering Science, 224(C2): 389-400.
  • Kornev DG (2016) Modern tendencies of grain cleaning. Workshop: Technology and techniques of grain processing. Available at: http://www.›europe/ru/downloads/Separators.pdf (Accessed 28 Jan 2018).
  • Nikolaev VN, Litash AV, Zyazev EV, Gainullin EN (2015) Aero-vibration - pulse machines for preparing loose feed mixtures. The Strategies of Modern Science Development: Proceedings of the IX International scientific– practical conference, North Charleston, USA, 16-17 October 2015: CreateSpace: 49 – 55.
  • Pastenes JC, Geminard J-C, Melo F (2014) Interstitial gas effect on vibrated granular columns. Physical Review, E 89, 062205.
  • Piven V (2017) The theoretical justification for the fractionation of bulk materials during separation. International Science Conference SPbWOSCE-2016 “SMART City”, MATEC Web of Conferences, 106.
  • Piven VV, Umanskaya OL (2007a) Determining the dynamic parameters of the structures of the vibration machines on an elastic foundation. Russian Engineering Research, 27(5): 241-244.
  • Piven VV, Umanskaya OL (2016a) Determination of Dynamic Characteristics of the Frame Bearing Structures of the Vibrating Separating Machines. VII International Scientific Practical Conference. Conference Proceedings. National Research Tomsk Polytechnic University, Yurga, 142.
  • Piven VV, Umanskaya OL (2016b) The methodology of the vibrational separating machines bearing structure rigidity optimization and the actuating mechanism parts dynamic forces determination. 5 International Scientific Conference on Integration, Partnership and Innovation in Construction Science and Education (IPICSE), Moscow, RUSSIA, MATEC Web of Conferences, 86.
  • Piven VV, Umanskaya ОL (2017b) Determination of boundary conditions of the vibration screens operation. Bulletin of machine building, (9).
  • Timofeev GА, Musatov АК, Popov SА, Frolov КV (2017) Theory of mechanisms and mechanics of machines: textbook for higher education. Moscow: Publishing House of Bauman Moscow State Technical University.
  • Vaisberg LА (2011) New vibration screens for the building materials industry. Industrial review, (8): 29.
  • Vaisberg LА, Demidov IV, Ivanov КS (2015) Mechanics of flowing media during vibration impact: methods of description and mathematical simulation. Ore concentration, 4(358): 21-31.
  • Wagner N, Helfrich R (2017) Dynamic Vibration Absorbers and its Applications. Conference: NAFEMS World Congress, Stockholm, 11- 14 June 2017. Available from: (Accessed 28 Jan 2018).
  • Wotruba H, Weitkaemper L, Steinberg M (2010) Development of A New Dry Density Separator For Fine-Grained Materials. Proceedings: XXV International Mineral Processing Congress (IMPC), Brisbane, Qld, Australia.


This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.