Please use this identifier to cite or link to this item: http://elartu.tntu.edu.ua/handle/lib/26717
Title: The influence of bulk material flow on technical and economical performance of a screw conveyor
Other Titles: Вплив потоку сипкого матеріалу на техніко-економічні показники роботи гвинтового конвеєра
Authors: Hevko, Roman Bohdanovych
Baranovsky, Viktor Mykolaiovych
Lyashuk, Oleh Leontiiovych
Pohrishchuk, Borys Vasyliovych
Gumeniuk, Yurii Petrovych
Klendii, Oleksandra Mykolaivna
Dobizha, Natalia Volodymyrivna
Bibliographic description (Ukraine): Hevko R.B., Baranovsky V.M., Lyashuk O.L., Pohrishchuk B.V., Gumeniuk Y.P., Klendii O.M., Dobizha N.V. The influence of bulk material flow on technical and economical performance of a screw conveyor // INMATEH: Agricultural engineering, vol.56, no.3, 2018, pp.175-184
Issue Date: 2018
Publisher: INMATEH: Agricultural engineering
Place of the edition/event: Bucharest, Romania
Keywords: flow movement
bulk material
impact of material particles
rational parameters
changes in energy consumption
Page range: 175-184
Abstract: The paper covers theoretical investigations of the movement of bulk material flow when it is fed by a pneumatic screw conveyor. Process calculation of the impact of bulk material particles during their transportation in guiding covers has been conducted. A mathematical model, which characterizes the overall energy spent on the impact of two particles, depending on impact velocity, physical and mechanical properties of bodies and impact conditions, has been developed. The limits of design and kinematic parameters that provide the effective application of pneumatic screw conveyors for transporting bulk materials have been defined.
URI: http://elartu.tntu.edu.ua/handle/lib/26717
Copyright owner: © INMATEH: Agricultural engineering, 2018
References (International): 1. Ackerman N.I., Shen H.H., (1982), Stresses in rapidly Fluid–Solid Mixtures, Journal of the Engineering Mechanics Division. – ASCE, vol.108, pp. 95-113;
2. Baranovsky V.M., Hevko R.B., Dzyura V.O., Klendii O.M., Klendii M.B., Romanovsky R.M., (2018), Justification of rational parameters of a pneumoconveyor screw feeder, INMATEH: Agricultural Engineering, vol.54, no.1., pp. 15-24, Bucharest/Romania;
3. Haydl H.M., (1986), Design aspects of large-diameter tubular conveyor galleries, Proceedings of the institution of civil engineers, Part 1 – Design and construction, Vol. 80, pp. 633-639, London/England;
4. Нumatylin R.I., (1987), Dynamics of multiphase mediums (Динамика многофазовых сред), by publishing “Nauka” (Видавництво Наука), 1987, 464 р., Moscow/Russia;
5. Hevko B.M., Hevko R.B., Klendii O.M., Buriak M.V., Dzyadykevych Y.V., Rozum R.I., (2018), Improvement of machine safety devices. Acta Polytechnica, Journal of Advanced Engineering, Vol.58, no.1, pр.17-25, Prague/Czech Republic;
6. Hevko B.M., Popovich P.V., Diachun A.Y., Lyashuk O.L., RO Liubachivskyi, (2015), The study of bulk material kinematics in a screw conveyor-mixer, INMATEH Agricultural Engineering, vol.47, no.3., pp. 156-163, Bucharest/Romania;
7. Hevko R., Brukhanskyi R., Flonts I., Synii, S. Klendii O. (2018), Advances in Methods of Cleaning Root Crops, Bulletin of the Transilvania University of Braşov, Series II, vol.11(60), pp.127-138, Braşov/Romania;
Hevko R.B., Yazlyuk B.O., Liubin M.V., Tokarchuk O.A., Klendii O.M., Pankiv V.R. (2017) - Feasibility study of mixture transportation and stirring process in continuous-flow conveyors, INMATEH Agricultural Engineering, vol.51, no.1, pp.49-59, Bucharest/Romania;
9. Hevko R.B., Liubin M.V., Tokarchuk O.A., Lyashuk O.L., Pohrishchuk B.V., Klendii O.M. (2018) - Determination of the parameters of transporting and mixing feed mixtures along the curvilinear paths of tubular conveyors, INMATEH Agricultural Engineering, vol.55, no.2, pg.97-104, Bucharest/Romania;
10. Hevko R.B., Strishenets O.M., Lyashuk O.L., Tkachenko I.G., Klendii O.M., Dzyura V.O., (2018), Development of a pneumatic screw conveyor design and substantiation of its parameters, INMATEH: Agricultural Engineering, vol.54, no.1, pg.153-160, Bucharest/Romania;
11. Hychin B.M., (2000), Recovery of the movement structure of air-fuel mixtures in a pneumatic transporting pipeline (Восстановление структуры движения аэросмесей в пневмотранспортном трубопроводе), Bulletin of National Technical University of Ukraine KPI. Mechanical Engineering (Вестн. Нац. Техн. Ун-та Украины КПИ. Машиностроение), vol. 38, no. 2, pp. 158-162, Kyiv/Ukraine;
12. Lech M., (2001), Mass flow rate measurement in vertical pneumatic conveying of solid, Powder Technology, Vol.114, Issues 1–3, pp. 55-58;
13. Li Y., Li Y.Z., (2008), New equipment for bulk cargo conveying screw-gas bulk sucking and taking equipment, 6th International Conference on Material Handling (ICMH 2008), pp. 243-247, Shanghai/China;
14. Loveikin V., Rogatynska L., (2011), A Model of Loose Material Transportation by Means of HighSpeed Conveyors with Elastic Operating Devices (Модель транспортування сипкого вантажу швидкохідними гвинтовими конвеєрами з еластичними робочими органами). Bulletin of I.Pyliui Ternopil National Technical University (Вісник ТНТУ ім. І.Пулюя), Vol.16, pp.66-70, Ternopil/Ukraine;
15. Lyashuk O.L., Rogatynska O.R., Serilko D.L., (2015), Modelling of the vertical screw conveyor loading, INMATEH Agricultural Engineering, vol.45, no.1, pp.87-94, Bucharest/Romania;
16. Lyashuk О.L., Sokil M.B., Klendiy V.М., Skyba O.P., Tretiakov O.L., Slobodian L.М., Slobodian N.O. (2018) - Mathematical model of bending vibrations of a horizontal feeder-mixer along the flow of grain mixture, INMATEH Agricultural Engineering, vol.55, no.2, pp.35-44, Bucharest/Romania;
17. Manjula E.V.P.J., Hiromi W.K. Ariyaratne, Ratnayake Chandana, Morten C. Melaaen, (2017), A review of CFD modelling studies on pneumatic conveying and challenges in modelling offshore drill cuttings transport, Powder Technology, Vol.305, pp.782-793;
18. Owen, Philip J., Cleary, Paul W. (2010) - Screw conveyor performance: comparison of discrete element modelling with laboratory experiments. Progress in computational fluid dynamics, Vol. 10, Issue 5-6, pp.327-333, Geneva/ Switzerland;
19. Tian Y., Yuan P., Yang F., Gu J., Chen M., Tang J., Su Y., Ding T., Zhang K., Cheng Q. (2018) - Research on the Principle of a New Flexible Screw Conveyor and Its Power Consumption, Applied Sciences, vol.8, no.7;
20. Tripathi Naveen, Sharma Atul, Mallick S.S., Wypych P.W., (2015), Energy loss at bends in the pneumatic conveying of fly ash, Particuology, vol.21, pp. 65-73;
21. Rogatynska О., Liashuk О., Peleshok Т., Liubachivskyi R., (2015), Investigation of the Process of Loose Material Transportation by Means of Inclined Screw Conveyors (Дослідження процесу транспортування сипкого вантажу похилими гвинтовими конвеєрами), Bulletin of I.Pyliui Ternopil National Technical University (Вісник ТНТУ ім. І.Пулюя), Vol.79, pp.137-143, Ternopil/Ukraine;
22. Roberts Alan W., Bulk Solids, (2015), Optimizing Screw Conveyors. Chemical engineering. Vol.122 (2), pp.62-67, New York/USA;
23. Yao Y.P., Kou Z.M., Meng W.J., Han G., (2014), Overall Performance Evaluation of Tubular Scraper Conveyors Using a TOPSIS-Based Multiattribute Decision-Making Method, Scientific World Journal, New York/USA;
24. Yoshihama S., Takano S., Yamada Y., Nakamura T., Kato K., (2016), Powder Conveyance Experiments with Peristaltic Conveyor using a Pneumatic Artificial Muscle, IEEE ASME International Conference on Advanced Intelligent Mechatronics, pp. 1539-1544, Banff/Canada.
Content type: Article
Appears in Collections:Наукові публікації працівників кафедри автомобілів

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