Volodymyr Dahl East-Ukrainian National University Molodizhny bl., 20а, Lugansk, 91034, Ukraine
Bibliografia
1. Asaulenko I.A., Vitoshkin J.K., Karasik V.M., Krill S.I., Ocheretko V.F., 1981.: Theory and applied aspects hydrotransportation solid materials. – K.: Science. Dumka. – 353-362. (in Russian).
2. Burov V.D., Romm E.V., Elizarov D.P., 2009.: Thermal power plants: a textbook for high schools. – M.: Publishing House MEI. – 466. (in Russian).
3. Chaltsev M.M., 2000.: On the analogy of certain patterns of Hydromechanics and hydrotransport pneumatic systems// Bulletin (Collected Works of NTU and tau). – K.: RIO NTU. – Vol. 4. – 292-295. (in Ukrainian).
4. Chaltsev M.N., 2000.: On the calculation of the critical velocity in pipeline transportation systems, pneumatic// The collection of scientific papers Kirovograd State Technological University. Technology in agricultural production, industry machinery, automation. – Kirovograd. – V.7. – 125-129. (in Russian).
5. Chaltsev M.N., Krill S.I., 2010.: By On the methods of calculating the basic parameters of pneumatic bulk material along horizontal pipes// Applied hydromechanics. – K. – № 4 (84), Vol.12. – 36-44. (in Russian).
6. Chaltzev M., Vovk L. 2011.: Analytical investigation into velocity change of the transported material in a pipeline bend// TEKA: Commission of motorisation and power industry in agriculture Lublin university of technology Dahl’s Eastukrainian national university of Lugansk. – Lublin. – Vol. XI B. – 20-29.
7. Chernetska-Bіletska N.B., Varakuta E.O., Kapustіn D.O., 2012.: The method of calculation of key indicators hydraulic conveying of solid residues power station// Journal of Dahl’s East-Ukrainian National University. – Lugansk. – № 5 (176). – 137- 142. (in Ukrainian).
8. Chernecka-Biletska N.B., Kapustin D., 2012.: Transporting waste power station as slag slurry// Innovative technology in rail transport: the third scientific-practical. Conf. studio., PhD student. and mol. Scientists, 13- 15 September. 2012, Krasny Liman: abstracts reported. – Lugansk. – 92-96. (in Ukrainian).
9. Dzhvarsheishvili A.G., 1981.: The pipeline system of mining and processing enterprises. – Moscow: Nedra. – 384. (in Russian).
10. Fikhtengol'ts G.M., 2001.: Course of differential and the integral calculus. V.3. – M.: Fizmatlit. – 622. (in Russian).
11. Fukagata K., Kasagi N., 2003.: Drag reduction in turbulent pipe flow with feedback control applied partially to wall. Int. J. Heat Fluid Flow 24. – 480-490.
12. Gorokhovsky M., Chtab A., 2003.: Hypothetical "heavy particles dynamics in LES of turbulent dispersed two-phase channel flow. Center for Turbulence Research Annual Research Briefs. – 205-211.
13. Harada S., Tanaka T., Tsuji Y., 2000.: Fluid force acting on a falling particle toward a plane wall. Proc. Of ASME FEDSM'00. 2000 ASME Fluids. – 1-5.
14. Hirsch C., 2007.: Numerical Computation of Internal and External Flows. Elsevier. – 696.
15. Hodakov G.S., 2003.: Rheology of suspensions. Phase flow theory and its experimental validation// Rus. chem. magazine (magazine Russia. chem. Islands about them. DIMendeleyev). – № 2. – Vol. XLVII. (in Russian).
16. Kapustіn D.O., 2012.: The study of non-Newtonian behavior of concentrated withtin hydromixes// Innovative technologies for rail trans-port: III Intern. scientific-practical. conf., February 26. – 04 rem. 2012, Tel Aviv (Israel): abstracts reported. – Lugansk. – 19- 21. (in Ukrainian).
17. Kapustіn D.O., 2012.: Rheological study of concentrated withtin hydromixes// Journal of Dahl’s East-Ukrainian National University. – Lugansk. – № 3 (174). – 73-79. (in Ukrainian).
18. Kawaguchi T., Horii Y., Tanaka T., Tsuji Y., 2003.: DEM Simulation of One- Dimensional Plug Motion in Stand-pipe Flow and Development of Plug Flow Model// Proc. of the 2nd Asian Particle Technology Symposium 2003 (APT 2003), Penang, Malaysia (2003). – 495-500.
19. Krill S.I., 1982.: Critical modes of hydraulic pipeline transport of solids// Fluid. – Issue. 45. – 88-94. (in Russian).
20. Levchenko D., Meleychuk S., Arseniev V., 2012.: Regime characteristics of vacuum unit with a vortex ejector stage with different geometry of its flow path// Procedia Engineering, Vol. 39. – 28-34.
21. Mehrotra V., Silcox Geoffrey D., Smith Phillip J., 1999.: Monte Carlo particle dispersion simulation application in coal fired furnaces: comparison with experimental data. Second International Conference CFD in the Minerals and Process Industries CSIRO, Melbourne, Australia. – 287-292.
22. Pokrovskaya V.N., 1985.: Pipelines in mining industry. – Moscow: Nedra. – 192. (in Russian).
23. Risuhin L.I. Cherneckaya N.B., Kovalenko A.A., Shvornikova A.M., Kapustin D.A., 2010.: Rational choice and design of industrial equipment of hydro systems: monograph. – Lugansk, ENU. – 92. (in Russian).
24. Slater, S. A., Young J. B., 2001.: The calculation of inertial particle transport in dilute gas-particle flows. Intl J. Multiphase Flow 27. – 61-87.
25. Smoldyrev A.E., 1975.: Hydro and pneumatic transport. – Moscow: Metallurgy. – 384. (in Russian).
26. Soldati A., 2002.: Influence of large-scale streamwise vortcal EHD flows on wall turbulence. Intl J. Heat Fluid Flow 23. – 441-443.
27. Syomin D., Rogovoy A., 2010.: Power characteristics of super-chargers with vortex work chamber// Polish academy of sciences branch in Lublin. TEKA. Commission of motorization and power industry in agriculture. Volume XB. TEKA Kom. Mot. Energ. Roln. – OL PAN, № 19. – 232-240.
28. Tsibin L.A., Shanaev J.F., 1976.: Hydraulics and pumps. – Moscow: Higher School. – 256. (in Russian).
29. Ulianitsky A.V., 1993.: Rationale for minimum energy consumption in a horizontal pneumatic conveying of bulk materials: dis. the candidate tehn. science. – Odessa. – 182.