A mathematical model of liquid motion in the gas dispersed flow of rotary mass transfer machine

Authors

  • Сергій Олександрович Конєв Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007, Ukraine
  • Дмитро Олексійович Лазненко Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007, Ukraine
  • Андрій Миколайович Юнда Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007, Ukraine
  • Сергій Вікторович Сидоренко Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2012.3885

Keywords:

Mass transfer rotary machine, mathematical model

Abstract

The article includes the results of theoretical studies of motion dispersed liquid flow in countercurrent gas-liquid flow of mass transfer rotary machine. Dependences for calculating the trajectory of the drops in the rotor are obtained. The comparison of theoretical results with experimental data shows the adequacy of the obtained mathematical model

Author Biographies

Сергій Олександрович Конєв, Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007

Postgraduate

Department of Applied Ecology

Дмитро Олексійович Лазненко, Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007

Ph.D., Associate Professor, Head of Research Center

Center of Applied Environmental Research

Department of Applied Ecology

Андрій Миколайович Юнда, Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007

Doctor of Physics and Mathematics, Associate Professor

Chair of Complex Systems

Сергій Вікторович Сидоренко, Sumy State University street. Rimsky-Korsakov, 2, Sumy, 40007

Ph.D., Senior Lecturer

Department of Applied Ecology

References

  1. Лазненко, Д. О. Відцентровий масообмінний апарат. Гідродинаміка газової фази в роторі [Текст] / Д. О. Лазненко, В. Г. Неня, А. М. Юнда, С. В. Сидоренко // Хімічна промисловість України. – 2011. – № 3. – С. 20–24.
  2. Сидоренко, С.В. Гідродинаміка та масообмін в диспергуючому контактному пристрої відцентрового масообмінного апарата [Текст] : дис. … кандидата техн. наук: 05.17.08 / Сидоренко Сергій Вікторович. – Суми, 2011. – 179 с.
  3. Прандтль, Л. Гироаэромеханика [Текст] / Л. Прандтль. – М.: ГИТТЛ, 1951. – 575с.
  4. Ламб, Г. Гидродинамика [Текст] / Г. Ламб. – М.: ОГИЗ, 1947. – 690 с.
  5. Клеймен, П. Влияние турбулентности на коэффициент сопротивления сферических частиц при сверхкритическом режиме течения [Текст] / П. Клеймен, А. Говин // Процессы и аппараты хим. пр-ва. – 1969. – №34. – С. 15–19.
  6. Kafkova, D. L’influence du mouvement oscillatoire d’un fluide sur mouvement d’une particule spherique / D. Kafkova, R. Smutek // Acta techn. CSAV. – 1969. – V.14, №5. – Р. 610-629.
  7. Tanaka, Z. New aproximate equation of drag coefficient for spherical particles/ Z. Tanaka, K.Jinoya // J. Chem. Engng. Japan. – 1970. – V. 3., № 2. – P. 261-262.
  8. Лышевский, А.С. Изменение коэффициента сопротивления жидких капель [Текст] / А.С. Лышевский // Известия вузов. – 1964. – №6 – С. 75-81.
  9. Шупяцкий, А.Б. Форма и скорость падения водяных и дождевых капель [Текст] / А.Б. Шупяцкий // Известия АН СССР. – 1959.– № 5. – С 24-27.
  10. Адамов, Г.А. Общая формула сопротивления при относительном движении частиц и среды [Текст] / Г.А. Адамов // Известия АН СССР. – Металлургия и топливо. – 1961. – №6. – С. 168-178.
  11. Rumpf, H. Über das Ansetzen fein verteiler Stoffe an den wänden von Strommungs Kanälen / H. Rumpf // Chem. Ingr. Techn. – 1953. – Bd. 25., № 6. – S. 317-327.
  12. Клячко, Л.С. Уравнение движения пылевых частиц в пылеприемных устройствах [Текст] / Л.С. Клячко // Отопление и вентиляция. – 1934. – № 4. – С. 27-32.

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Published

2012-04-01

How to Cite

Конєв, С. О., Лазненко, Д. О., Юнда, А. М., & Сидоренко, С. В. (2012). A mathematical model of liquid motion in the gas dispersed flow of rotary mass transfer machine. Eastern-European Journal of Enterprise Technologies, 2(10(56), 21–24. https://doi.org/10.15587/1729-4061.2012.3885

Issue

Vol. 2 No. 10(56) (2012): Control systems in the industry

Section

Industry control systems

License

Copyright (c) 2014 Сергій Олександрович Конєв, Дмитро Олексійович Лазненко, Андрій Миколайович Юнда, Сергій Вікторович Сидоренко

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