Investigation of temperature field in cross sections of a heat pipe with axial grooves

Authors

  • Володимир Михайлович Батуркін National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001, Ukraine
  • Євген Вікторович Шевель National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001, Ukraine
  • Юлія Вікторівна Кузан National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2012.3429

Keywords:

Heat pipe, temperature field, modelling

Abstract

The analytical dependences for one-dimensional temperature field determination and numerical model of two-dimensional temperature field in the heat pipe cross sections for heating and condensation zones are presented. The calculation results are compared with experimental data for aluminum heat pipes with axial grooves, filled with ammonia

Author Biographies

Володимир Михайлович Батуркін, National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001

Doctor of Technical Sciences, senior researcher

Sub-department Nuclear power stations and engineering thermal physics

Євген Вікторович Шевель, National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001

Candidate of Technical Sciences, associate professor

Sub-department Nuclear power stations and engineering thermal physics

Юлія Вікторівна Кузан, National Technical University of Ukraine “Kyiv Polytechnic Institute” Mykilsko-Slobidska str. 4-b, flat 210, Kyiv, Ukraine, 02001

Undergraduate

Sub-department Nuclear power stations and engineering thermal physics

References

  1. Низкотемпературные тепловые трубы для летательных аппаратов [Текст] / В. Г. Bоронин, А. В. Peвякин, В. Я. Сасин и др. ; под ред. Г. И. Воронина. – М.: Машиностроение, 1976. – 200 с.
  2. Батуркін В. М. Системи забезпечення теплового режиму на основі теплових труб для наукового космічного приладобудування [Текст] : автореф. дис. … д-ра техн. наук: 05.14.06 / В. М. Батуркін. – К., 2011. – 37 с.
  3. Romestant C. Al/NH3 heat pipe model with non uniform heat flux / C. Romestant, A. Alexandre // 10–th Int. Heat Pipe Conf., 21–25 September, 1997: Preprints of Session H2 (Heat Pipe / Thermosyphon performance). – Stuttgart, Germany, 1997. – Report No. H2–1. – 5 p.
  4. Alexandre A. Application of inverse thermal analysis to heat pipes phenomena / A. Alexandre, M. Girault, C. Hao, C. Romestant // 13–th Int. Heat Pipe Conf., September, 2004, Shanghai: proc. of conf. – Beijing: China Astronautic Publishing House, 2005. – p. 126–131.
  5. Смирнов Г. Ф. Теплообмен при парообразовании в капиллярах и капиллярно-пористых структурах [Текст] / Г. Ф. Смирнов, А. Д. Цой. – М.: Издательство МЭИ, 1999. – 440 с.
  6. Колоусова А. А. Теплоперенос в тепловой трубе при неоднородном теплообмене на внешнем контуре [Текст] / А. А. Колоусова, Г. В. Кузнецов // Промышленная теплотехника. – 2004. – T. 26, № 4. – С. 23–27.
  7. Lura F. Heat Pipe Application for Thermal Stable Bench Arrangement in Small Satellite Design / F. Lura, B. Biering, V. Baturkin, S. Zhuk D. Olefirenko, M. Parfentiev // 30th International Conference on Environmental Systems, 10 – 13 July 2000, Toulouse, France: proc. of conf. – Report 2000-01-2460, 10 p.
  8. SolidWorks. Компьютерное моделирование в инженерной практике [Текст] / А. А. Алямовский, А. А. Собачкин, Е. В. Одинцов и др. — СПб.: БХВ-Петербург, 2005. — 800 с.
  9. Батуркин В. М. Исследование теплопередающих характеристик аксиальных тепловых труб при неравномерных граничных условиях [Электронный ресурс] / В. М. Батуркин, Д. Н. Олефиренко, Т. Р. Зинченко // Актуальные вопросы теплофизики и физической гидрогазодинамики: 6 научная международная школа-конференция, 22-28 сентября 2008, Алушта, Украина: материалы докладов. – 10 с.– 1 электрон. опт. диск (CR-ROM); 12 см. – Сист. требования: Pentium; 32 Mb RAM; Windows 2003/NT/XP. – Название с титул. экрана.
  10. Baturkin V. Investigation of transient characteristics of ammonia aluminum grooved heat pipes in qualification tests / V. Baturkin, S. Zhuk, D. Oliferenko // Second International workshop “Non-compression refrigeration and cooling”, 3–7 October, 2001, Odessa: proceedings. – Одеса: Астропринт, 2001. – Р. 4–11.
  11. Новицкий Л. А. Теплофизические свойства материалов при низких температурах [Текст] : справочник / Л. А. Новицкий, И. Г. Кожевников. – М.: Машиностроение. – 1975. – 216с.
  12. Богданов С. Н., Холодильная техника. Свойства веществ [Текст] : справочник / С. Н. Богданов, О. П. Иванов, А. В. Куприянова. Л.: Машиностроение – 1976. – 168 с.
  13. Brennan P. Heat pipe Design Handbook / P. Brennan, E. Kroliczek // B & K Engineering, Inc., Contract No. NAS5–23406, June 1979. – 370 p.

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Published

2012-02-01

How to Cite

Батуркін, В. М., Шевель, Є. В., & Кузан, Ю. В. (2012). Investigation of temperature field in cross sections of a heat pipe with axial grooves. Eastern-European Journal of Enterprise Technologies, 1(8(55), 42–48. https://doi.org/10.15587/1729-4061.2012.3429

Issue

Vol. 1 No. 8(55) (2012): Energy saving technologies and equipment

Section

Energy-saving technologies and equipment

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Copyright (c) 2014 Володимир Михайлович Батуркін, Євген Вікторович Шевель, Юлія Вікторівна Кузан

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