DOI: https://doi.org/10.15673/0453-8307.6/2015.39294

ТЕПЛООБМІН ПРИ КОНДЕНСАЦІЇ ВСЕРЕДИНІ ГОРИЗОНТАЛЬНИХ ГЛАДКИХ ТРУБ. УДОСКОНАЛЕННЯ МЕТОДУ РОЗРАХУНКУ ТЕПЛООБМІНУ

В.Г. Риферт, П.А. Барабаш, В.В. Горин, В.В. Середа

Анотація


У роботі пропонується метод розрахунку теплообміну при конденсації всередині гори-зонтальной труб на основі теорії плівкової конденсації з обгрунтуванням основних комплексів, що визначають процес, і вдосконаленням залежності для розрахунку коефіцієнта тертя на межі розділу фаз

Ключові слова


Конденсація всередині горизонтальних труб - Обгрунтування розрахункових залежностей - Метод розрахунку теплообміну - Модель плівкової конденсації

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PDF (Русский)

Посилання


Тере, J. B.,Мiller, A. C. Condensation and sub-cooling inside an inclined tube,Chem. Eng.Prog., 43(1947), pp.267-278 2. Garcia-Valladares, O. Review of In-Tube Con-densation Heat Transfer Correlations for Smooth and Microfin Tubes, Heat Transfer Engineering, 24 (2003), 4, pp. 6-24 3. Kandlikar S.G., et al. Heat Transfer and Fluid Flow in Minichannels and Microchannels, Else-vier Ltd, Kidlington, Oxford, 2005 4. Dalkilic, A. S., Wongwises, S. Intensive litera-ture review of condensation inside smooth and enhanced tubes, International Journal of Heat and Mass Transfer, 52 (2009), pp. 3409-3426 5. Seong-Su Jeon, et al. Assessment of horizontal in-tube condensation models using MARS code. Part I: Stratified flow condensation, Nuclear En-gineering and Design, 254 (2013), pp. 254–265 6. Seong-Su Jeon, et al. Assessment of horizontal in-tube condensation models using MARS code. Part II: Annular flow condensation, Nuclear En-gineering and Design, 262 (2013), pp. 510–524 7. Nusselt, W. Die Oberflächenkondensation des Wasserdampfes, Zeitschrift VDI, 60 (1916), pp. 541-546, 568-575 8. Dalkilic, A.S., et al. Comparison of frictional pressure drop models during annular flow con-densation of R600a in a horizontal tube at low mass flux and of R134a in a vertical tube at high mass flux, International Journal of Heat and Mass Transfer, 53 (2010), pp. 2052-2064 9. Dalkilic, A. S. Condensation pressure drop char-acteristics of various refrigerants in a horizontal smooth tube, International Communications in Heat and Mass Transfer, 38 (2011), pp. 504-512 10. Akers, W. W., et al. Condensing heat transfer within horizontal tubes, Chem. Ehg. Progress, Symposium Series, 9 (1959), p. 171 11. ThipjakNualboonrueng, et. al. Two-phase con-densation heat transfer coefficients of HFC-134a at high mass flux in smooth and micro-fin tubes, Int. Comm. HeatandMassTransfer, 30 (2003), 4, pp. 577-590 12. Shah, M. M. A general correlation for heat transfer during film condensation inside pipes, Int. J. Heat Mass Transfer, 22 (1979), pp. 547-556 13. Shah, M. M. An improved and extended general correlation for heat transfer during condensation in plain tubes, ASHRAE Transactions, 15 (2009), 5, pp. 889–913 14. Thome, J. R., et al. Condensation in horizontal tubes. Part 2: New heat transfer model based on flow regimes, Int. J. Heat Mass Transfer, 46 (2003), pp. 3365–3387 15. Dukler, A.E. Fluid mechanics and heat transfer in falling film system, Proceeding, ASME-AIChE 3rd Nat. HeatTransferConference, Storrs. Conn., 1959 16. Bae, S., et al. Refrigerant forced convection condensation inside horizontal tubes. Report No. DSR-79760-59, Massachusetts Institute of Technology, Cambridge, MA, 1968 17. Bae, S., et al. Refrigerant forced convection condensation inside horizontal tubes. Report No. DSR-79760-64, Massachusetts Institute of Technology, Cambridge, MA, 1969 18. Traviss, D. P., et al. Forced convection conden-sation inside tubes. Report No. DSR-72591-74, Massachusetts Institute of Technology, Cambridge, MA, 1971 19. Doretti L., et al.Condensation flow patterns in-side plain and microfin tubes: A review, Interna-tional Journal of Refrigeration, 36 (2013), pp. 567-587 20. Taitel, Y., Dukler,A. E. A model for predicting flow regime transitions in horizontal and near horizontal gas-liquid flow, AIChE J., 22 (1976), 1, pp. 47-55 21. Hewitt G.F. Hall-Taylor N.S. Annular two-phase flow, 1st ed., Oxford, New York, Pergamon Press, 1970 22. Wang, C. C., et al. Visual observation of two-phase flow pattern of R-22, R-134a, and R-407C in a 6.5-mm smooth tube, Exp. Therm. Fluid Sci., 15 (1997), 4, pp. 395–405 23. Soliman, M., et al. A General HeatTransfer Cor-relation for Annular Flow Condensation, Trans. ASME,Journal of Heat Transfer, 90(1968), 2 24. Koyama, Sh., et al. Enhancement of in-tube condensation of non-azeotropic refrigerants mix-tures with a micro-fin tube, Proceedings, XVIIIth International Congress of Refrigeration, Montre-al, Quebec, Canada, 10-17 August 1991 25. Hasan M.M. Afroz, et al.Heat transfer coeffi-cients and pressure drops during in-tubecondensation of CO2/DME mixture refriger-ant,International Journal of Refrigeration, 31 (2008), pp. 1458-1466 26. Kinney, R.B., Sparrow, E.M. Turbulent flow, heat transfer and mass transfer in a tube with surface suction, Trans. ASME,JournalofHeatTransfer, 92 (1970), pp. 121-131 27. Kutateladze, S.S., Leont'ev A.I. Heat, mass transfer and friction in the turbulent boundary layer (in Russian), Moscow, Jenergija, 1972 28. Mickley, H. S., et al. Heat, mass and moment transfer for flow over a flat plate with blowing and suction. NASA TN№ 3208, 1954 29. Churchill, S. W., Usagi, R. A general expression for the correlation of rates of transfer and other phenomena, AIChE J., 18 (1972), 6, pp. 1121–1128 30. Owen, R. G., et al. Two-phase pressure drop for condensation inside a horizontal tube, Proceed-ings, 14-th symposium on Heat exchangers. Theory and practice, Dubrovnik, 1981 31. Dongsoo Jung, et al.Flow condensation heat transfer coefficients of pure refrigerants, Interna-tional Journal of Refrigeration, 26 (2003), pp. 4-11 32. Rifert, V. G. Heat transfer and flow modes of phases in laminar film vapour condensation in-side a horizontal tube, Int. J. Heat Mass Transfer, 31 (1988), 3, pp. 517-523 33. Cavallini, A., et al. Condensation inside and outside smooth and enhanced tubes – a review of recent research. International Journal of Refrigeration, 26 (2003), pp. 373-392 34. Cavallini A., et al. Condensation of refrigerants in smooth tubes: a new heat transfer model for heat exchanger design, Proceedings, 3-rd Inter-national Conference on Heat Transfer, Fluid Me-chanics and Thermodynamics, Cape Town, South Africa, 21-24 June 2004 35. Cavallini, A., et al.Experimental investigation on condensation heat transfer and pressure drop of new refrigerants (R134a, R125, R32, R410A, R236ea) in a horizontal smooth tube. Int. J. Refrig, 21 (2001), pp. 73–87 36. Park, K., et al. Flow condensation heat transfer characteristics of hydrocarbon refrigerants and dimethyl ether inside a horizontal plain tube, Int. J. Multiphase Flow,34 (2008), pp. 628–635 37. Kwon, J. T., et al. A modeling of in-tube con-densation heat transfer for a turbulent annular film flow with liquid entrainment, International Journal of Multiphase Flow, 27 (2001), pp. 911-928 38. El Hajal, et al. Condensation in horizontal tubes. Part 1: Two-phase flow pattern map, Interna-tional Journal of Heat and Mass Transfer, 46 (2003), pp. 3349-3363 39. InfanteFerreiraa, C.A., et al.R404A con-densingunderforcedflowconditionsinsidesmooth, microfinand cross-hatchedhorizontal-tubes,InternationlJournalofRefrigeration 26 (2003),pp. 433–441 40. Jassim, E. W., et al., Prediction of two-phase condensation in horizontal tubes using probabil-istic flow regime maps, International Journal of Heat and Mass Transfer, 51 (2008), pp. 485-496 41. Smit,F.J.,Meyer, J.P.,Condensationheattransfercoefficientsofthezeotropicrefrigerantmixture R-22/R-142b insmooth horizontal tubes,Int. J. Therm. Sci. 41 (2002),pp. 625–630 42. Yu J., et al., Boiling and condensation of alter-native refrigerants in a horizontal smooth tube, Reports Institute of Advanced Material Study Kyushu University, 9 (1995), 2, pp. 137-154 43. Hurlburt, E. T., Newell, T. A., Prediction of the circumferential film thickness distribution in hor-izontal annular gas-liquid flow, Report No. ACRC TR-111, Air conditioning and 44. Rifert, V.G., Barabash, P.A., Gorin, V.V., Sereda, V.V. Condensation inside horizontal tubes: state of the problem and analysis of research results/ Scientific Journal "Transactions of Academenergo" (edition of research centre for power engineering problems, Kazan, Slovenia) , - 2011 №4, pp. 57-68. 45. Rifert, V.G., Barabash, P.A., Gorin, V.V., Sereda, V.V. Condensation inside horizontal tubes: state of the problem and analysis of research results. Proceedings of 15-th workshop on Transport Phenomena in two-phase flow, September 17-22, 2011, pp.155-166.


Пристатейна бібліографія ГОСТ


1. Тере, J. B.,Мiller, A. C. Condensation and sub-cooling inside an inclined tube,Chem. Eng.Prog., 43(1947), pp.267-278 2. Garcia-Valladares, O. Review of In-Tube Con-densation Heat Transfer Correlations for Smooth and Microfin Tubes, Heat Transfer Engineering, 24 (2003), 4, pp. 6-24 3. Kandlikar S.G., et al. Heat Transfer and Fluid Flow in Minichannels and Microchannels, Else-vier Ltd, Kidlington, Oxford, 2005 4. Dalkilic, A. S., Wongwises, S. Intensive litera-ture review of condensation inside smooth and enhanced tubes, International Journal of Heat and Mass Transfer, 52 (2009), pp. 3409-3426 5. Seong-Su Jeon, et al. Assessment of horizontal in-tube condensation models using MARS code. Part I: Stratified flow condensation, Nuclear En-gineering and Design, 254 (2013), pp. 254–265 6. Seong-Su Jeon, et al. Assessment of horizontal in-tube condensation models using MARS code. Part II: Annular flow condensation, Nuclear En-gineering and Design, 262 (2013), pp. 510–524 7. Nusselt, W. Die Oberflächenkondensation des Wasserdampfes, Zeitschrift VDI, 60 (1916), pp. 541-546, 568-575 8. Dalkilic, A.S., et al. Comparison of frictional pressure drop models during annular flow con-densation of R600a in a horizontal tube at low mass flux and of R134a in a vertical tube at high mass flux, International Journal of Heat and Mass Transfer, 53 (2010), pp. 2052-2064 9. Dalkilic, A. S. Condensation pressure drop char-acteristics of various refrigerants in a horizontal smooth tube, International Communications in Heat and Mass Transfer, 38 (2011), pp. 504-512 10. Akers, W. W., et al. Condensing heat transfer within horizontal tubes, Chem. Ehg. Progress, Symposium Series, 9 (1959), p. 171 11. ThipjakNualboonrueng, et. al. Two-phase con-densation heat transfer coefficients of HFC-134a at high mass flux in smooth and micro-fin tubes, Int. Comm. HeatandMassTransfer, 30 (2003), 4, pp. 577-590 12. Shah, M. M. A general correlation for heat transfer during film condensation inside pipes, Int. J. Heat Mass Transfer, 22 (1979), pp. 547-556 13. Shah, M. M. An improved and extended general correlation for heat transfer during condensation in plain tubes, ASHRAE Transactions, 15 (2009), 5, pp. 889–913 14. Thome, J. R., et al. Condensation in horizontal tubes. Part 2: New heat transfer model based on flow regimes, Int. J. Heat Mass Transfer, 46 (2003), pp. 3365–3387 15. Dukler, A.E. Fluid mechanics and heat transfer in falling film system, Proceeding, ASME-AIChE 3rd Nat. HeatTransferConference, Storrs. Conn., 1959 16. Bae, S., et al. Refrigerant forced convection condensation inside horizontal tubes. Report No. DSR-79760-59, Massachusetts Institute of Technology, Cambridge, MA, 1968 17. Bae, S., et al. Refrigerant forced convection condensation inside horizontal tubes. Report No. DSR-79760-64, Massachusetts Institute of Technology, Cambridge, MA, 1969 18. Traviss, D. P., et al. Forced convection conden-sation inside tubes. Report No. DSR-72591-74, Massachusetts Institute of Technology, Cambridge, MA, 1971 19. Doretti L., et al.Condensation flow patterns in-side plain and microfin tubes: A review, Interna-tional Journal of Refrigeration, 36 (2013), pp. 567-587 20. Taitel, Y., Dukler,A. E. A model for predicting flow regime transitions in horizontal and near horizontal gas-liquid flow, AIChE J., 22 (1976), 1, pp. 47-55 21. Hewitt G.F. Hall-Taylor N.S. Annular two-phase flow, 1st ed., Oxford, New York, Pergamon Press, 1970 22. Wang, C. C., et al. Visual observation of two-phase flow pattern of R-22, R-134a, and R-407C in a 6.5-mm smooth tube, Exp. Therm. Fluid Sci., 15 (1997), 4, pp. 395–405 23. Soliman, M., et al. A General HeatTransfer Cor-relation for Annular Flow Condensation, Trans. ASME,Journal of Heat Transfer, 90(1968), 2 24. Koyama, Sh., et al. Enhancement of in-tube condensation of non-azeotropic refrigerants mix-tures with a micro-fin tube, Proceedings, XVIIIth International Congress of Refrigeration, Montre-al, Quebec, Canada, 10-17 August 1991 25. Hasan M.M. Afroz, et al.Heat transfer coeffi-cients and pressure drops during in-tubecondensation of CO2/DME mixture refriger-ant,International Journal of Refrigeration, 31 (2008), pp. 1458-1466 26. Kinney, R.B., Sparrow, E.M. Turbulent flow, heat transfer and mass transfer in a tube with surface suction, Trans. ASME,JournalofHeatTransfer, 92 (1970), pp. 121-131 27. Kutateladze, S.S., Leont'ev A.I. Heat, mass transfer and friction in the turbulent boundary layer (in Russian), Moscow, Jenergija, 1972 28. Mickley, H. S., et al. Heat, mass and moment transfer for flow over a flat plate with blowing and suction. NASA TN№ 3208, 1954 29. Churchill, S. W., Usagi, R. A general expression for the correlation of rates of transfer and other phenomena, AIChE J., 18 (1972), 6, pp. 1121–1128 30. Owen, R. G., et al. Two-phase pressure drop for condensation inside a horizontal tube, Proceed-ings, 14-th symposium on Heat exchangers. Theory and practice, Dubrovnik, 1981 31. Dongsoo Jung, et al.Flow condensation heat transfer coefficients of pure refrigerants, Interna-tional Journal of Refrigeration, 26 (2003), pp. 4-11 32. Rifert, V. G. Heat transfer and flow modes of phases in laminar film vapour condensation in-side a horizontal tube, Int. J. Heat Mass Transfer, 31 (1988), 3, pp. 517-523 33. Cavallini, A., et al. Condensation inside and outside smooth and enhanced tubes – a review of recent research. International Journal of Refrigeration, 26 (2003), pp. 373-392 34. Cavallini A., et al. Condensation of refrigerants in smooth tubes: a new heat transfer model for heat exchanger design, Proceedings, 3-rd Inter-national Conference on Heat Transfer, Fluid Me-chanics and Thermodynamics, Cape Town, South Africa, 21-24 June 2004 35. Cavallini, A., et al.Experimental investigation on condensation heat transfer and pressure drop of new refrigerants (R134a, R125, R32, R410A, R236ea) in a horizontal smooth tube. Int. J. Refrig, 21 (2001), pp. 73–87 36. Park, K., et al. Flow condensation heat transfer characteristics of hydrocarbon refrigerants and dimethyl ether inside a horizontal plain tube, Int. J. Multiphase Flow,34 (2008), pp. 628–635 37. Kwon, J. T., et al. A modeling of in-tube con-densation heat transfer for a turbulent annular film flow with liquid entrainment, International Journal of Multiphase Flow, 27 (2001), pp. 911-928 38. El Hajal, et al. Condensation in horizontal tubes. Part 1: Two-phase flow pattern map, Interna-tional Journal of Heat and Mass Transfer, 46 (2003), pp. 3349-3363 39. InfanteFerreiraa, C.A., et al.R404A con-densingunderforcedflowconditionsinsidesmooth, microfinand cross-hatchedhorizontal-tubes,InternationlJournalofRefrigeration 26 (2003),pp. 433–441 40. Jassim, E. W., et al., Prediction of two-phase condensation in horizontal tubes using probabil-istic flow regime maps, International Journal of Heat and Mass Transfer, 51 (2008), pp. 485-496 41. Smit,F.J.,Meyer, J.P.,Condensationheattransfercoefficientsofthezeotropicrefrigerantmixture R-22/R-142b insmooth horizontal tubes,Int. J. Therm. Sci. 41 (2002),pp. 625–630 42. Yu J., et al., Boiling and condensation of alter-native refrigerants in a horizontal smooth tube, Reports Institute of Advanced Material Study Kyushu University, 9 (1995), 2, pp. 137-154 43. Hurlburt, E. T., Newell, T. A., Prediction of the circumferential film thickness distribution in hor-izontal annular gas-liquid flow, Report No. ACRC TR-111, Air conditioning and 44. Rifert, V.G., Barabash, P.A., Gorin, V.V., Sereda, V.V. Condensation inside horizontal tubes: state of the problem and analysis of research results/ Scientific Journal "Transactions of Academenergo" (edition of research centre for power engineering problems, Kazan, Slovenia) , - 2011 №4, pp. 57-68. 45. Rifert, V.G., Barabash, P.A., Gorin, V.V., Sereda, V.V. Condensation inside horizontal tubes: state of the problem and analysis of research results. Proceedings of 15-th workshop on Transport Phenomena in two-phase flow, September 17-22, 2011, pp.155-166.