Journal of Advanced Marine Engineering and Technology

  • 제27권1호
  • /
  • Pages.108-116
  • /
  • 2003
  • /
  • 2234-7925(pISSN)
  • /
  • 2234-8352(eISSN)
한국마린엔지니어링학회 (The Korean Society of Marine Engineering)
권호 표지

판각형 열교환기내의 R-134a 응축열전달 특성에 관한 실험적 연구

Experimental Study on R-l34a Condensation Beat Transfer Characteristics in Plate and Shell Heat Exchanger

  • 발행 : 2003.01.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

In this paper, the experimental results of condensation heat transfer were reported for the plate and shell heat exchangers(P&SHE) using R-l34a. An experimental refrigerant loop has been established to measure the condensation heat transfer coefficient of R-l34a in a vertical P&SHE. Two vertical counter flow channels were formed in the P&SHE by three plates of geometry with a corrugated trapezoid shape of a chevron angle of 45$^{\circ}$. Downflow of the condensing R-l34a in one channel releases heat to the cold up flow of water in the other channel. The effect of the refrigerant mass flux, average heat flux, system pressure and vapor quality of R-l34a on the measured data were explored in detail. The results indicate that at a higher vapor quality the condensation heat transfer coefficients are significantly higher. Condensation heat transfer coefficients were increased when the refrigerant mass flux was increased. A rise in the average heat flux causes an slight increase in the hr. Finally, at a higher system pressure the hr is found to be lower. Correlation is also provided for the measured heat transfer coefficients in terms of the Nusselt number.

키워드

참고문헌

  1. Heating and Air Conditioning Journal APt. Heat Transfer Savings on a Plate Williams, B.
  2. Power v.131 Where Plate Exchangers Offer Advantages Over Shell-and -Tube Kerner(et al.)
  3. Int. J. Heat Mass Transfer v.28 no.8 The Effect of the Corrugation Inclination Angle on the Thermohydraulic Performance of Plate Heat Exchangers Focde, W. W.;Zachariades, J.;Oiver, I. https://doi.org/10.1016/0017-9310(85)90249-2
  4. Heat Exchanger Design Handbook Cooper, A.;Usher, J.D.
  5. AIChE Journal v.15 no.4 A Study of the Effects of Internal Rib and Channel Geometry in Tectangular Channels Bounpane, R. A.;Troupe, R. A. https://doi.org/10.1002/aic.690150421
  6. Global Performance of a Prototype Brazed Plate Heat Exchanger in a Large Reynolds Number Range, Experimental Heat Transfer no.8 Bogaert, R.;Bolcs, A.
  7. Heat Transfer Equipment Design Plate Heat Exchangers and Their Design Theory Shah, R. K.;Focke, W. W.;Shah, R. K.(Ed,);Subbarao, E. C.(Ed.);Mashelkar, R. A.(Ed.)
  8. ASME J. Heat Transfer v.III Multi pass Plate Heat Exchangers Effectiveness- NTU Results and Guidelines for Selecting Pass Arrangements Kandlikar, S. G.;Shah, R. K.
  9. Lecture Series, No, 1991-04 Plate Heat Exchanger Design Theory in Industry Heat Exchanger Shah. R. K.;Wanniarachchi. A. S.;J. M. Buchlin(Ed)
  10. SAE Technical Paper Series, 91017 Heat Transfer and Friction Characteristics Turbulator Radiator Tubes Farrell, P.;Wert, K.;Ralph, W.
  11. International J. of Heat & Mass Transfer v.39 no.4 Condensation of R-12 in Small Hydraulic Diameter Extruded Aluminum Tubes with and without Micro-fins Webb, R. L.;Yang, C. Y. https://doi.org/10.1016/0017-9310(95)00150-6
  12. Int J. Heat and Mass Transfer 42 Condensation Heat Transfer and Pressure Drop of Refrigerant R-134a in a Plate Heat Exchanger Yi-Yie Yan;Hsiang-Chao Lio;Tsing-Fa Lin
  13. Chem. Eng. Prog v.54 Condensation Heat Transfer WIthin Horizontal Tubes Akers, W. W.;Dean, H. A.;Crosser. O.
  14. Journal of Air-Conditioning and Refrigeration v.7 Experimental Investigation of R-22 Condensation in Tubes with Small Inner Diameter Nae Hyun Kim;Jin Pyo Cho
  15. Trans. Am. Soc. Mech. Engrs. v.37 A Basis for Rational Design of Heat Transfer Apparatus Wilson, E. E.