SharePure refrigerant condensation on a single integral finned tube: vapour velocity effects.
Author(s) : BELLA B., CAVALLINI A., LONGO G. A., et al.
Summary
Two different series of experimental runs are fully reported. The first series refers to R11; the second series is relative to R113. These runs are contained in certain temperature and pressure limits. The experimental data obtained are compared with the most recent theoretical models for condensation on a single integral finned tube. The results obtained are presented.
Details
- Original title: Pure refrigerant condensation on a single integral finned tube: vapour velocity effects.
- Record ID : 1993-0166
- Languages: English
- Publication date: 1992/07/14
- Source: Source: Proc. 1992 int. Refrig. Conf., Energy Effic. New Refrig., Purdue Univ.
vol. 1; 177-186; 7 fig.; 2 tabl.; 10 ref. - Document available for consultation in the library of the IIR headquarters only.
Indexing
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Themes:
CFCs;
Mass transfer - Keywords: Velocity (fluids, gases); Horizontal tube; Heat transfer coefficient; Finned tube; Vapour; Heat transfer; R113; R11; Condensation
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Pure vapour condensation of refrigerants 11 and...
- Author(s) : BELLA B., CAVALLINI A., LONGO G. A., ROSSETTO L.
- Date : 1993
- Languages : English
- Source: J. enhanced Heat Transf. - vol. 1 - n. 1
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Condensation of R113 on enhanced surfaces.
- Author(s) : NGUYEN T. N., OROZCO J. A.
- Date : 1994
- Languages : English
- Source: ASHRAE Transactions 1994.
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AN EXPERIMENTAL STUDY OF R113 FILM CONDENSATION...
- Author(s) : MARTO P. J.
- Date : 1990
- Languages : English
- Source: J. Heat Transf. - vol. 112 - n. 3
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CONDENSATION HEAT TRANSFER OF NON-AZEOTROPIC BI...
- Author(s) : MOCHIZUKI S., TOMINAGA M.
- Date : 1990
- Languages : English
- Source: Heat Transf., Jap. Res. - vol. 19 - n. 2
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POOL BOILING DATA FOR FIVE REFRIGERANTS ON THRE...
- Author(s) : WEBB R. L., PAIS C.
- Date : 1991
- Languages : English
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