An Empirical Modification of Nucleation Theory and Its Application to Boiling Heat Transfer Page: 25 of 38
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VALUES OF C AND n IN EQ (23) FOR ORGANIC LIQUIDS
AT DIFFERENT SURFACE CONDITIONS
Liquid-Surface Combination Investigators C x 104 n
Benzene on chromium-plated
plate Cichelli-Bonilla 1 58 5 x 10-6
Ethanol on chromium-plated
plate Cichelh-Bonilla 1.86 5 x 10-6
Benzene in stainless steel tube Mesler-Banchero 4.14 2 x 5 x 10-6
Ethanol in stainless steel tube Mesler-Banchero 6 35 3 x 5 x 10-6
Acetone in stainless steel tube Mesler-Banchero 7.00 3 x 5 x 10-6
Isopropanol in vertical copper
tube Piret-Isbin 0 55 5 x 10-7
Carbon tetrachloride in vertical
copper tube Piret-Isbin 0 41 5 x 10~7
n-Butyl alcohol in vertical
copper tube Piret-Isbin 0.56 5 x 10-7
Diphenyl in stainless steel tube Jordan- Leppert 1 04 2 x 10-6
Ortho-terphenyl in stainless
steel tube Jordan-Leppert 1 04 Z x 10-6
Meta-terphenyl in stainless
steel tube Jordan-Leppert 1 04 2 x 10-6
Isopropanol in copper tube Dunskus-Westwater 1.71 3 x 5 x 10-7
0 Test Points, Water,
- Calculated for
SUPERHEAT 9s, OF
Fig. 11. Heat Flux versus Superheat for Boiling
of Isopropanol from Horizontal Copper
Tube and of Water in Vertical Copper
0 Test Points, Isopropanol,
- Calculated for Vigorous
---Calculated for Feeble
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Chang, Y. P. An Empirical Modification of Nucleation Theory and Its Application to Boiling Heat Transfer, report, February 1, 1961; United States. (https://digital.library.unt.edu/ark:/67531/metadc863296/m1/25/: accessed May 24, 2019), University of North Texas Libraries, Digital Library, https://digital.library.unt.edu; crediting UNT Libraries Government Documents Department.