%0 Journal Article %1 Longo2011978 %A Longo, Giovanni A. %D 2011 %J Experimental Thermal and Fluid Science %K 2011 R290 R600a condensation experiment plate-heat-exchanger refrigeration %N 6 %P 978 - 985 %R 10.1016/j.expthermflusci.2011.01.018 %T The effect of vapour super-heating on hydrocarbon refrigerant condensation inside a brazed plate heat exchanger %U http://www.sciencedirect.com/science/article/pii/S089417771100029X %V 35 %X This paper investigates the effect of vapour super-heating on hydrocarbon refrigerant 600a (Isobutane), 290 (Propane) and 1270 (Propylene) condensation inside a brazed plate heat exchanger. Vapour super-heating increases heat transfer coefficient with respect to saturated vapour, whereas no effect was observed on pressure drop. The super-heated vapour condensation data shows the same trend vs. refrigerant mass flux as the saturated vapour condensation data, but with higher absolute values. A transition point between gravity controlled and forced convection condensation has been found for a refrigerant mass flux around 15–18 kg m−2 s−1 depending on refrigerant type. The super-heated vapour heat transfer coefficients are from 5% to 10% higher than those of saturated vapour under the same refrigerant mass flux. The experimental heat transfer coefficients have been compared against Webb (1998) model for forced convection condensation of super-heated vapour: the mean absolute percentage deviation between the experimental and calculated data is ±18.3%. HC-1270 shows super-heated vapour heat transfer coefficient 5% higher than HC-600a and 10–15% higher than HC-290 together with total pressure drops 20–25% lower than HC-290 and 50–66% lower than HC-600a under the same mass flux.

@article{Longo2011978, abstract = {This paper investigates the effect of vapour super-heating on hydrocarbon refrigerant 600a (Isobutane), 290 (Propane) and 1270 (Propylene) condensation inside a brazed plate heat exchanger. Vapour super-heating increases heat transfer coefficient with respect to saturated vapour, whereas no effect was observed on pressure drop. The super-heated vapour condensation data shows the same trend vs. refrigerant mass flux as the saturated vapour condensation data, but with higher absolute values. A transition point between gravity controlled and forced convection condensation has been found for a refrigerant mass flux around 15–18 kg m−2 s−1 depending on refrigerant type. The super-heated vapour heat transfer coefficients are from 5% to 10% higher than those of saturated vapour under the same refrigerant mass flux. The experimental heat transfer coefficients have been compared against Webb (1998) model for forced convection condensation of super-heated vapour: the mean absolute percentage deviation between the experimental and calculated data is ±18.3%. HC-1270 shows super-heated vapour heat transfer coefficient 5% higher than HC-600a and 10–15% higher than HC-290 together with total pressure drops 20–25% lower than HC-290 and 50–66% lower than HC-600a under the same mass flux.}, added-at = {2012-10-29T11:05:21.000+0100}, author = {Longo, Giovanni A.}, biburl = {https://www.bibsonomy.org/bibtex/27a2985f8ef4f71af60b26e653022ccc2/thorade}, description = {ScienceDirect.com - Experimental Thermal and Fluid Science - The effect of vapour super-heating on hydrocarbon refrigerant condensation inside a brazed plate heat exchanger}, doi = {10.1016/j.expthermflusci.2011.01.018}, interhash = {ddd1a276e83ab41d6890aaf0ed6ac87b}, intrahash = {7a2985f8ef4f71af60b26e653022ccc2}, issn = {0894-1777}, journal = {Experimental Thermal and Fluid Science}, keywords = {2011 R290 R600a condensation experiment plate-heat-exchanger refrigeration}, number = 6, pages = {978 - 985}, timestamp = {2012-10-29T11:05:22.000+0100}, title = {The effect of vapour super-heating on hydrocarbon refrigerant condensation inside a brazed plate heat exchanger}, url = {http://www.sciencedirect.com/science/article/pii/S089417771100029X}, volume = 35, year = 2011 }