Flow boiling of ethanol/water binary mixture in a square mini-channel
Two-phase flow heat transfer was examined in a single 5mm inner hydraulic diameter square channel in a vertical orientation. The channel uses a resistive coating to allow for transparent heating of the walls. Transparency of the heating enabled high speed visualization of the boiling phenomena at va...
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Published in | Applied thermal engineering Vol. 127; pp. 1617 - 1626 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Oxford
Elsevier Ltd
25.12.2017
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Abstract | Two-phase flow heat transfer was examined in a single 5mm inner hydraulic diameter square channel in a vertical orientation. The channel uses a resistive coating to allow for transparent heating of the walls. Transparency of the heating enabled high speed visualization of the boiling phenomena at various heat and mass fluxes. The pressure is monitored at the inlet and outlet of the channel. Infra-red thermography is used to map the external wall temperature of the channel and the local heat transfer coefficient is estimated from the local wall temperature and the saturation temperature of the liquid.
Ethanol, deionized water and a 5% v/v ethanol/water mixture were used as working fluids. Three mass fluxes (0.33, 0.66 and 1.00kg/m2s) were tested as well as three heat fluxes (2.8, 4.2 and 6.1kW/m2). Experiments were conducted in a controlled temperature environment, where the surrounding air was kept at 40°C. The addition of ethanol into water (5% v/v ethanol/water mixture) was found to enhance heat transfer resulting in higher heat transfer coefficients than for either of its pure components. |
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AbstractList | Two-phase flow heat transfer was examined in a single 5 mm inner hydraulic diameter square channel in a vertical orientation. The channel uses a resistive coating to allow for transparent heating of the walls. Transparency of the heating enabled high speed visualization of the boiling phenomena at various heat and mass fluxes. The pressure is monitored at the inlet and outlet of the channel. Infra-red thermography is used to map the external wall temperature of the channel and the local heat transfer coefficient is estimated from the local wall temperature and the saturation temperature of the liquid. Ethanol, deionized water and a 5% v/v ethanol/water mixture were used as working fluids. Three mass fluxes (0.33, 0.66 and 1.00 kg/m2 s) were tested as well as three heat fluxes (2.8, 4.2 and 6.1 kW/m2). Experiments were conducted in a controlled temperature environment, where the surrounding air was kept at 40 °C. The addition of ethanol into water (5% v/v ethanol/water mixture) was found to enhance heat transfer resulting in higher heat transfer coefficients than for either of its pure components. Two-phase flow heat transfer was examined in a single 5mm inner hydraulic diameter square channel in a vertical orientation. The channel uses a resistive coating to allow for transparent heating of the walls. Transparency of the heating enabled high speed visualization of the boiling phenomena at various heat and mass fluxes. The pressure is monitored at the inlet and outlet of the channel. Infra-red thermography is used to map the external wall temperature of the channel and the local heat transfer coefficient is estimated from the local wall temperature and the saturation temperature of the liquid. Ethanol, deionized water and a 5% v/v ethanol/water mixture were used as working fluids. Three mass fluxes (0.33, 0.66 and 1.00kg/m2s) were tested as well as three heat fluxes (2.8, 4.2 and 6.1kW/m2). Experiments were conducted in a controlled temperature environment, where the surrounding air was kept at 40°C. The addition of ethanol into water (5% v/v ethanol/water mixture) was found to enhance heat transfer resulting in higher heat transfer coefficients than for either of its pure components. |
Author | Sefiane, Khellil Karayiannis, Tassos G. Christy, John R.E. Vasileiadou, Parthenopi |
Author_xml | – sequence: 1 givenname: Parthenopi surname: Vasileiadou fullname: Vasileiadou, Parthenopi organization: School of Engineering, University of Edinburgh, The King’s Buildings, Mayfield Road, Edinburgh EH9 3JL, UK – sequence: 2 givenname: Khellil surname: Sefiane fullname: Sefiane, Khellil email: ksefiane@ed.ac.uk organization: School of Engineering, University of Edinburgh, The King’s Buildings, Mayfield Road, Edinburgh EH9 3JL, UK – sequence: 3 givenname: Tassos G. surname: Karayiannis fullname: Karayiannis, Tassos G. organization: College of Engineering, Design and Physical Sciences, Brunel University London, Uxbridge UB8 3PH, UK – sequence: 4 givenname: John R.E. surname: Christy fullname: Christy, John R.E. organization: School of Engineering, University of Edinburgh, The King’s Buildings, Mayfield Road, Edinburgh EH9 3JL, UK |
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Cites_doi | 10.1016/0301-9322(96)00002-X 10.1016/S0301-9322(02)00019-8 10.1016/S0894-1777(02)00317-5 10.1016/j.expthermflusci.2005.03.009 10.1080/01457630701328213 10.1007/s10404-007-0215-y 10.1016/j.ijmultiphaseflow.2008.10.004 10.1016/j.ijthermalsci.2012.10.021 10.1080/01457630600845481 10.1016/0301-9322(96)00010-9 10.1016/S0017-9310(97)00096-3 10.1016/S1359-4311(01)00124-7 10.1016/j.ijheatmasstransfer.2011.11.051 10.1016/j.ijheatmasstransfer.2005.06.003 10.1016/S0017-9310(98)00195-1 10.1016/j.expthermflusci.2004.03.003 |
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SubjectTerms | Deionization Environmental monitoring Ethanol Flow boiling Heat flux Heat transfer Heat transfer coefficients Heating High speed Micro-channels Mixtures Thermography Two phase flow Vertical orientation Visualization Wall temperature Working fluids |
Title | Flow boiling of ethanol/water binary mixture in a square mini-channel |
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