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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Schematic of the experimental facility and the test section
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Variation of thermophysical properties of CO2 in the supercritical region
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Effect of operating pressure on heat transfer for downward flow, G=195 kg/m2s, QPS′′=13.5 kW/m2
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Effect of flow configuration on heat transfer for p=8.1 MPa, G=195 kg/m2s, QPS′′=24 kW/m2, Tin=46°C
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Effect of inlet temperature on the wall temperatures for p=7.5 MPa, G=320 kg/m2s, and QPS′′=24 kW/m2
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Effect of heat flux on downward flow heat transfer for p=7.5 MPa and G=195 kg/m2s
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Normalized Nusselt number versus Jackson’s buoyancy parameter, Bu
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Normalized Nusselt number versus Jackson’s buoyancy parameter, Boj
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Calculated Nusselt number using Mokry et al. correlation
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Date of download: 10/3/2017 Copyright © ASME. All rights reserved. From: Investigation of Buoyancy Effects on Heat Transfer Characteristics of Supercritical Carbon Dioxide in Heating Mode ASME J of Nuclear Rad Sci. 2015;1(3): doi: / Figure Legend: Calculated Nusselt number for downward flow
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