An Extension of the Flow Boiling Correlation to Transition, Laminar, and Deep Laminar Flows in Minichannels and Microchannels
TLDR
In this paper, a flow boiling correlation for large diameter tubes developed by Kandlikar [1, 2] is modified for flow boiling in minichannels by using the laminar single-phase heat transfer coefficient for all liquid flow.Abstract:
Flow boiling in mini- and microchannels offer very high heat transfer capabilities and find applications in many emerging technologies, such as electronics cooling and fuel cells. The low flow rate employed in such geometries, coupled with the small flow channels, often results in a laminar flow with all flow as liquid. Since the single-phase flow with all liquid is in the laminar range, the flow boiling correlations developed for conventional tubes with an inner diameter larger than 3 mm and turbulent flow need to be carefully reviewed. In the present work, flow boiling correlation for large diameter tubes developed by Kandlikar [1, 2] is modified for flow boiling in minichannels by using the laminar single-phase heat transfer coefficient for all liquid flow. The correlation is also extended for flow boiling in microchannels using the nucleate boiling as the dominant part of the original correlation. The trends in heat transfer coefficient versus quality are compared in the laminar and deep laminar regio...read more
Citations
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A composite heat transfer correlation for saturated flow boiling in small channels
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Effects of inlet/outlet configurations on flow boiling instability in parallel microchannels
TL;DR: In this article, a simultaneous visualization and measurement study has been carried out to investigate effects of inlet/outlet configurations on flow boiling instabilities in parallel microchannels, having a length of 30 mm and a hydraulic diameter of 186 μm.
MonographDOI
Two-phase flow, boiling and condensation in conventional and miniature systems
TL;DR: In this paper, a comprehensive introduction to the fundamentals and applications of flow and heat transfer in conventional and miniature systems is provided, providing a comprehensive review of single-phase flow fundamentals and interfacial phenomena, detailed and clear discussion is provided on a range of topics, including two-phase hydrodynamics and flow regimes, mathematical modeling of gas-liquid 2-phase flows, pool and flow boiling, flow and boiling in mini and microchannels, external and internal-flow condensation with and without noncondensables, condensation in small flow passages, and two-
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Saturated flow boiling heat transfer and pressure drop in silicon microchannel arrays
Poh Seng Lee,Suresh V. Garimella +1 more
TL;DR: In this article, the authors investigated flow boiling in arrays of parallel microchannels using a silicon test piece with imbedded discrete heat sources and integrated local temperature sensors, and the experimental results allow a critical assessment of the applicability of existing models and correlations in predicting the heat transfer rates and pressure drops in microchannel arrays.
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Explosive boiling of water in parallel micro-channels
TL;DR: In this article, the authors visualize the flow pattern and measure heat transfer coefficient during explosive boiling of water in parallel triangular micro-channels, and show that the behavior of long vapor bubbles, occurring in a micro-channel at low Reynolds numbers, was not similar to annular flow with interposed intermitted slugs of liquid between two long vapor trains.
References
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Journal ArticleDOI
A General Correlation for Saturated Two-Phase Flow Boiling Heat Transfer Inside Horizontal and Vertical Tubes
TL;DR: In this article, a simple correlation was developed earlier by Kandlikar (1983) for predicting saturated flow boiling heat transfer coefficients inside horizontal and vertical tubes, which was further refined by expanding the data base to 5,246 data points from 24 experimental investigations with ten fluids.
Journal ArticleDOI
Evolution of Microchannel Flow Passages-Thermohydraulic Performance and Fabrication Technology
TL;DR: In this article, the authors provide a roadmap of development in the thermal and fabrication aspects of microchannels as applied in microelectronics and other high heat-flux cooling applications.
Journal ArticleDOI
Boiling Heat Transfer in a Horizontal Small-Diameter Tube
TL;DR: In this article, a study on boiling heat transfer of refrigerant R-113 in a small-diameter (2.92 mm) tube is reported, where local heat transfer coefficients are measured for a range of heat flux (8.8-90.75 kW/m[sup 2]), mass flux (50-300 kg/m [sup 2]s), and equilibrium mass quality (0-0.9).
Journal Article
Evolution of microchannel flow passages – Thermohydraulic performance and fabrication technology
TL;DR: In this article, the authors provide a roadmap of development in the thermal and fabrication aspects of microchannels as applied in the microelectronics and other high heat-flux cooling applications.
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