Browsing Citations Only by Author "Campbell, Levi"
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Effect of entrance condition on frictional losses and transition to turbulence
Kandlikar, Satish; Campbell, Levi (American Society of Mechanical Engineers (ASME), 2002-11)In studying the fluid flow and heat transfer in microchannels, various claims have been made regarding transition at Reynolds numbers significantly below 2300. As a first step in identifying the reasons for such early ... -
Effect of entrance condition on frictional losses and transition to turbulence in minichannel flows
Campbell, Levi; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2004-06)In studying the fluid flow and heat transfer in microchannels and minichannels, various claims have been made regarding transition at Reynolds numbers significantly below 2300. As a first step in identifying the reasons ... -
Experimental study of heat transfer, pressure drop, and dryout for flow boiling of water in an oil heated minichannel
Campbell, Levi; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2004-06)Heat transfer and pressure drop, are experimentally recorded for flow boiling water in a single 706 mm circular copper channel 158.75 mm long. Heat is supplied by heat transfer oil at specified temperatures to a helical ... -
High-Speed photographic observation of flow boiling of water in parallel mini-channels
Kandlikar, Satish; Steinke, Mark; Tian, Shurong; Campbell, Levi (American Society of Mechanical Engineers (ASME), 2001-06)The use of smaller passage dimensions is becoming more prevalent in flow boiling applications. Passages with hydraulic diameters on the order of 1mm provide higher heat transfer coefficients resulting in more compact ... -
High-speed photographic observation of flow boiling of water in parallel mini-channels
Kandlikar, Satish; Steinke, Mark; Tian, Shurong; Campbell, Levi (American Society of Mechanical Engineers (ASME), 2001-06)The use of smaller passage dimensions is becoming more prevalent in flow boiling applications. Passages with hydraulic diameters on the order of 1mm provide higher heat transfer coefficients resulting in more compact ...