Browsing by Author "Kandlikar, Satish"
Now showing items 61-80 of 90
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Microchannels-Short history and bright future
Kandlikar, Satish (Taylor & Francis, 2003-01-02) -
A Model for correlating flow boiling heat transfer in augmented tubes and compact evaporators
Kandlikar, Satish (American Society of Mechanical Engineers, 1991-11) -
A Model for flow boiling heat transfer in augmented tubes and compact evaporators
Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 1990-11)The additive model of the convective and the nucleate boiling components employed in the Kandlikar correlation (1990a) for flow boiling in smooth tubes is extended to augmented tubes and compact evaporators. Two augmentation ... -
Molecular dynamics simulation and measurement of contact angle of water droplet on a platinum surface
Kandlikar, Satish; Maruyama, Shigeo; Steinke, Mark; Kimura, Tatsuto (American Society of Mechanical Engineers (ASME), 2001-11)A water liquid droplet in contact with a platinum surface was simulated by the molecular dynamics method. Water molecules were modeled by SPC/E and one layer of harmonic molecules represented the platinum surface with ... -
Multipass plate heat exchangers-effectiveness-NTU results and guidelines for selecting pass arrangements
Kandlikar, Satish; Shah, R. (American Society of Mechanical Engineers (ASME), 1989-05)Plate heat exchangers are classified on the basis of number of passes on each side and the flow arrangement in each channel, taking into account the end plate effects. This results in four configurations each for the 1-1 ... -
Nucleation characteristics and stability considerations
Kandlikar, Satish (Elsevier Science B.V., 2006)Flow boiling in microchannels and minichannels has received considerable attention in the past decade. The interest stems from the possibility of achieving the extremely high heat fluxes, over 1 kW/cm2, needed for future ... -
Numerical simulation of flow through microchannels in bipolar plate
Rawool, A.; Mitra, S.; Agrawal, A.; Kandlikar, Satish (American society of mechanical engineers (ASME), 2005-06)In this paper, the flow through a serpentine microchannel with obstructions on wall is studied. Various obstruction geometries ranging from rectangular to triangular are considered. For each geometry pressure drop across ... -
Numerical simulation of growth of a vapor bubble during flow boiling of water in a microchannel
Mukherjee, A.; Kandlikar, Satish (Spring-Verlag, 2005-05)The present study is performed to numerically analyze the growth of a vapor bubble during flow of water through a microchannel. The complete Navier- Stokes equations, along with continuity and energy equations, are ... -
Numerical simulation of growth of a vapor bubble during flow boiling of water in a microchannel
Mukherjee, Abhijit; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2004-06)The present study is performed to numerically analyze growth of a vapor bubble during flow of water in a microchannel. The complete Navier-Stokes equations along with continuity and energy equations are solved using the ... -
Numerical study of an evaporating meniscus on a moving heated surface
Kandlikar, Satish; Mukherjee, A. (Journal of Heat Transfer, 2006-12)The present study is performed to numerically analyze an evaporating meniscus bounded between the advancing and receding interfaces on a moving heated surface. The numerical scheme developed for analyzing interface motion ... -
Numerical study of an evaporating meniscus on a moving heated surface
Mukherjee, Abhijit; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2004-07)The present study is performed to numerically analyze an evaporating meniscus on a moving heated surface. This phenomenon is similar to the one observed at the base of a vapor bubble during nucleate boiling. The complete ... -
Numerical study of the effect of inlet constriction on bubble growth during flow boiling in microchannels
Mukherjee, Abhijit; Kandlikar, Satish (American society of mechanical engineers (ASME), 2005-06)Flow boiling through microchannels is characterized by nucleation of vapor bubbles on the channel walls and their rapid growth as they fill the entire channel cross-section. In parallel microchannels connected through ... -
On the nature of critical heat flux in microchannels
Bergles, A.; Kandlikar, Satish (American Society of Mechanical Engineers, 2005-01)The critical heat flux (CHF) limit is an important consideration in the design of most flow boiling systems. Before the use of microchannels under saturated flow boiling conditions becomes widely accepted in cooling of ... -
Optimization of microchannel geometry for direct chip cooling using single phase heat transfer
Upadhye, Harshal; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2004-06)Direct cooling of an electronic chip of 25mm x 25mm in size is analyzed as a function of channel geometry for single-phase flow of water through small hydraulic diameters. Fully developed laminar flow is considered ... -
A Photographic insight into the motion of liquid-vapor interface during rapid evaporation of a liquid droplet on a heated surface
Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2001-11)Photographic observations of the boiling phenomena have played an important role in gaining insight into the boiling mechanism. This paper presents a brief historical review of the available literature on the photographic ... -
A photographic study of nucleation characteristics of cavities in flow boiling
Kandlikar, Satish; Cartwright, Michael; Mizo, Viktor (Taylor & Francis, 1995)In the present investigation, the effects of wall superheat and flow velocity on the nucleation characteristics of cavities of different radii have been experimentally determined for flow boiling of subcooled water near ... -
Review of fabrication of nanochannels for single phase liquid flow
Perry, L.; Kandlikar, Satish (Springer Verlag, 2006-05)Abstract The topic of single phase liquid flow in submicron or nanochannels is a nascent field. There have only been a couple papers that have dealt with this area directly. The most probable reason for this is that ... -
Review of fabrication of nanochannels for single phase liquid flow
Perry, Jeffrey; Kandlikar, Satish (American Society of Mechanical Engineers (ASME), 2005-06)The topic of single phase liquid flow in submicron or nanochannels is a nascent field. There have only been a couple papers that have dealt with this area directly. The most probable reason for this is that currently ... -
RIT Research Programs 2005 Annual Report
Raffaelle, Ryne; Phelps, Andrew; Nasr, Nabil; Winebrake, James; Kastner, Joel; Newman, Dina; Gaborski, Roger; Lawley, Elizabeth; Henderson, Tona; Kandlikar, Satish; Kurinec, Santosh; Robinson, Risa; Ramkumar, S. Manian; Schley, Sara (Rochester Institute of Technology, 2005-10) -
RIT Research Programs 2007 Annual Report
Boyd, Donald; Kandlikar, Satish; Borkholder, David; Fairchild, Mark; DiFonzo, Nicholas; Figer, Donald; Haselkorn, Michael; Klofas, John; Ludi, Stephanie; Reichlmayr, Tom; Reilly, James; Boatright, Ryan; Rhody, Harvey; Kerekes, John; Salvaggio, Carl; DeCaro, James; Rothenberg, Sandra (Rochester Institute of Technology, 2007-09)