29 results on '"Kandlikar, SatishG."'
Search Results
2. An Experimental Investigation on Friction Characteristics and Heat Transfer of Air and CO 2 Flow in Microtubes With Structured Surface Roughness.
- Author
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Lin, Ting-Yu, Chen, Chia-Wei, Yang, Chien-Yuh, and Kandlikar, SatishG.
- Subjects
FRICTION ,HEAT transfer ,SURFACE roughness measurement ,CARBON dioxide ,ELECTROPLATING ,REYNOLDS number - Abstract
Experiments were conducted to investigate roughness effects on flow characteristics and heat transfer of air and CO2flow in four circular micr-tubes of approximately 1 mm inner diameter. The tubes were made by electrodepositing nickel on an aluminum sacrificial substrate. The desired roughness structures were machined or etched on the substrate before depositing nickel to generate a replica of the aluminum substrate on the internal surface of the nickel tubes. Four different surface roughness features were generated: (i) uniform roughness of 3.8 m, (ii) uniform roughness of 1.8 m, (iii) internal grooves 45 m deep and 218 m wide, and (iv) helical grooves 96 m deep with 1.9 mm pitch. Friction factor and Nusselt number data for the smooth tube are in good agreement with the conventional correlations in both the laminar and the turbulent flow regimes. In the rough tubes, the friction factors are significantly higher than that of the smooth tube. Heat transfer coefficients in the laminar flow regime for both smooth and rough tube agree well with the conventional correlation. However, in the turbulent flow regime, heat transfer was enhanced by the roughness features and the enhancement increased with increasing Reynolds number. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
3. Effects of Structured Roughness on Fluid Flow at the Microscale Level.
- Author
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Wagner, RebeccaN. and Kandlikar, SatishG.
- Subjects
- *
SURFACE roughness , *FLUID dynamics , *POLYWATER , *HEAT transfer , *FRICTION , *LAMINAR flow - Abstract
It has been well established that there are no differences between microscale and macroscale flows of incompressible liquids. However, surface roughness has been known to impact the transport phenomena. This work aims to systematically quantify the effect of structured roughness geometries on friction factor in the laminar and turbulent flows as a precursor to the detailed heat transfer studies on these geometries. Experiments were conducted by varying the pitch (150–400 μm) and height (36–131 μm) of transverse rib roughness structures in rectangular channels such that the pitch-to-height ratio ranged from 2 to 8. The channel width was fixed at 12.70 mm and the length at 152.4 mm, while the channel gap was varied (230–937 μm). Tests were conducted over a Reynolds number range of 5–3400. The results are compared to the existing models, which do not account for specific roughness features such as pitch and height. A theoretical model is developed to predict the effect of roughness pitch and height on pressure drop along the channel length. Validation of the proposed theory is carried out by comparing the predictions with the experimental results. The model and the experimental results provide an understanding of the effect of two-dimensional structured roughness on the frictional losses in fully developed laminar flow. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
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4. Nanoscale Surface Modification Techniques for Pool Boiling Enhancement-A Critical Review and Future Directions.
- Author
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Lu, Yen-Wen and Kandlikar, SatishG.
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WATER boiling , *SURFACES (Technology) , *NANOSTRUCTURES , *SURFACE energy , *HEAT transfer , *HYDROPHOBIC surfaces - Abstract
New discoveries presented in the last decade for enhancing boiling performance utilizing nanoscale structures on surfaces are critically examined in this paper. Since the mechanism for such a phenomenon is not fully understood, this review mainly focuses on the experimental studies reported in the literature on the boiling phenomena on nanostructures, and implementation of nanostructures on various substrates. The paper also focuses on the interpretation of underlying phenomena for enhancing the boiling performance. The main influencing parameter in controlling is seen as the change in the surface energy of the boiling surface, which is characterized by the contact angle of the liquid and vapor phase interface at the heating surface. The nanostructures are seen to alter the contact angle. Design consideration and theoretical developments are also discussed, followed by practical aspects of nanostructure manufacturing. The issues related to performance, ease of fabrication, and durability (whenever available) are reviewed and recommendations are made for future research in this emerging area. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
5. Application of Lubrication Theory and Study of Roughness Pitch During Laminar, Transition, and Low Reynolds Number Turbulent Flow at Microscale.
- Author
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Brackbill, TimothyP. and Kandlikar, SatishG.
- Subjects
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MICROREACTORS , *TRIBOLOGY , *TURBULENCE , *LAMINAR flow , *FLUID dynamics - Abstract
This work aims to experimentally examine the effects of different roughness structures on internal flows in high-aspect-ratio rectangular microchannels. Additionally, a model based on lubrication theory is compared to these results. In total, four experiments were designed to test samples with different relative roughness and pitch placed on the opposite sides forming the long faces of a rectangular channel. The experiments were conducted to study (i) sawtooth roughness effects in laminar flow, (ii) uniform roughness effects in laminar flow, (iii) sawtooth roughness effects in turbulent flow, and (iv) varying-pitch sawtooth roughness effects in laminar flow. The Reynolds number was varied from 30 to 15,000 with degassed, deionized water as the working fluid. An estimate of the experimental uncertainty in the experimental data is 7.6% for friction factor and 2.7% for Reynolds number. Roughness structures varied from a lapped smooth surface with 0.2 μ m roughness height to sawtooth ridges of height 117 μ m. Hydraulic diameters tested varied from 198 μ m to 2,349 μ m. The highest relative roughness tested was 25%. The lubrication theory predictions were good for low relative roughness values. Earlier transition to turbulent flow was observed with roughness structures. Friction factors were predictable by the constricted flow model for lower pitch/height ratios. Increasing this ratio systematically shifted the results from the constricted-flow models to smooth-tube predictions. In the turbulent region, different relative roughness values converged on a single line at higher Reynolds numbers on an f-Re plot, but the converged value was dependent on the pitch of the roughness elements. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
6. Similarities and Differences Between Flow Boiling in Microchannels and Pool Boiling.
- Author
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Kandlikar, SatishG.
- Subjects
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HEAT transfer , *ENERGY transfer , *HEAT flux , *LAMINAR flow , *FLUID dynamics - Abstract
Recent literature indicates that under certain conditions the heat transfer coefficient during flow boiling in microchannels is quite similar to that under pool boiling conditions. This is rather unexpected, as microchannels are believed to provide significant heat transfer enhancement under single-phase as well as flow boiling conditions. This article explores the underlying heat transfer mechanisms and illustrates the similarities and differences between the two processes. Formation of elongated bubbles and their passage over the microchannel walls have similarities to the bubble ebullition cycle in pool boiling. During the passage of elongated bubbles, the longer duration between two successive liquid slugs leads to wall dryout and a critical heat flux that may be lower than that under pool boiling conditions. A clear understanding of these phenomena will help in overcoming these limiting factors and in developing strategies for enhancing heat transfer during flow boiling in microchannels. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
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7. Liquid Cooled Cold Plates for Industrial High-Power Electronic Devices—Thermal Design and Manufacturing Considerations.
- Author
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Kandlikar, SatishG. and Hayner II, CliffordN.
- Subjects
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COLD plates (Electronics) , *INTEGRATED circuits , *THERMAL properties , *PROPERTIES of matter , *TEMPERATURE , *ELECTRONIC equipment - Abstract
Electronics cooling research has been largely focused on high heat flux removal from computer chips in the recent years. However, the equally important field of high-power electronic devices has been experiencing a major paradigm shift from air cooling to liquid cooling over the last decade. For example, multiple 250-W insulated-gate bipolar transistors used in a power drive for a 7000-HP motor used in pumping or in locomotive traction devices would not be sufficiently cooled with air-cooling techniques. Another example is a “hockey puck” SCR of 63 mm diameter used to drive an electric motor that could dissipate over 1500 W and is difficult to cool with air because of the shape of the device. Other devices include radio-frequency generators, industrial battery chargers, printing press thermal and humidity control equipment, traction devices, mining devices, crude oil extraction equipment, magnetic resonance imaging, and railroad engines. This article classifies the cold plates into four types: formed tube cold plate, deep drilled cold plate, machined channel cold plate, and pocketed folded-fin cold plate. The article further discusses selection of cold plate type and channel configuration, and some of the relevant manufacturing issues. It is recommended that the thermal designer be involved in the early stages during the electrical design and layout of the devices. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
8. Comparison of Roughness Parameters for Various Microchannel Surfaces in Single-Phase Flow Applications.
- Author
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Young, PerryL., Brackbill, TimothyP., and Kandlikar, SatishG.
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HEAT transfer ,ENERGY transfer ,MICROREACTORS ,MICROFABRICATION ,SURFACE roughness ,SCIENTIFIC experimentation - Abstract
Recently, a set of new roughness parameters was proposed by Kandlikar et al. and Taylor et al. for reporting surface roughness as related to fluid flow. The average roughness Ra parameter is often used in microfluidic applications, but this parameter alone is insufficient for describing surface roughness; a specimen with deep grooves and sharp obstructions can share the same average roughness value as a relatively smooth surface with low uniform surface roughness. Because the average roughness parameter is broad, it is difficult to assess the surface topography features that result from different machining processes or etches. A profilometer and a digital microscope are used to examine the surface roughness profiles of various materials submitted to different machining techniques. The materials studied will be similar to those used for microchannels including aluminum, stainless steel, copper, and silicon. Depending on the material, these samples are submitted to several machining processes, including milling, grinding, fly cutting, and microfabrication techniques. These machining processes and microfabrication techniques are of practical interest in microfluidics applications. After studying the surface roughness patterns exhibited in these samples, the roughness parameters employed in some of the recent roughness models are evaluated. This study is expected to provide more understanding of assorted surface roughness. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
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9. Microscale and Macroscale Aspects of Water Management Challenges in PEM Fuel Cells.
- Author
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Kandlikar, SatishG.
- Subjects
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PROTON exchange membrane fuel cells , *FUEL cells , *CONDENSATION , *AUTOMOTIVE transportation , *PROPERTIES of matter - Abstract
Water management is critical to the successful implementation of proton exchange membrane (PEM) fuel cells in the automotive transportation sector. Liquid water appears in the fuel cells not only from the water generated at the cathode catalyst layer but also as a result of condensation of water vapor within the humidified gases. Topics of intense current interest include the microscopic flow of liquid water through the membrane, catalyst layers, and gas diffusion layers; the macroscopic interaction between water and the gas flow at the gas diffusion layer interface; and the two-phase, multicomponent flow through the gas channels. Recent work published in this area is reviewed and recommendations for future work are outlined. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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10. A Roadmap for Implementing Minichannels in Refrigeration and Air-Conditioning Systems - Current Status and Future Directions.
- Author
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Kandlikar, SatishG.
- Subjects
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HEAT exchangers , *REFRIGERATION & refrigerating machinery , *AIR conditioning , *HEAT transfer , *CHEMICAL engineering equipment , *ENVIRONMENTAL engineering of buildings - Abstract
The evolution of compact heat exchangers was driven by the need for reducing their size and weight and enhancing individual components and overall system performance. These needs are also becoming relevant in stationary refrigeration and air conditioning applications. The reduction in volume and footprint of the systems is foremost in the minds of urban architects, while refrigerant charge reduction and performance enhancement remain important safety and operating considerations. Minichannels provide a viable solution to address these concerns and are expected to be used widely in large as well as small commercial, industrial, and residential systems. This paper provides a roadmap for their implementation, with a critical review of the current status of our understanding in this field, recommendations for obtaining fundamental performance data and correlations, and an emphasis on innovative designs of minichannel heat exchangers. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
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11. Evaluation of Jet Impingement, Spray and Microchannel Chip Cooling Options for High Heat Flux Removal.
- Author
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Kandlikar, SatishG. and Bapat, AkhileshV.
- Subjects
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COOLING of electronic appliances , *COOLING , *HEAT flux , *HEAT transfer , *ELECTRONIC systems , *WEAPONS systems , *PHASE detectors , *HEAT sinks (Electronics) - Abstract
Thermal management for high heat flux removal from microelectronic chips is gaining critical importance in many earth-based and space-based systems. Heat fluxes greater than 1 MW/m2 (100 W/cm2) have already been realized in high-end server applications, while cooling needs in next generation chips and advanced systems such as high-power electronics and electrical systems, pulsed power weapons systems, solid-state sensors, and phased-array radars are expected to reach 5-10 MW/m2 (500-1000 W/cm2). After evaluating the contributions from different thermal resistances in the chip-to-ambient thermal path, this paper presents a critical review and research recommendations for three prominent contending technologies: jet impingement, spray cooling, and microchannel heat sinks. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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12. Experimental Study on the Effect of Stabilization on Flow Boiling Heat Transfer in Microchannels.
- Author
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Kuan, WaiKeat and Kandlikar, SatishG.
- Subjects
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HEAT transfer , *EBULLITION , *WATER , *FLUID dynamics , *WATER temperature , *ELECTRIC currents - Abstract
The effect of flow instabilities on flow boiling heat transfer in microchannels is investigated using water as the working fluid. The experimental test section has six parallel rectangular microchannels, each having a cross-sectional area of 1054 × 197 microns. Flow restrictors are introduced at the inlet of each microchannel to stabilize the flow boiling process and avoid the backflow phenomena. The mass flow rate, inlet temperature of water, and the electric current supplied to the resistive cartridge heater are controlled to provide quantitative heat transfer information. The results are compared with the unrestricted flow configuration. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
13. Effect of Sawtooth Roughness on Pressure Drop and Turbulent Transition in Microchannels.
- Author
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Brackbill, TimothyP. and Kandlikar, SatishG.
- Subjects
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SURFACE roughness , *SAWS , *PRESSURE , *TURBULENCE , *FRICTION , *REYNOLDS number - Abstract
Roughness elements affect internal flows in different ways. One effect is the transition from laminar to turbulent flow at a lower Reynolds number than the predicted Re = 2300. Initial work at RIT in the subject area was performed by Schmitt and Kandlikar [1] and Kandlikar et al. [2], and this study is an extension of these efforts. The channel used in this study is rectangular, with varying separation between walls that have machined roughness elements. The roughness elements are saw-tooth in structure, with element heights of 107 and 117 μ m for two pitches of 405 μ m and 815 μ m, respectively. The resulting hydraulic diameters and Reynolds numbers based on the constricted flow area range from 424 μ m to 2016 μ m and 210 to 2400, respectively. Pressure measurements are taken at sixteen locations along the flow length of 88.9 mm to determine the local pressure gradients. The results for friction factors and transition to turbulent flow are obtained and compared with the data reported by Schmitt and Kandlikar [1]. The roughness elements cause an early transition to turbulent flow, and the friction factors in the laminar region are predicted accurately using the hydraulic diameter based on the constricted flow area. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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14. Development of an Experimental Facility for Investigating Single-Phase Liquid Flow in Microchannels.
- Author
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Steinke, MarkE., Kandlikar, SatishG., Magerlein, J.H., Colgan, EvanG., and Raisanen, AlanD.
- Subjects
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HEAT transfer , *PRESSURE , *FLUID dynamics , *FLUID mechanics , *HEAT engineering - Abstract
An experimental facility has been developed to investigate single-phase liquid heat transfer and pressure drop in a variety of microchannel geometries. The facility is capable of accurately measuring the fluid temperatures, heater surface temperatures, heat transfer rates, and differential pressure in a test section. A microchannel test section with a silicon substrate is used to demonstrate the capability of the experimental facility. A copper resistor is fabricated on the backside of the silicon to provide heat input. Several other small copper resistors are used with a four-point measurement technique to acquire the heater temperature and calculate surface temperatures. A transparent pyrex cover is bonded to the chip to form the microchannel flow passages. The details of the experimental facility are presented here. The experimental facility is intended to support the collection of fundamental data in microchannel flows. It has the capability of optical visualization using a traditional microscope to see dyes and particles. It is also capable of performing micro-particle image velocimetry in the microchannels to detect the flow field occurring in the microchannel geometries. The experimental uncertainties have been carefully evaluated in selecting the equipment used in the experimental facility. The thermohydraulic performance of microchannels will be studied as a function of channel geometry, heat flux, and liquid flow rate. Some preliminary results for a test section with a channel width of 100 micrometers, a depth of 200 micrometers, and a fin thickness of 40 micrometers are presented. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
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15. An Experimental Investigation into the Effect of Surfactants on Air-Water Two-Phase Flow in Minichannels.
- Author
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English, NathanJ. and Kandlikar, SatishG.
- Subjects
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SURFACE active agents , *TWO-phase flow , *FLUID dynamics , *MULTIPHASE flow , *GAS flow - Abstract
The complex interfacial phenomena involved in two-phase gas-liquid flow have defied mathematical simplification and modeling. However, these systems are used in heat exchangers, condensers, chemical processing plants, nuclear reactor systems, and fuel cells. The present work considers a 1 mm-square minichannel and adiabatic flows corresponding to practical PEM fuel cell conditions. Pressure drop data is collected over mass fluxes of 4.0–12.0 kg/m 2 s for air and 0.5–21.6 kg/m 2 s for water, corresponding to superficial gas and liquid velocities of 3.19–10.06 m/s and 0.0005–0.022 m/s, respectively. The experiments are repeated with water-surfactant mixtures of different concentrations in order to quantify the surface tension effects, as it is recognized that surface tension is an important parameter for two-phase flow in minichannels. The accuracy of various two-phase pressure drop models is evaluated, and a new model for laminar-laminar two-phase flow pressure drop is developed. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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16. Effect of Liquid-Vapor Phase Distribution on the Heat Transfer Mechanisms during Flow Boiling in Minichannels and Microchannels.
- Author
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Kandlikar, SatishG.
- Subjects
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HEAT transfer , *NUCLEATE boiling , *VAPOR-liquid equilibrium , *BUBBLES , *EBULLITION , *THIN films - Abstract
Heat transfer during flow boiling in minichannels and microchannels is intimately linked to the liquid-vapor phase distribution in the channels. The vapor phase exists as nucleating bubbles, dispersed bubbles, elongated bubbles, an annular core, or all vapor flow completely filling the channel. Similarly, the liquid can exist as bulk liquid, slugs, thin film on the heated wall, or dispersed droplets. A detailed analysis of various structures, supported by high-speed video images, is carried out, and the effects on the associated heat transfer rates are discussed. This information provides insight into the flow boiling mechanisms and guidance for future research in this area. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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17. High Flux Heat Removal with Microchannels—A Roadmap of Challenges and Opportunities.
- Author
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Kandlikar, SatishG.
- Subjects
- *
HEAT transfer , *HEAT exchangers , *HEATING & ventilation industry , *INTEGRATED circuits , *ENERGY transfer , *THERMAL properties of ceiling - Abstract
Heat fluxes in IC chips and other electronics equipment have reached the current limits of air-cooling technology. Some of the applications require heat fluxes well beyond the limit of 100 W/cm 2 , thus demanding advanced cooling solutions. Liquid cooling technology has also received attention as the advances in single-phase liquid cooling in microchannels have shown considerable promise. The extension of compact heat exchanger technology to microscale applications offers many new possibilities. The liquid cooling technology is expected to reach heat dissipation rates as high as 10 MW/m 2 (1 kW/cm 2 ) with enhanced microchannels and a junction-to-air temperature difference of 50°C. The challenges facing flow boiling systems are also evaluated. This paper reviews the fundamental technological developments in liquid cooling as well as flow boiling and presents possible solutions in integrating the cooling system with a building's HVAC unit in a large server-type application. The opportunities and challenges are described in an attempt to provide the roadmap of cooling technology for cooling high flux devices in the next decade. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
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18. Experimental Study of Flow Patterns, Pressure Drop, and Flow Instabilities in Parallel Rectangular Minichannels.
- Author
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Balasubramanian, Prabhu and Kandlikar, SatishG.
- Subjects
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FLUID dynamics , *HEAT transfer , *EBULLITION , *COOLING , *PRESSURE , *FLUID mechanics - Abstract
Flow boiling heat transfer in parallel minichannels and microchannels is one of the solutions proposed for cooling high heat flux .systems. The associated increase in the pressure drop poses a problem that needs to be studied in detail before the small diameter channels can he implemented in practical systems. The pressure drop fluctuations and the flow instability in a network of parallel channels connected by a common header also need to be addressed for the stable operation of flow boiling systems. The current work focuses on studying the flow patterns, pressure drop fluctuations, and flow instabilities in a set of six parallel rectangular minichannels, each with 333 μm in hydraulic diameter. Deionized and degassed water was used for all the experiments. The pressure fluctuations are recorded and signal analysis is performed to find the dominant frequencies and their amplitudes. These pressure fluctuations are then mapped to their corresponding flow patterns observed using a high speed camera. The results help us to relate pressure fluctuations to different flow characteristics and their effect on flow instability. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
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19. Evaluation of Single Phase Flow in Microchannels for High Heat Flux Chip Cooling—Thermohydraulic Performance Enhancement and Fabrication Technology.
- Author
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KANDLIKAR, SATISHG. and GRANDE, WILLIAMJ.
- Subjects
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HEAT transfer , *ENERGY transfer , *COOLING , *INTEGRATED circuits , *HYDRONICS - Abstract
The increased circuit density on today's computer chips is reaching the heat dissipation limits for air-cooling technology. The direct liquid cooling of chips is being considered as a viable alternative. This paper reviews liquid cooling with internal flow channels in terms of technological options and challenges. The possibilities presented herein indicate a four- to ten-fold increase in heat flux over the air-cooled systems. The roadmap for single-phase cooling technology is presented to identify research opportunities in meeting the cooling demands of future IC chips. The use of three-dimensional microchannels that incorporate either microstructures in the channel or grooves in the channel surfaces may lead to significant enhancements in single-phase cooling. A simplified and well-established fabrication process is described to fabricate both classes of three-dimensional microchannels. Proof-of-concept microchannels are presented to demonstrate the efficacy of the fabrication process in fabricating complex microstructures within a microchannel. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
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20. An Extension of the Flow Boiling Correlation to Transition, Laminar, and Deep Laminar Flows in Minichannels and Microchannels.
- Author
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KANDLIKAR, SATISHG. and BALASUBRAMANIAN, PRABHU
- Subjects
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EBULLITION , *MICROREACTORS , *ELECTRONICS , *LAMINAR flow , *HEAT transfer , *FUEL cells - 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 regions in minichannels and microchannels. Excellent agreement is obtained between predicted values and experimental data. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
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21. Selected Papers From the Ninth International Conference on Nanochannels, Microchannels, and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
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INTERFACIAL friction , *DROPLETS , *WETTING - Abstract
The author discusses the papers presented at the ninth International Conference on Nanochannels, Microchannels, and Minichannels (ICNMM) which was held at the University of Alberta at Edmonton, Alberta on June 19-22, 2011. The author says that the papers highlights the presentations by pioneering researchers D. B. Tuckerman and R. F. W. Pease on invented microchannels. He adds that the papers also focuses on interfacial transport, mixing inside colliding droplets, and wettability.
- Published
- 2013
- Full Text
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22. Selected Papers from the Seventh International Conference on Nanochannels, Microchannels, and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
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CHANNELS (Hydraulic engineering) , *IMAGING systems , *EBULLITION - Abstract
An introduction to the journal is presented in which the editor discusses various reports within the issue including the use of microchannels in cooling technology, the single-phase flow in microchannels with fibrous or porous structures, and the outcome of ultrasound on subcooled and explosive boiling.
- Published
- 2011
- Full Text
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23. Selected Papers from the Third International Conference on Microchannels and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
- *
PREFACES & forewords , *HEAT transfer - Abstract
The article discusses various research articles published within the issue, including one by Steinke, Kandlikar, Magerlein, Colgan and Raisanen on the design and fabrication of a microfluidics bench and another by English and Kandlikar on the modeling of air-water adiabatic flow under conditions found in fuel cell applications.
- Published
- 2006
- Full Text
- View/download PDF
24. Selected Papers from the Second International Conference on Microchannels and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
- *
CONFERENCES & conventions , *MECHANICAL engineering , *NEUTRON radiography , *ENGINEERING - Abstract
The article focuses on the collection of papers presented at the Second International Conference on Microchannels and Minichannels, held in Rochester, New York, June 17-19, 2004. The conference was hosted under the joint sponsorship of the American Society of Mechanical Engineers and Rochester Institute of Technology. The first paper by highlights the research needs and application of advanced instrumentation, such as differential pressure measurements, current distribution and neutron radiography, in studying the water distribution in minichannel passages in PEM fuel cells.
- Published
- 2005
- Full Text
- View/download PDF
25. Selected Papers from the First International Conference on Microchannels and Minichannels.
- Author
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KANDLIKAR, SATISHG.
- Subjects
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CONFERENCES & conventions , *MICROREACTORS , *MECHANICAL engineers , *UNIVERSITIES & colleges - Abstract
Highlights the 2004 First International Conference on Microchannels and Minichannels organized by the American Society of Mechanical Engineers and the Rochester Institute of Technology in the U.S. Attendees of the event; Venue of the convention; Theme of the conference.
- Published
- 2004
- Full Text
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26. Selected Papers from the Sixth International Conference on Nanochannels, Microchannels, and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
- *
REFRIGERANTS , *FLUIDS - Abstract
The article discusses several papers published within the issue, including one on basic fluid flow in plain and rough channels, and another on refrigerant distribution.
- Published
- 2010
- Full Text
- View/download PDF
27. Selected Papers from the Fifth International Conference on Nanochannels, Microchannels, and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
- *
CONFERENCES & conventions , *FLUID dynamics , *HEAT transfer , *THERMODYNAMICS - Abstract
Information about several papers and topics discussed at the Fifth International Conference on Nanochannels, Microchannels and Minichannels in Puebla, Mexico on June 18-20, 2007 is presented. Topics include the establishment of new ideas among researchers working in various fields such as traditional heat, mass transfer, sensors, biomedical applications and micromixers. The papers discuss various issues in the field of heat transfer, fluid flow and flow boiling in microchannels and minichannels.
- Published
- 2009
- Full Text
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28. Leading Research Institutions Abroad - Where History Is Being Made.
- Author
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Kandlikar, SatishG.
- Subjects
- *
FIRST person narrative , *SCIENTISTS - Abstract
A personal narrative is presented which explores the author's experience interacting with leading researchers on heat transfer at the Kyushu University in Kyushu, Japan.
- Published
- 2007
- Full Text
- View/download PDF
29. Selected Papers from the Fourth International Conference on Nanochannels, Microchannels, and Minichannels.
- Author
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Kandlikar, SatishG.
- Subjects
- *
CONFERENCES & conventions , *MICROFLUIDICS , *BIOMEDICAL engineering , *HEAT transfer - Abstract
The Fourth International Conference on Nanochannels, Microchannels and Minichannels (ICNMM) was held at the University of Limerick in Ireland during June 19-21, 2006, under the sponsorship of American Society of Mechanical Engineers. A total of 189 papers were presented and over 250 participants attended the conference. The participants came from 25 countries and presented papers in 22 different areas, including microfluidics, biomedical, heat transfer, single- and two-phase flows, electronics cooling, boiling and condensation, mixing, heat exchangers, and a number of related areas. The participants cited the intense interactions among researchers from various discipline as a major benefit of attending this conference. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
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