Friction Losses and Heat Transfer in Laminar Microchannel Single-Phase Liquid Flow

́rio, Vaˆnia Silve; Moreira, A.L.N.

doi:10.1115/icnmm2008-62374

Cited by 3 publications

(2 citation statements)

References 21 publications

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“…They reported that on condition Mach number under 0.3 the effect of gas rarefaction can be separated from compressibility effect and the behavior of the coefficient α vs a function of the microchannel aspect ratio γ for the three cross -sections. Silverio and Moreira [29] measured the pressure drop and pressure distribution in circular and square microchannels made of borosilicate glass with hydraulic diameter from 50 to 500 µm in the Reynolds number range from 10 to 2500. Zing Li et al…”

Section: B Friction Factormentioning

confidence: 99%

A review of single-phase pressure drop characteristics microchannels with bends

Junianto

Hendrarsakti

2021

J. Mechatron. Electr. Power Veh. Technol.

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Microfluidic use in various innovative research, many fields aimed at developing an application device related to handling fluid flows in miniature scale systems. On the other hand, on the use of micro-devices for fluid flow the existence of bends cannot be avoided. This research aims to make a comprehensive study of fluid flow characteristics through a microchannel with several possible bends. This study was conducted by comparing Reynolds number versus pressure drop in a serpentine microchannel to gain bends loss coefficient. The result showed that the fluid flow with Re 100 did not affect the pressure drop, but on the Reynolds number above that, the pressure drop was increased along with the appears of vortices in the outer and inner walls around the channel bends which causes an increase in an additional pressure drop. The other finding shows that the reduction in diameter bend tube can increase the pressure drop.

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Section: B Friction Factormentioning

confidence: 99%

A review of single-phase pressure drop characteristics microchannels with bends

Junianto

Hendrarsakti

2021

J. Mechatron. Electr. Power Veh. Technol.

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“…Hence, with regards to such extremely small scales, in 2003 Kandlikar and Grande [ 3 ] asserted that a rarefaction effect of common gases at atmospheric pressure is generated. Experimental research conducted so far shows that the heat transfer coefficients are either larger [ 19 ] or smaller [ 20 ] than the predicted values. It was also determined that deviations from the predicted values are registered depending on the flow conditions.…”

Section: Introductionmentioning

confidence: 99%

Particularities of R134a Refrigerant Temperature Variations in a Transient Convective Regime during Vaporization in Rectangular Microchannels

2022

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An analysis of the R134a (tetrafluoroetane) coolant’s non-stationary behavior in rectangular microchannels was conducted with the help of a newly proposed miniature refrigerating machine of our own design and construction. The experimental device incorporated, on the same plate, a condenser, a lamination tube and a vaporizer, all of which integrated rectangular microchannels. The size of the rectangular microchannels was determined by laser profilometry. R-134a coolant vapors were pressurized using a small ASPEN rotary compressor. Using the variable soft spheres (VSS) model, the mean free path, Knudsen and Reynolds numbers, as well as the dimensionless velocity profile can be assessed analytically. In order to determine the average dimensionless temperature drop in the vaporizer’s rectangular microchannels, in non-stationary regime, an analytical solution for incompressible flow with slip at the walls, fully developed flow and laminar regime was used, by aid of an integral transform approach. In the experimental study, the transitional distribution of temperature was tracked while modifying the R134a flow through the rectangular microchannels. Coolant flow was then maintained at a constant, while the amount of heat absorbed by the vaporizer was varied using multiple electric resistors. A comparative analysis of the analytical and experimental values was conducted.

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