A Critical Overview on the Recent Literature Concerning Flow Boiling and Two-Phase Flows Inside Micro-Scale Channels

Over the years, empirical correlations have been developed for predicting saturated flow boiling [1–15] and condensation [16–30] heat transfer coefficients inside horizontal/vertical tubes or micro-channels. In the present work, we have examined 30 of these models, and modified many of them for use in compact plate-fin heat exchangers. However, the various correlations, which have been developed for pipes and ducts, have been modified in our work to make them applicable to extended fin surfaces. The various correlations have been used in a low-order, one-dimensional, finite-volume type numerical integration of the flow and heat transfer equations in heat exchangers. The NIST’s REFPROP database [31] is used to account for the large variations in the fluid thermo-physical properties during phase change. The numerical results are compared with Yara’s experimental data [32]. The validity of the various boiling and condensation models for a real plate-fin heat exchanger design is discussed. The results show that some of the modified boiling and condensation correlations can provide acceptable prediction of heat transfer coefficient for two-phase flows in compact plate-fin heat exchangers.

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Flow Boiling and Two-Phase Flows in Single Microchannels and Microchannel Heat Sinks: Fundamentals, Differences, and New Areas for Research

Encyclopedia of Two-Phase Heat Transfer and Flow IV ◽

10.1142/9789813234444_0003 ◽

2018 ◽

pp. 185-231

Author(s):

Cristiano Bigonha Tibiriçá ◽

Gherhardt Ribatski

Keyword(s):

Flow Boiling ◽

Heat Sinks ◽

Two Phase Flows ◽

Two Phase ◽

Microchannel Heat Sinks

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An analysis of experimental data and prediction methods for two-phase frictional pressure drop and flow boiling heat transfer in micro-scale channels

Experimental Thermal and Fluid Science ◽

10.1016/j.expthermflusci.2006.01.006 ◽

2006 ◽

Vol 31 (1) ◽

pp. 1-19 ◽

Cited By ~ 120

Author(s):

Gherhardt Ribatski ◽

Leszek Wojtan ◽

John R. Thome

Keyword(s):

Heat Transfer ◽

Experimental Data ◽

Pressure Drop ◽

Boiling Heat Transfer ◽

Flow Boiling ◽

Prediction Methods ◽

Two Phase ◽

Micro Scale ◽

Frictional Pressure Drop ◽

Flow Boiling Heat Transfer

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Study of Pressure Drops and Heat Transfer of Nonequilibrial Two-Phase Flows

Water ◽

10.3390/w13162275 ◽

2021 ◽

Vol 13 (16) ◽

pp. 2275

Author(s):

Aleksandr V. Belyaev ◽

Alexey V. Dedov ◽

Ilya I. Krapivin ◽

Aleksander N. Varava ◽

Peixue Jiang ◽

...

Keyword(s):

Heat Transfer ◽

Flow Regime ◽

Flow Boiling ◽

Experimental Studies ◽

High Mass ◽

Calculation Methods ◽

Two Phase Flows ◽

Two Phase ◽

Pressure Drops ◽

Wide Range

Currently, there are no universal methods for calculating the heat transfer and pressure drop for a wide range of two-phase flow parameters in mini-channels due to changes in the void fraction and flow regime. Many experimental studies have been carried out, and narrow-range calculation methods have been developed. With increasing pressure, it becomes possible to expand the range of parameters for applying reliable calculation methods as a result of changes in the flow regime. This paper provides an overview of methods for calculating the pressure drops and heat transfer of two-phase flows in small-diameter channels and presents a comparison of calculation methods. For conditions of high reduced pressures pr = p/pcr ≈ 0.4 ÷ 0.6, the results of own experimental studies of pressure drops and flow boiling heat transfer of freons in the region of low and high mass flow rates (G = 200–2000 kg/m2 s) are presented. A description of the experimental stand is given, and a comparison of own experimental data with those obtained using the most reliable calculated relations is carried out.

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Experimental Investigation of Flow Boiling Pressure Drop of R134a in a Micro-Scale Horizontal Smooth Tube

2010 14th International Heat Transfer Conference, Volume 6 ◽

10.1115/ihtc14-22962 ◽

2010 ◽

Author(s):

Cristiano Bigonha Tibiric¸a´ ◽

Gherhardt Ribatski

Keyword(s):

Pressure Drop ◽

High Speed ◽

Flow Boiling ◽

Smooth Tube ◽

Working Fluid ◽

Internal Diameter ◽

Two Phase ◽

Pressure Drops ◽

Micro Scale ◽

Frictional Pressure Drop

This paper presents new experimental flow boiling pressure drop results in a microscale tube. The experimental data were obtained under diabatic conditions in a horizontal smooth tube with internal diameter of 2.3 mm. Experiments were performed with R134a as working fluid, mass velocities ranging from 100 to 600 kg/m2s, heat flux ranging from 10 to 55 kW/m2, saturation temperatures of 31 °C, and exit vapor qualities from 0.20 to 0.99. Flow pattern characterization was also performed from images obtained by high-speed filming. Pressure drops up to 48 kPa/m were measured. These data were carefully analyzed and compared against 13 two-phase frictional pressure drop prediction methods, including both macro- and micro-scale methods. Comparisons against these methods based on the data segregated according to flow patterns were also performed. Overall, the method by Cioncolini et al. [1] provided quite accurate predictions of the present database.

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