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

Abstract: Studies on two-phase flow and flow boiling inside micro-scale channels published approximately until the middle of last decade were characterized by drastic discrepancies among authors. Frequently, differences of about one order of magnitude were observed for experimental results obtained at almost similar conditions. Parcels of these differences were related to the use of inaccurate experimental techniques and also for not taking into account all the relevant experimental parameters, such as surface roughness… Show more

“…However, in the case of a fluid such as carbon dioxide they did not prove a good consistency with experimental data. Several publications, which recently appeared, for example due to Ribatski [30], Tibirica and Ribatski [31], Sardeshpande and Ranade [32] or Alagesan [33] analyze the experimental data for validation of heat transfer coefficient predictions using the correlations available in literature. It was authors intention to show the performance of their approach in predicting flow boiling of carbon dioxide, a fluid which usually turns out to be a severe test for heat transfer and pressure drop predictions.…”

Prediction of flow boiling heat transfer coefficient for carbon dioxide in minichannels and conventional channels

“…However, in the case of a fluid such as carbon dioxide they did not prove a good consistency with experimental data. Several publications, which recently appeared, for example due to Ribatski [30], Tibirica and Ribatski [31], Sardeshpande and Ranade [32] or Alagesan [33] analyze the experimental data for validation of heat transfer coefficient predictions using the correlations available in literature. It was authors intention to show the performance of their approach in predicting flow boiling of carbon dioxide, a fluid which usually turns out to be a severe test for heat transfer and pressure drop predictions.…”

Prediction of flow boiling heat transfer coefficient for carbon dioxide in minichannels and conventional channels

“…This kind of application has been in use for decades and in recent years, the 'micro-channel' concept has been brought into the heat exchanger design and manufacturing. This new development has been proved to be effective in increasing heat transfer within a heat exchanger, thus leading to the reduced size, weight, as well as manufacturing cost of the heat exchanger [21,22]. The evaporator and condenser within a refrigeration (or heat pump) system are such kinds of heat exchangers [21,22].…”

“…To assess the performance of this innovation, authors completed the design, construction and testing of a PV/micro-channels-evaporator-mod ules-based heat pump heating system, on basis of the real-time operational condition. Unlike the traditional research routes that began from the computer modeling and theoretical analysis, this research went directly into the experiment stage, which is mainly owing to the following reasons: (1) no established equations were available in terms of the design and simulation of the microchannels-based evaporators [24,23,25]; (2) unclear flow patterns within the micro-channels-evaporator, which normally varies within the flow-path, from the dispersed flow, annular flow to intermittent flow [26,27]; and (3) the micro-channels-based researches always rely on experiment, and the resultant parametrical correlations largely vary with the experimental conditions [24,23,25]. In this circumstance, our experiment is expected to deliver some useful data for the follow-on computer modeling and theoretical study, and meanwhile, accumulate some experience in carrying out the real project design.…”

Experimental investigation of a solar driven direct-expansion heat pump system employing the novel PV/micro-channels-evaporator modules

“…The transition from stratified parallel flow to segmented flow has been the subject of several previous studies in a variety of channel dimensions (Ribatski 2013).…”

Fluid behavior of supercritical carbon dioxide with water in a double-Y-channel microfluidic chip