Assessment of wall friction model in multi-dimensional component of MARS with air–water cross flow experiment

“…34,35,[38][39][40] Obviously, ion imprinting technology is conducive to an improved analytical performance. 36,37,41 On the whole, the performance of the developed ion imprinting technology-assisted rotational microfluidic hybrid chip is comparable with that of previously reported sensors with user friendliness. Furthermore, the microfluidic hybrid chip offers more possibilities of integration with superior sensing materials.…”

An ion imprinting technology-assisted rotational microfluidic hybrid chip for the fluorescence detection of hexavalent chromium ions

“…34,35,[38][39][40] Obviously, ion imprinting technology is conducive to an improved analytical performance. 36,37,41 On the whole, the performance of the developed ion imprinting technology-assisted rotational microfluidic hybrid chip is comparable with that of previously reported sensors with user friendliness. Furthermore, the microfluidic hybrid chip offers more possibilities of integration with superior sensing materials.…”

An ion imprinting technology-assisted rotational microfluidic hybrid chip for the fluorescence detection of hexavalent chromium ions

Effect of wall friction model on predicting emergency core coolant behavior in upper downcomer with direct vessel safety injection using MARS-KS

Investigation on emergency core coolant bypass with local measurement of liquid film thickness using electrical conductance sensor fabricated on flexible printed circuit board