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Experimental Thermal and Fluid Science 34 (2010) 915–927 review study by Lasheras [9] raises among other the intraluminal or time dependent. The em-ployed experimental techniques for velocity measurements are mainly 2D Particle Image Velocimetry [10–13] which allows for

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Experimental Thermal and Fluid Science (under review). 86. Gao, L. & Hong Real-time multiple-particle tracking in ultrasonic spray pyrolysis. Procedia (under   dt time change (s) dT temperature change ( C) h evaporating heat transfer coefficient (W m 2 C 1) m mass (kg) 158 D. Wang et al./Experimental Thermal and Fluid Science 57 (2014) 157–164. leak to the compensation chamber and is not conducive to the effective operation of the LHP.

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The editor of Experimental Thermal and Fluid Science has not yet provided information for this page. Space for SciRev ratings (provided by authors) ( based on 3 reviews) Total handling time accepted manuscripts, 3.9 mnths, compare →. The Impact Factor Quartile of Experimental Thermal and Fluid Science is Q1. Real-Time Impact Factor Prediction & 2017 2018 2019 IF Impact Factor Trend - Top 50 Journals in Chemical Engineering (miscellaneous); Nature Reviews  Scope, Experimental Thermal and Fluid Science provides a forum for research and book reviews are regular features of the journal, in addition to full-length articles. The chart shows the evolution of the average number of times documents  Experimental Thermal and Fluid Science provides a forum for research and book reviews are regular features of the journal, in addition to full-length articles. The tungsten oxidation rates in all air were more than five times greater than the  Read the latest articles of Experimental Thermal and Fluid Science at Time- resolved refractive index matched PIV measurements inside and downstream of a 90° bend A review of flash evaporation phenomena and resulting shock waves. Archival review papers, short communications, invited papers, letters to the Editor , discussions of previously published papers, and book reviews are regular  Experimental Thermal and Fluid Science provides a forum for research only; however prospective authors are welcome to send review paper proposals to the  

Experimental Thermal and Fluid Science

Experimental Thermal and Fluid Science Experimental Thermal and Fluid Science xxx (2009) xxx–xxx Contents lists available at ScienceDirect Weber number the shorter the time to reach maximum spread. The splash limit is typically determined by Weber number, but Sik-alo and Ganic [11] found an effect of surface roughness on this lim- Experimental Thermal and Fluid Science H. Tan et al./Experimental Thermal and Fluid Science 52 (2014) 308–317 309. Understanding the defrosting mechanism of ultrasonic high fre-quency vibration is the prerequisite to realize the optimal ultra- mechanisms, intermittent time and working time of ultrasonic Experimental Thermal and Fluid Science 306 P.-Y. Yu et al./Experimental Thermal and Fluid Science 54 (2014) 304–312 expansion valve was driven by a stepping motor and the stainless steel valve body sustained a maximum working pressure of

6 days ago Cascades and Featureless Turbulence," Physical Review Letters, vol. 124 turbulent boundary layers," Experimental Thermal and Fluid Science, vol. resolution issues related to time-averaged quantities using hot-wire 

S. Derakhshan, A. Nourbakhsh/Experimental Thermal and Fluid Science 32 (2008) 1620–1627 1621. There are no empirical equations for the contraction losses and k subsequently. However, Williams [5] assumed: k = 0.9. In turbine impeller outlet, a little no-recovered energy exists in Experimental Thermal and Fluid Science In this paper, we review recent exper-imental work by the authors on the topic of elastic instabilities in flows having a strong extensional In the CaBER experiments we measure the time evolu-tion of the diameter of a stretched fluid filament as it thins, from F.J. Galindo-Rosales et al./Experimental Thermal and Fluid Science 59 Experimental Thermal and Fluid Science 2 C.A. Hernández-Bocanegra et al./Experimental Thermal and Fluid Science xxx (2012) xxx–xxx Please cite this article in press as: C.A. Hernández-Bocanegra et al., Measurement of heat flux in dense air-mist cooling: Part I – A novel steady-state tech- Experimental Thermal and Fluid Science

The Impact Factor Quartile of Experimental Thermal and Fluid Science is Q1. Real-Time Impact Factor Prediction & 2017 2018 2019 IF Impact Factor Trend - Top 50 Journals in Chemical Engineering (miscellaneous); Nature Reviews  Scope, Experimental Thermal and Fluid Science provides a forum for research and book reviews are regular features of the journal, in addition to full-length articles. The chart shows the evolution of the average number of times documents  Experimental Thermal and Fluid Science provides a forum for research and book reviews are regular features of the journal, in addition to full-length articles. The tungsten oxidation rates in all air were more than five times greater than the  Read the latest articles of Experimental Thermal and Fluid Science at Time- resolved refractive index matched PIV measurements inside and downstream of a 90° bend A review of flash evaporation phenomena and resulting shock waves. Archival review papers, short communications, invited papers, letters to the Editor , discussions of previously published papers, and book reviews are regular 

Experimental Thermal and Fluid Science Experimental Thermal and Fluid Science 34 (2010) 323–329 Contents lists available at ScienceDirect Experimental Thermal and Fluid Science time. It simplifies the data analysis by generating separated files for each test, thus assuring a perfect synchronization of all the Experimental Thermal and Fluid Science S. Derakhshan, A. Nourbakhsh/Experimental Thermal and Fluid Science 32 (2008) 1620–1627 1621. There are no empirical equations for the contraction losses and k subsequently. However, Williams [5] assumed: k = 0.9. In turbine impeller outlet, a little no-recovered energy exists in Experimental Thermal and Fluid Science In this paper, we review recent exper-imental work by the authors on the topic of elastic instabilities in flows having a strong extensional In the CaBER experiments we measure the time evolu-tion of the diameter of a stretched fluid filament as it thins, from F.J. Galindo-Rosales et al./Experimental Thermal and Fluid Science 59

Experimental Thermal and Fluid Science

106 M.K. Wright, D.E. Rival/Experimental Thermal and Fluid Science 49 (2013) 105–113. tion between the shear layer and re-circulating flow near the step wall [5]. For the case of constrained (three-dimensional) channels, sidewall effects for the backward-facing step flow are more com- Experimental Thermal and Fluid Science - KAIST Thermal–hydraulic physical models for a Printed Circuit Heat Exchanger covering He, He–CO 2 mixture, and water fluids using experimental data and CFD In Hun Kima,b, Hee Cheon NOa,⇑ a Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology, 373-1 Guseong-dong, Yuseong-gu, Daejeon 305-701, Republic of Korea bNuclear Engineering Program, Department Experimental Thermal and Fluid Science trolled the heat flux and the coating time as the coating parame-ters. However, it seems to need the further studies of both 362 H.S. Ahn et al./Experimental Thermal and Fluid Science 60 (2015) 361–366. performed over the area indicated by the box in the TEM image.