1 |
J. Rivera, 2011, "Aerodynamic collection efficiency of fog water collectors," Atmospheric Research, Vol.102, pp.335-342.
DOI
|
2 |
J.H. Kang, J-W. Lee, J.Y. Kim, J.W. Moon, H.S. Jang, S.Y. Jung, 2021, "Effect of Mesh Wettability Modification on Atmospheric and Industrial Fog Harvesting," Frontiers in Physics, Vol.9, pp.680641.
DOI
|
3 |
R. Ghosh, K.R. Tapan, G. Ranjan, 2015, "Cooling tower fog harvesting in power plants-A pilot study," Energy, Vol.89, pp.1018-1028.
DOI
|
4 |
H. Park, S.J. Lee, S.Y. Jung, 2019, "Effect of nanofluid formation methods on behaviors of boiling bubbles," International Journal of Heat and Mass Transfer, Vol.135, pp.1312-1318.
DOI
|
5 |
J. Katzel, H. Markotter, T. Arlt, M. Klages, J. Haussmann, M. Messerschmidt, N. Kardjilov, J. Scholta, J. Banhart, I. Manke, 2016, "Effect of Ageing of Gas Diffusion Layers on the Water Distribution in Flow Field Channels of Polymer Electrolyte Membrane Fuel Cells," Journal of Power Sources, Vol.301, pp.386-391.
DOI
|
6 |
L. Pietrasanta, M. Mameli, D. Mangini, A. Georgoulas, N. Miche, S. Filippeschi, M. Marengo, 2020, "Developing flow pattern maps for accelerated two-phase capillary flows," Experimental Thermal and Fluid Science, Vol.112, pp.109981.
DOI
|
7 |
H. Ahmad, S.Y. Jung, 2020, "Effect of active and passive cooling on the thermo-hydrodynamic behaviors of the closed-loop pulsating heat pipes," International Journal of Heat and Mass Transfer, Vol.156, pp.119814.
DOI
|
8 |
H. Park, S.J. Lee, S.Y. Jung, 2019, "X-ray imaging analysis on behaviors of boiling bubbles in nanofluids," International Journal of Heat and Mass Transfer, Vol.128, pp.443-449.
DOI
|
9 |
H. Park, J. Ham, H. Cho, S.Y. Jung, 2019, "Assessment of Measurement Accuracy of a Micro-PIV Technique for Quantitative Visualization of Al2O3 and MWCNT Nanofluid Flows," Energies, Vol.12, pp.2777.
DOI
|
10 |
H. Ahmad, S.K. Kim, J.H. Park, S.Y. Jung, 2022, "Development of two-phase flow regime map for thermally stimulated flows using deep learning and image segmentation technique," International Journal of Multiphase Flow, Vol.146, pp.103869.
DOI
|
11 |
I.C. Bang, S.H. Chang, 2005, "Boiling heat transfer performance and phenomena of Al2O3-water nano-fluids from a plain surface in a pool," International Journal of Heat and Mass Transfer, Vol. 48, pp.2407-2419.
DOI
|
12 |
Y. Lim, S. Lee, J. Lee, 2011, "Characteristics of ventilating flow generated by a rotating swirler in a vortex vent," Journal of Fluids and Structures, Vol.27, pp.427-437.
DOI
|
13 |
Y. Yan, X. Li, J. Tu, P. Feng, J. Zhang, 2019, "Characterisation and analysis of indoor tornado for contaminant removal and emergency ventilation," Building and Environment, Vol.164, pp.106345.
DOI
|
14 |
J.H.Kang, J.J Kim, H. Park, S.Y. Jung, "Characterization of tornado like flows for improving vortex ventilation performance", Journal of Building Engineering, in press, doi.org/10.1016/j.jobe.2021.103726.
DOI
|
15 |
M.M.F. Figueiredo, J.L. Goncalves, A.M.V. Nakashima, A.M.F. Fileti, R.D.M. Carvalho, 2016, "The use of an ultrasonic technique and neural networks for identification of the flow pattern and measurement of the gas volume fraction in multiphase flows," Experimental Thermal and Fluid Science, Vol.70. pp.29-50.
DOI
|
16 |
A. Bejan, G. Tsatsaronis, M.J. Moran, 1995, "Thermal design and optimization," John Wiley & Sons.
|
17 |
S.U. Choi, J.A. Eastman, 1995, "Enhancing thermal conductivity of fluids with nanoparticles," Argonne National Lab., IL (United States), No. ANL/MSD/CP-84938; CONF-951135-29.
|
18 |
I. Pioro, W. Rohsenow, S. Doerffer, 2004, "Nucleate pool-boiling heat transfer. I: review of parametric effects of boiling surface," International Journal of Heat and Mass Transfer, Vol. 47, pp.5033-5044.
DOI
|
19 |
Z. Xue, J. J. Charonko, P. P. Vlachos, 2014, "Particle image velocimetry correlation signal-to-noise ratio metrics and measurement uncertainty quantification," Measurement Science and Technology, Vol.25, pp. 115301.
DOI
|
20 |
S.Y. Jung, H. Park, 2021, "Experimental investigation of heat transfer of Al2 O3 nanofluid in a microchannel heat sink," International Journal of Heat and Mass Transfer, Vol.179, pp.121729.
DOI
|
21 |
H. Ahmad, S.K. Kim, S.Y. Jung, 2020, "Analysis of thermally driven flow behaviors for two-turn closed-loop pulsating heat pipe in ambient conditions: An experimental approach," International Journal of Heat and Mass Transfer, Vol.150, pp.119245.
DOI
|
22 |
F.P.H. Akachi, P. Stulc, 1996, "Pulsating heat pipes," Proceedings of the 5th International Heat Pipe Symposium, pp. 208-217.
|