41 |
Effect of imidazole based polymer blend electrolytes for dye-sensitized solar cells in energy harvesting window glass applications Manikandan KM, Yelilarasi A, Saravanakumar SS, Senthamaraikannan P, Khan A, Asiri AM Chinese Journal of Chemical Engineering, 27(11), 2807, 2019 |
42 |
Entropy generation and exergy destruction in condensing steam flow through turbine blade with surface roughness Ding HB, Li YM, Lakzian E, Wen C, Wang C Energy Conversion and Management, 196, 1089, 2019 |
43 |
Contribution of particle shape and surface roughness on the flotation behavior of low-ash coking coal Yin WZ, Zhu ZL, Yang B, Fu YF, Yao J Energy Sources Part A-recovery Utilization and Environmental Effects, 41(5), 636, 2019 |
44 |
Quantitative study on coal and shale pore structure and surface roughness based on atomic force microscopy and image processing Zhao SH, Li Y, Wang YB, Ma ZT, Huang XQ Fuel, 244, 78, 2019 |
45 |
Residual oil saturation following gas injection in sandstones: Microfluidic quantification of the impact of pore-scale surface roughness Mehmani A, Kelly S, Torres-Verdin C, Balhoff M Fuel, 251, 147, 2019 |
46 |
Nanopore structure of deep-burial coals explored by AFM Liu XF, Song DZ, He XQ, Wang ZP, Zeng MR, Deng K Fuel, 246, 9, 2019 |
47 |
Experimental study of saturated pool boiling heat transfer with FeCrAl- and Cr-layered vertical tubes under atmospheric pressure Son HH, Cho YS, Kim SJ International Journal of Heat and Mass Transfer, 128, 418, 2019 |
48 |
Significantly enhanced convective heat transfer through surface modification in nanochannels Chakraborty P, Ma TF, Cao L, Wang Y International Journal of Heat and Mass Transfer, 136, 702, 2019 |
49 |
Effect of surface roughness on heat transfer in Rayleigh-Benard convection Tummers MJ, Steunebrink M International Journal of Heat and Mass Transfer, 139, 1056, 2019 |
50 |
Experimental study of surface roughness effect on oxygen catalytic recombination Kim I, Park G, Na JJ International Journal of Heat and Mass Transfer, 138, 916, 2019 |