Experimental investigation into convective heat transfer of nanofluids at the entrance region under laminar flow conditions D Wen, Y Ding International journal of heat and mass transfer 47 (24), 5181-5188, 2004 | 2335 | 2004 |
Heat transfer of aqueous suspensions of carbon nanotubes (CNT nanofluids). Y Ding, H Alias, D Wen, RA Williams Int. J. Heat Mass Transfer 49, 240-250, 2006 | 1856 | 2006 |
A benchmark study on the thermal conductivity of nanofluids J Buongiorno, DC Venerus, N Prabhat, T McKrell, J Townsend, ... Journal of Applied Physics 106 (9), 2009 | 1418 | 2009 |
Review of nanofluids for heat transfer applications D Wen, G Lin, S Vafaei, K Zhang Particuology 7 (2), 141-150, 2009 | 1030 | 2009 |
Experimental investigation into the pool boiling heat transfer of aqueous based γ-alumina nanofluids D Wen, Y Ding Journal of Nanoparticle Research 7, 265-274, 2005 | 676 | 2005 |
Effective thermal conductivity of aqueous suspensions of carbon nanotubes (carbon nanotube nanofluids) D Wen, Y Ding Journal of thermophysics and heat transfer 18 (4), 481-485, 2004 | 623 | 2004 |
Formulation of nanofluids for natural convective heat transfer applications D Wen, Y Ding International Journal of Heat and Fluid Flow 26 (6), 855-864, 2005 | 609 | 2005 |
Nanofluids effects on the evaporation rate in a solar still equipped with a heat exchanger O Mahian, A Kianifar, SZ Heris, D Wen, AZ Sahin, S Wongwises Nano energy 36, 134-155, 2017 | 414 | 2017 |
Natural convective flow and heat transfer of nano-encapsulated phase change materials (NEPCMs) in a cavity M Ghalambaz, AJ Chamkha, D Wen International journal of heat and mass transfer 138, 738-749, 2019 | 354 | 2019 |
Natural convective heat transfer of suspensions of titanium dioxide nanoparticles (nanofluids) D Wen, Y Ding IEEE Transactions on nanotechnology 5 (3), 220-227, 2006 | 317 | 2006 |
Particle migration in a flow of a suspension of nanoparticles (nanofluids) YL Ding, DS Wen Powder Technol 149, 84-92, 2004 | 310* | 2004 |
Steam generation in a nanoparticle-based solar receiver H Jin, G Lin, L Bai, A Zeiny, D Wen Nano Energy 28, 397-406, 2016 | 301 | 2016 |
Investigating the collector efficiency of silver nanofluids based direct absorption solar collectors M Chen, Y He, J Zhu, D Wen Applied energy 181, 65-74, 2016 | 255 | 2016 |
Supercritical fluids technology for clean biofuel production D Wen, H Jiang, K Zhang Progress in Natural science 19 (3), 273-284, 2009 | 250 | 2009 |
Photothermal conversion characteristics of gold nanoparticle dispersions H Zhang, HJ Chen, X Du, D Wen Solar Energy 100, 141-147, 2014 | 243 | 2014 |
Experimental investigation of a silver nanoparticle-based direct absorption solar thermal system EP Bandarra Filho, OSH Mendoza, CLL Beicker, A Menezes, D Wen Energy conversion and Management 84, 261-267, 2014 | 240 | 2014 |
Heat transfer of gas flow through a packed bed D Wen, Y Ding Chemical Engineering Science 61 (11), 3532-3542, 2006 | 236 | 2006 |
An experimental investigation of a hybrid photovoltaic/thermoelectric system with nanofluid application S Soltani, A Kasaeian, H Sarrafha, D Wen Solar Energy 155, 1033-1043, 2017 | 232 | 2017 |
Effect of particle migration on heat transfer in suspensions of nanoparticles flowing through minichannels D Wen, Y Ding Microfluidics and Nanofluidics 1, 183-189, 2005 | 208 | 2005 |
Rheological properties of partially hydrolyzed polyacrylamide seeded by nanoparticles Z Hu, M Haruna, H Gao, E Nourafkan, D Wen Industrial & Engineering Chemistry Research 56 (12), 3456-3463, 2017 | 197 | 2017 |