21 |
Experimental investigation of heat transfer and friction factor of TiO2-SiO2 nanofluids in water:ethylene glycol mixture Nabil MF, Azmi WH, Hamid KA, Mamat R International Journal of Heat and Mass Transfer, 124, 1361, 2018 |
22 |
Thermal conductivity of hybrid nanofluids: A critical review Sajid MU, Ali HM International Journal of Heat and Mass Transfer, 126, 211, 2018 |
23 |
Hybrid nanofluids for heat transfer applications - A state-of-the-art review Huminic G, Huminic A International Journal of Heat and Mass Transfer, 125, 82, 2018 |
24 |
Effects of graphene oxide silicon oxide hybrid nanomaterials on rheological behavior of water at various time durations and temperatures: Synthesis, preparation and stability Ranjbarzadeh R, Akhgar A, Musivand S, Afrand M Powder Technology, 335, 375, 2018 |
25 |
Influence of hybrid nanofluids on the performance Of parabolic trough collectors in solar thermal systems: Recent findings and numerical comparison Minea AA, El-Maghlany WM Renewable Energy, 120, 350, 2018 |
26 |
Free convection of hybrid Al2O3-Cu water nanofluid in a differentially heated porous cavity Mehryan SAM, Kashkooli FM, Ghalambaz M, Chamkha AJ Advanced Powder Technology, 28(9), 2295, 2017 |
27 |
Heat transfer performance assessment of hybrid nanofluids in a parallel channel under identical pumping power Yang C, Wu XW, Zheng YK, Qiu T Chemical Engineering Science, 168, 67, 2017 |
28 |
Heat transfer performance assessment of hybrid nanofluids in a parallel channel under identical pumping power Yang C, Wu XW, Zheng YK, Qiu T Chemical Engineering Science, 168, 67, 2017 |
29 |
Novel hybrid nanofluid with tunable specific heat and thermal conductivity: Characterization and performance assessment for energy related applications Chandran MN, Manikandan S, Suganthi KS, Rajan KS Energy, 140, 27, 2017 |
30 |
Hybrid nanofluids based on Al2O3, TiO2 and SiO2: Numerical evaluation of different approaches Minea AA International Journal of Heat and Mass Transfer, 104, 852, 2017 |