11 |
Heat capacity and viscosity of ternary carbonate nanofluids Rizvi SMM, El Far B, Shin DH International Journal of Energy Research, 45(4), 6350, 2021 |
12 |
Thermal energy storage characteristics of binary molten salt nanofluids: Specific heat and latent heat Lee D, Jo B International Journal of Energy Research, 45(2), 3231, 2021 |
13 |
Experimental study for thermal conductivity of water-based zirconium oxide nanofluid: Developing optimal artificial neural network and proposing new correlation Colak AB International Journal of Energy Research, 45(2), 2912, 2021 |
14 |
Performance enhancement of concentrator photovoltaic systems using nanofluids Elminshawy A, Morad K, Elminshawy NAS, Elhenawy Y International Journal of Energy Research, 45(2), 2959, 2021 |
15 |
An experimental study on the comparative analysis of the effect of the number of data on the error rates of artificial neural networks Colak AB International Journal of Energy Research, 45(1), 478, 2021 |
16 |
Enhancement of start-up and thermal performance in pulsating heat pipe with GO/water nanofluid Zhou Y, Yang HH, Liu LW, Zhang M, Wang YF, Zhang YK, Zhou B Powder Technology, 384, 414, 2021 |
17 |
Peristaltic transport of biological graphene-blood nanofluid considering inclined magnetic field and thermal radiation in a porous media Khazayinejad M, Hafezi M, Dabir B Powder Technology, 384, 452, 2021 |
18 |
Thermophysical properties improvement of a common liquid by adding reduced graphene oxide: An experimental study Yu H, Duan BR, Feng LX, Kalbasi R Powder Technology, 384, 466, 2021 |
19 |
Improved heat transfer of the engine oil by changing it to hybrid nanofluid: Adding hybrid nano-powders Liu KN, Zhang Y, Dai F, Sun W Powder Technology, 383, 56, 2021 |
20 |
Numerical study of heat transfer enhancement of non-Newtonian nano fl uid in porous blocks in a channel partially Javaherdeh K, Karimi H, Khojasteh A Powder Technology, 383, 270, 2021 |