21 |
Experimental investigation on heat transfer characteristics of various nanofluids in an indoor electric heater Chen ZX, Zheng D, Wang J, Chen L, Sunden B Renewable Energy, 147, 1011, 2020 |
22 |
Thermo-hydrodynamic behavior of an innovative solar chimney Kebabsa H, Lounici MS, Lebbi M, Daimallah A Renewable Energy, 145, 2074, 2020 |
23 |
Numerical analysis and validation of a natural convection mix-mode solar dryer for drying red chilli under variable conditions Simo-Tagne M, Ndukwu MC, Zoulalian A, Bennamoun L, Kifani-Sahban F, Rogaume Y Renewable Energy, 151, 659, 2020 |
24 |
Thermal performance analysis of a porous solar cavity receiver Chen S, Li WH, Yan FW Renewable Energy, 156, 558, 2020 |
25 |
Experimental performance analysis of sensible heat storage in solar air collector with cherry pits/powder under the natural convection Abuska M, Sevik S, Kayapunar A Solar Energy, 200, 2, 2020 |
26 |
Experimental correlation of natural convection losses from a scale-model solar cavity receiver with non-isothermal surface temperature distribution Abbasi-Shavazi E, Torres JF, Hughes G, Pye J Solar Energy, 198, 355, 2020 |
27 |
Cooling System with Porous Finned Heat Sink for Heat-Generating Element Astanina MS, Rashidi MM, Sheremet MA, Lorenzini G Transport in Porous Media, 133(3), 459, 2020 |
28 |
Numerical investigation of natural convection of Al2O3-water nanofluid in a wavy cavity with conductive inner block using Buongiorno's two-phase model Hashim I, Alsabery AI, Sheremet MA, Chamkha AJ Advanced Powder Technology, 30(2), 399, 2019 |
29 |
Effects of linearly heated left wall on natural convection within a superposed cavity filled with composite nanofluid-porous layers Al-Srayyih BM, Gao SA, Hussain SH Advanced Powder Technology, 30(1), 55, 2019 |
30 |
Thermal performance analysis of a novel linear cavity receiver for parabolic trough solar collectors Li XL, Chang HW, Duan C, Zheng Y, Shu SM Applied Energy, 237, 431, 2019 |