81 |
Three dimensional simulation of hydrodynamic and heat transfer behavior of magnetite nanofluid flow in circular and rectangular channel heat sinks filled with porous media Bezaatpour M, Goharkhah M Powder Technology, 344, 68, 2019 |
82 |
Investigation of the nanofluid convective flow and entropy generation within a microchannel heat sink involving magnetic field Hosseini SR, Sheikholeslami M Powder Technology, 351, 195, 2019 |
83 |
Performance analysis of hybrid nanofluid in a heat sink equipped with sharp and streamlined micro pin-fins Ambreen T, Saleem A, Ali HM, Shehzad SA, Park CW Powder Technology, 355, 552, 2019 |
84 |
Application of the actuator disc theory of Delft3D-FLOW to model far-field hydrodynamic impacts of tidal turbines Ramos V, Carballo R, Ringwood JV Renewable Energy, 139, 1320, 2019 |
85 |
Performance enhancement of photovoltaic cells by changing configuration and using PCM (RT35HC) with nanoparticles Al2O3 Abdelrahman HE, Wahba MH, Refaey HA, Moawad M, Berbish NS Solar Energy, 177, 665, 2019 |
86 |
Feasibility of flat-plate heat-sinks using microscale solar cells up to 10,000 suns concentrations Valera A, Fernandez EF, Rodrigo PM, Almonacid F Solar Energy, 181, 361, 2019 |
87 |
Effect of angle of attack and wind direction on limiting input heat flux for solar assisted thermoelectric power generator with plate fin heat sink Nayak RK, Ray S, Sahoo SS, Satapathy PK Solar Energy, 186, 175, 2019 |
88 |
Experimental study conducted for the identification of best heat absorption and dissipation methodology in solar photovoltaic panel Rajvikram M, Sivasankar G Solar Energy, 193, 283, 2019 |
89 |
Optimization of water-energy nexus: A network representation-based graphical approach Tsolas SD, Karim MN, Hasan MMF Applied Energy, 224, 230, 2018 |
90 |
Numerical investigation for optimizing segmented micro-channel heat sink by Taguchi-Grey method Naqiuddin NH, Saw LH, Yew MC, Yusof F, Poon HM, Cai ZS, Thiam HS Applied Energy, 222, 437, 2018 |