21 |
Flow and heat transfer analysis of TiO2/water nanofluid in a ribbed flat-plate solar collector Bazdidi-Tehrani F, Khabazipur A, Vasefi SI Renewable Energy, 122, 406, 2018 |
22 |
Experimental and numerical investigations on the effect of Al2O3/TiO2 H2O nanofluids on thermal efficiency of the flat plate solar collector Farajzadeh E, Movahed S, Hosseini R Renewable Energy, 118, 122, 2018 |
23 |
Research on operation strategy and performance prediction of flat plate solar collector with dual-function for drying agricultural products Hao WG, Lu YF, Lai YH, Yu HW, Lyu MX Renewable Energy, 127, 685, 2018 |
24 |
Effect of titanium dioxide/water nanofluid use on thermal performance of the flat plate solar collector Kilic F, Menlik T, Sozen A Solar Energy, 164, 101, 2018 |
25 |
Simulator testing of evacuated flat plate solar collectors for industrial heat and building integration Moss RW, Henshall P, Arya F, Shire GSF, Eames PC, Hyde T Solar Energy, 164, 109, 2018 |
26 |
Vacuum enclosures for solar thermal panels Part 1: Fabrication and hot-box testing Arya F, Moss R, Hyde T, Shire S, Henshall P, Eames P Solar Energy, 174, 1212, 2018 |
27 |
Vacuum enclosures for solar thermal panels Part 2: Transient testing with an uncooled absorber plate Arya F, Moss R, Hyde T, Shire S, Henshall P, Eames P Solar Energy, 174, 1224, 2018 |
28 |
Experimental evaluation of flat plate solar collector using nanofluids Verma SK, Tiwari AK, Chauhan DS Energy Conversion and Management, 134, 103, 2017 |
29 |
Performance evaluation of a flat-plate solar collector filled with porous metal foam: Experimental and numerical analysis Saedodin S, Zamzamian SAH, Nimvari ME, Wongwises S, Jouybari HJ Energy Conversion and Management, 153, 278, 2017 |
30 |
Experimental study of the effect of soil type on global warming using laboratory thermal collector Ihaddadene N, Ihaddadene R, Betka A, Beghidja AH International Journal of Hydrogen Energy, 42(30), 19576, 2017 |