1 |
Energy and exergy analysis for stationary solar collectors using nanofluids: A review Eltaweel M, Abdel-Rehim AA International Journal of Energy Research, 45(3), 3643, 2021 |
2 |
Design and evaluation of flat plate solar collector equipped with nanofluid, rotary tube, and magnetic field inducer in a cold region Bezaatpour M, Rostamzadeh H Renewable Energy, 170, 574, 2021 |
3 |
A parametric study on the performance characteristics of an evacuated fl at -plate photovoltaic/thermal (PV/T) collector Hu MK, Guo C, Zhao B, Ao XZ, Suhendri, Cao JY, Wang QL, Riffat S, Su YH, Pei G Renewable Energy, 167, 884, 2021 |
4 |
Performance improvement of a flat-plate solar collector by inserting intermittent porous blocks Anirudh K, Dhinakaran S Renewable Energy, 145, 428, 2020 |
5 |
Innovative overheating solution for solar thermal collector using a reflective surface included in the air gap Amiche A, El Hassar SMK, Larabi A, Khan ZA, Khan Z, Aguilar FJ, Quiles PV Renewable Energy, 151, 355, 2020 |
6 |
Influence of stable zinc oxide nanofluid on thermal characteristics of flat plate solar collector Choudhary S, Sachdeva A, Kumar P Renewable Energy, 152, 1160, 2020 |
7 |
A quick measurement method for determining the incidence angle modifier of flat plate solar collectors using spectroradiometer Tian ZY, Deng J, Zhang SC, Yao RM, Shao L Solar Energy, 201, 746, 2020 |
8 |
Novel low-cost parabolic trough solar collector with TPCT heat pipe and solar tracker: Performance and comparing with commercial flat-plate and evacuated tube solar collectors Fathabadi H Solar Energy, 195, 210, 2020 |
9 |
Thermal performance enhancement of a flat plate solar collector using hybrid nanofluid Hussein OA, Habib K, Muhsan AS, Saidur R, Alawi OA, Ibrahim TK Solar Energy, 204, 208, 2020 |
10 |
Comparison of different dynamic thermal performance prediction models for the flat-plate solar collector with a new V-corrugated absorber Fan M, Zheng WD, You S, Zhang HJ, Jiang Y, Wu ZJ Solar Energy, 204, 406, 2020 |