| 1 |
Comprehensive parametric analysis, design and performance assessment of a solar dish/Stirling system
Zayed ME, Zhao J, Elsheikh AH, Zhao ZN, Zhong SY, Kabeel AE
Process Safety and Environmental Protection, 146, 276, 2021 |
| 2 |
Cavity receivers in solar dish collectors: A geometric overview
Kasaeian A, Kouravand A, Rad MAV, Maniee S, Pourfayaz F
Renewable Energy, 169, 53, 2021 |
| 3 |
Performance and cost evaluation of solar dish power plant: sensitivity analysis of levelized cost of electricity (LCOE) and net present value (NPV)
Abdelhady S
Renewable Energy, 168, 332, 2021 |
| 4 |
Research and review study of solar dish concentrators with different nanofluids and different shapes of cavity receiver: Experimental tests
Loni R, Asli-Areh EA, Ghobadian B, Kasaeian AB, Gorjian S, Najafi G, Bellos E
Renewable Energy, 145, 783, 2020 |
| 5 |
Performance analysis of a novel solar concentrator using lunar flux mapping techniques
Roosendaal C, Swanepoel JK, Le Roux WG
Solar Energy, 206, 200, 2020 |
| 6 |
A novel optical-thermal modeling of a parabolic dish collector with a helically baffled cylindrical cavity receiver
Soltani S, Bonyadi M, Avargani VM
Energy, 168, 88, 2019 |
| 7 |
Development of a new integrated structure for simultaneous generation of power and liquid carbon dioxide using solar dish collectors
Piadehrouhi F, Ghorbani B, Miansari M, Mehrpooya M
Energy, 179, 938, 2019 |
| 8 |
Parametric analysis and yearly performance of a trigeneration system driven by solar-dish collectors
Bellos E, Pavlovic S, Stefanovic V, Tzivanidis C, Nakomcic-Smaradgakis BB
International Journal of Energy Research, 43(4), 1534, 2019 |
| 9 |
Hybrid solar parabolic dish power plant and high-temperature phase change material energy storage system
Mehrpooya M, Ghorbani B, Sadeghzadeh M
International Journal of Energy Research, 43(10), 5405, 2019 |
| 10 |
Solar pyrolysis of oil shale samples under different operating conditions
Alamayreh MI, Jaber JO
Oil Shale, 36(4), 514, 2019 |
