| 1 |
Analysis of tubular receivers for concentrating solar tower systems with a range of working fluids, in exergy-optimised flow-path configurations
Zheng MG, Zapata J, Asselineau CA, Coventry J, Pye J
Solar Energy, 211, 999, 2020 |
| 2 |
Performance enhancement of cavity receivers with spillage skirts and secondary reflectors in concentrated solar dish and tower systems
Wang S, Asselineau CA, Wang Y, Pye J, Coventry J
Solar Energy, 208, 708, 2020 |
| 3 |
The influence of atmospheric boundary layer turbulence on the design wind loads and cost of heliostats
Emes MJ, Jafari A, Coventry J, Arjomandi M
Solar Energy, 207, 796, 2020 |
| 4 |
Exergy analysis of the focal-plane flux distribution of solar-thermal concentrators
Asselineau CA, Coventry J, Pye J
Applied Energy, 222, 1023, 2018 |
| 5 |
Assessment of a novel ternary eutectic chloride salt for next generation high-temperature sensible heat storage
Mohan G, Venkataraman M, Gomez-Vidal J, Coventry J
Energy Conversion and Management, 167, 156, 2018 |
| 6 |
Thermoelastic stress in concentrating solar receiver tubes: A retrospect on stress analysis methodology, and comparison of salt and sodium
Logie WR, Pye JD, Coventry J
Solar Energy, 160, 368, 2018 |
| 7 |
Thermo-economic analysis of high-temperature sensible thermal storage with different ternary eutectic alkali and alkaline earth metal chlorides
Mohan G, Venkataraman M, Gomez-Vidal J, Coventry J
Solar Energy, 176, 350, 2018 |
| 8 |
Progress in heliostat development
Pfahl A, Coventry J, Roger M, Wolfertstetter F, Vasquez-Arango JF, Gross F, Arjomandi M, Schwarzbozl P, Geiger M, Liedke P
Solar Energy, 152, 3, 2017 |
| 9 |
Dish systems for CSP
Coventry J, Andraka C
Solar Energy, 152, 140, 2017 |
| 10 |
A review of sodium receiver technologies for central receiver solar power plants
Coventry J, Andraka C, Pye J, Blanco M, Fisher J
Solar Energy, 122, 749, 2015 |
