Charles-Alexis ASSELINEAU
Charles-Alexis ASSELINEAU
IMDEA Energy
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Cited by
Cited by
Verification of optical modelling of sunshape and surface slope error for concentrating solar power systems
Y Wang, D Potter, CA Asselineau, C Corsi, M Wagner, C Caliot, B Piaud, ...
Solar Energy 195, 461-474, 2020
Highly efficient and durable solar thermal energy harvesting via scalable hierarchical coatings inspired by stony corals
JF Torres, K Tsuda, Y Murakami, Y Guo, S Hosseini, CA Asselineau, ...
Energy & Environmental Science 15 (5), 1893-1906, 2022
Development of a higher-efficiency tubular cavity receiver for direct steam generation on a dish concentrator
J Pye, G Hughes, E Abbasi, CA Asselineau, G Burgess, J Coventry, ...
AIP conference proceedings 1734 (1), 2016
CSP Gen3: Liquid-phase pathway to SunShot
CS Turchi, S Gage, J Martinek, S Jape, K Armijo, J Coventry, J Pye, ...
National Renewable Energy Lab.(NREL), Golden, CO (United States); Sandia†…, 2021
Experimental testing of a high-flux cavity receiver
J Pye, J Coventry, F Venn, J Zapata, E Abbasi, CA Asselineau, G Burgess, ...
AIP Conference Proceedings 1850 (1), 2017
An exergy analysis of tubular solar-thermal receivers with different working fluids
J Pye, M Zheng, CA Asselineau, J Coventry
Proceedings of SolarPACES 2014, 2014
Review of application of AI techniques to Solar Tower Systems
K Milidonis, MJ Blanco, V Grigoriev, CF Panagiotou, AM Bonanos, ...
Solar Energy 224, 500-515, 2021
Integration of Monte-Carlo ray tracing with a stochastic optimisation method: application to the design of solar receiver geometry
CA Asselineau, J Zapata, J Pye
Optics express 23 (11), A437-A443, 2015
A solar fuel plant via supercritical water gasification integrated with Fischer–Tropsch synthesis: System-level dynamic simulation and optimisation
A Shirazi, A Rahbari, CA Asselineau, J Pye
Energy conversion and management 192, 71-87, 2019
Optical performance of bladed receivers for CSP systems
Y Wang, CA Asselineau, J Coventry, J Pye
Energy Sustainability 50220, V001T04A026, 2016
Analysis of tubular receivers for concentrating solar tower systems with a range of working fluids, in exergy-optimised flow-path configurations
M Zheng, J Zapata, CA Asselineau, J Coventry, J Pye
Solar Energy 211, 999-1016, 2020
Geometrical shape optimization of a cavity receiver using coupled radiative and hydrodynamic modeling
CA Asselineau, J Zapata, J Pye
Energy Procedia 69, 279-288, 2015
Performance enhancement of cavity receivers with spillage skirts and secondary reflectors in concentrated solar dish and tower systems
S Wang, CA Asselineau, Y Wang, J Pye, J Coventry
Solar Energy 208, 708-727, 2020
Waypoint planning for autonomous aerial inspection of large-scale solar farms
E Salahat, CA Asselineau, J Coventry, R Mahony
IECON 2019-45th Annual Conference of the IEEE Industrial Electronics Society†…, 2019
Exploring efficiency limits for molten-salt and sodium external cylindrical receivers for third-generation concentrating solar power
CA Asselineau, J Pye, J Coventry
Solar Energy 240, 354-375, 2022
Accelerating the simulation of annual bifacial illumination of real photovoltaic systems with ray tracing
M Ernst, GEJ Conechado, CA Asselineau
Iscience 25 (1), 2022
Co-optimisation of the heliostat field and receiver for concentrated solar power plants
S Wang, CA Asselineau, A Fontalvo, Y Wang, W Logie, J Pye, J Coventry
Applied Energy 348, 121513, 2023
Geometrical optimisation of receivers for concentrating solar thermal systems
CA Asselineau
The Australian National University, 2018
Development of ASTRI high-temperature solar receivers
J Coventry, M Arjomandi, CA Asselineau, A Chinnici, C Corsi, D Davis, ...
AIP Conference Proceedings 1850 (1), 2017
MDBA: An accurate and efficient method for aiming heliostats
S Wang, CA Asselineau, WR Logie, J Pye, J Coventry
Solar Energy 225, 694-707, 2021
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