Artículos con órdenes de acceso público - John PyeMás información
No disponibles en ningún lugar: 5
Numerical investigation of the natural convective heat loss of a solar central cavity receiver with air curtain
J Fang, N Tu, JF Torres, J Wei, JD Pye
Applied Thermal Engineering 152 (doi:10.1016/j.applthermaleng.2019.02.087), 2019
Órdenes: National Natural Science Foundation of China
Experimental correlation of natural convection losses from a scale-model solar cavity receiver with non-isothermal surface temperature distribution
E Abbasi-Shavazi, JF Torres, G Hughes, J Pye
Solar Energy 198 (doi:10.1016/j.solener.2020.01.023), 355-375, 2020
Órdenes: Australian Research Council
Micro-scale heat transfer modelling of the contact line region of a boiling-sodium bubble
S Iyer, A Kumar, J Coventry, J Pye, W Lipiński
International Journal of Heat and Mass Transfer 160 (10.1016/j …, 2020
Órdenes: Australian Research Council
Boiling sodium and melting salt: Evaluation and optimisation of a novel solar–thermal system concept
Z Kee, J Coventry, J Pye
Applied Thermal Engineering 218, 119165, 2023
Órdenes: Australian Research Council
FluxTracer: A 3D-Partitioning and Radiant Flux Computer Tool to Analyse the Optical Behaviour of Light Collection and Concentration Subsystems Using High Performance Computers
M Blanco, E Votyakov, C Christou, CN Papanicolas, C Corsi, J Pye
Energy Sustainability 51418, V001T11A003, 2018
Órdenes: European Commission
Disponibles en algún lugar: 27
A review of sodium receiver technologies for central receiver solar power plants
J Coventry, C Andraka, J Pye, M Blanco, J Fisher
Solar Energy 122, 749-762, 2015
Órdenes: US Department of Energy
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 (doi:10.1016/j.solener.2019.11.035), 461-474, 2020
Órdenes: US Department of Energy, European Commission, Agence Nationale de la Recherche
Investigation of heat loss from a solar cavity receiver
E Abbasi-Shavazi, GO Hughes, JD Pye
Proceedings of SolarPACES 2014, 2014
Órdenes: Australian Research Council
CSP Gen3: Liquid-Phase Pathway to SunShot
C Turchi, S Gage, J Martinek, S Jape, K Armijo, J Coventry, J Pye, ...
https://www.nrel.gov/docs/fy21osti/79323.pdf, 2021
Órdenes: US Department of Energy
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, ...
SolarPACES 2015, 2016
Órdenes: Australian Research Council
Review of application of AI techniques to Solar Tower Systems
K Milidonis, MJ Blanco, V Grigoriev, CF Panagiotou, AM Bonanos, ...
Solar Energy 224 (doi:10.1016/j.solener.2021.06.009), 500-515, 2021
Órdenes: European Commission
Roadmap to advance heliostat technologies for concentrating solar-thermal power
G Zhu, C Augustine, R Mitchell, M Muller, P Kurup, A Zolan, ...
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2022
Órdenes: US Department of Energy
Active air flow control to reduce cavity receiver heat loss
JJ Zhang, JD Pye, GO Hughes
Energy Sustainability 56840, V001T05A023, 2015
Órdenes: Australian Research Council
Reduction of convective losses in solar cavity receivers
G Hughes, J Pye, M Kaufer, E Abbasi-Shavazi, J Zhang, A McIntosh, ...
SolarPACES 2015: International Conference on Concentrating Solar Power and …, 2016
Órdenes: Australian Research Council
Optical and thermal performance of bladed receivers
J Pye, J Coventry, C Ho, J Yellowhair, I Nock, Y Wang, E Abbasi, ...
AIP Conference Proceedings 1850 (1), 2017
Órdenes: US Department of Energy
Use of an Air Curtain to Reduce Heat Loss from an Inclined Open-Ended Cavity
A McIntosh, G Hughes, J Pye
19th Australasian Fluid Mechanics Conference (AFMC), Melbourne, 2014
Órdenes: Australian Research Council
Molten salt vs. liquid sodium receiver selection using the analytic hierarchy process
CS Turchi, C Libby, J Pye, J Coventry
AIP Conference Proceedings 2445 (1), 2022
Órdenes: US Department of Energy
Gen 3 Particle Pilot Plant (G3P3) – High-Temperature Particle System for Concentrating Solar Power (Phases 1 and 2)
C Ho, J Sment, K Albrecht, B Mills, N Schroeder, H Laubscher, ...
Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2021
Órdenes: US Department of Energy
Techno-economic optimisation of a sodium–chloride salt heat exchanger for concentrating solar power applications
S Guccione, A Fontalvo, R Guedez, J Pye, L Savoldi, R Zanino
Solar Energy 239 (doi:10.1016/j.solener.2022.04.052), 252-267, 2022
Órdenes: European Commission
System-level comparison of sodium and salt systems in support of the Gen3 liquids pathway
A Fontalvo, S Guccione, Y Wang, S Wang, Z Kee, CA Asselineau, D Potter, ...
AIP Conference Proceedings 2445 (1), 2022
Órdenes: US Department of Energy
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