Cited by
Cited by
A review on phase change materials integrated in building walls
F Kuznik, D David, K Johannes, JJ Roux
Renewable and Sustainable Energy Reviews 15 (1), 379-391, 2011
Energy performance of water hybrid PV/T collectors applied to combisystems of Direct Solar Floor type
G Fraisse, C MÚnÚzo, K Johannes
Solar Energy 81 (11), 1426-1438, 2007
In-situ study of thermal comfort enhancement in a renovated building equipped with phase change material wallboard
F Kuznik, J Virgone, K Johannes
Renewable Energy 36 (5), 1458-1462, 2011
Development and validation of a new TRNSYS type for the simulation of external building walls containing PCM
F Kuznik, J Virgone, K Johannes
Energy and Buildings 42 (7), 1004-1009, 2010
Phase change materials integrated into building walls: An updated review
B Lamrani, K Johannes, F Kuznik
Renewable and Sustainable Energy Reviews 140, 110751, 2021
Optimizing energy and environmental performance of passive Trombe wall
M Bojić, K Johannes, F Kuznik
Energy and Buildings 70, 279-286, 2014
Design and characterisation of a high powered energy dense zeolite thermal energy storage system for buildings
K Johannes, F Kuznik, JL Hubert, F Durier, C Obrecht
Applied Energy 159, 80-86, 2015
Storage of thermal solar energy
B Stutz, N Le PierrŔs, F Kuznik, K Johannes, EP Del Barrio, ...
Comptes Rendus. Physique 18 (7-8), 401-414, 2017
Modeling phase change materials behavior in building applications: Comments on material characterization and model validation
Y Dutil, D Rousse, S Lassue, L Zalewski, A Joulin, J Virgone, F Kuznik, ...
Renewable Energy 61, 132-135, 2014
Simulation of the thermal and energy behaviour of a composite material containing encapsulated-PCM: Influence of the thermodynamical modelling
P Tittelein, S Gibout, E Franquet, K Johannes, L Zalewski, F Kuznik, ...
Applied Energy 140, 269-274, 2015
Management and monitoring of public buildings through ICT based systems: Control rules for energy saving with lighting and HVAC services
C Aghemo, J Virgone, GV Fracastoro, A Pellegrino, L Blaso, J Savoyat, ...
Frontiers of Architectural Research 2 (2), 147-161, 2013
A review on recent developments in physisorption thermal energy storage for building applications
F Kuznik, K Johannes, C Obrecht, D David
Renewable and Sustainable Energy Reviews 94, 576-586, 2018
Interpretation of calorimetry experiments to characterise phase change materials
JP Dumas, S Gibout, L Zalewski, K Johannes, E Franquet, S Lassue, ...
International Journal of Thermal Sciences 78, 48-55, 2014
Physicochemical properties of ettringite/meta-ettringite for thermal energy storage
B Chen, F Kuznik, M Horgnies, K Johannes, V Morin, E Gengembre
Solar Energy Materials and Solar Cells 193, 320-334, 2019
The use of a heavy internal wall with a ventilated air gap to store solar energy and improve summer comfort in timber frame houses
G Fraisse, K Johannes, V Trillat-Berdal, G Achard
Energy and Buildings 38 (4), 293-302, 2006
Thermodynamic study of MgSO4–H2O system dehydration at low pressure in view of heat storage
L Okhrimenko, L Favergeon, K Johannes, F Kuznik, M Pijolat
Thermochimica acta 656, 135-143, 2017
Design of a PCM to air heat exchanger using dimensionless analysis: Application to electricity peak shaving in buildings
F Kuznik, JPA Lopez, D Baillis, K Johannes
Energy and Buildings 106, 65-73, 2015
Melting with convection and radiation in a participating phase change material
JM Fuentes, K Johannes, F Kuznik, M Cosnier, J Virgone
Applied energy 109, 454-461, 2013
Comparison of solar water tank storage modelling solutions
K Johannes, G Fraisse, G Achard, G RusaouŰn
Solar Energy 79 (2), 216-218, 2005
Integrating phase change materials (PCMs) in thermal energy storage systems for buildings
F Kuznik, K Johannes, D David
Advances in thermal energy storage systems, 325-353, 2015
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