| 941 |
Thermal energy storage in building integrated thermal systems: A review. Part 2. Integration as passive system
Navarro L, de Gracia A, Niall D, Castell A, Browne M, McCormack SJ, Griffiths P, Cabeza LF
Renewable Energy, 85, 1334, 2016 |
| 942 |
Experimental investigation on a MnCl2-CaCl2-NH3 thermal energy storage system
Jiang L, Zhu FQ, Wang LW, Liu CZ, Wang RZ
Renewable Energy, 91, 130, 2016 |
| 943 |
Polyurethane/graphite nano-platelet composites for thermal energy storage
Pielichowska K, Bieda J, Szatkowski P
Renewable Energy, 91, 456, 2016 |
| 944 |
Molten salt facilities, lessons learnt at pilot plant scale to guarantee commercial plants; heat losses evaluation and correction
Prieto C, Osuna R, Fernandez AI, Cabeza LF
Renewable Energy, 94, 175, 2016 |
| 945 |
Development of graphite foam infiltrated with MgCl2 for a latent heat based thermal energy storage (LHTES) system
Singh D, Kim T, Zhao WH, Yu WH, France DM
Renewable Energy, 94, 660, 2016 |
| 946 |
Characterization of calcium chloride tetrahydrate as a phase change material and thermodynamic analysis of the results
Ushak S, Suarez M, Veliz S, Fernandez AG, Flores E, Galleguillos HR
Renewable Energy, 95, 213, 2016 |
| 947 |
Performance comparison of a group of thermal conductivity enhancement methodology in phase change material for thermal storage application
Abujas CR, Jove A, Prieto C, Gallas M, Cabeza LF
Renewable Energy, 97, 434, 2016 |
| 948 |
MSWI bottom ash for thermal energy storage: An innovative and sustainable approach for its reutilization
del Valle-Zermeno R, Barreneche C, Cabeza LF, Formosa J, Fernandez AI, Chimenos JM
Renewable Energy, 99, 431, 2016 |
| 949 |
Thermal storage in a MW scale. Molten salt solar thermal pilot facility: Plant description and commissioning experiences
Prieto C, Osuna R, Fernandez AI, Cabeza LF
Renewable Energy, 99, 852, 2016 |
| 950 |
Thermodynamic analysis of reversible hydrogenation for heat storage in concentrated solar power plants
Krieger C, Muller K, Arlt W
Solar Energy, 123, 40, 2016 |
