31 |
Constructal design of thermochemical energy storage Malley-Ernewein A, Lorente S International Journal of Heat and Mass Transfer, 130, 1299, 2019 |
32 |
Modelling sorption equilibria and kinetics in numerical simulations of dynamic sorption experiments in packed beds of salt/zeolite composites for thermochemical energy storage Lehmann C, Kolditz O, Nagel T International Journal of Heat and Mass Transfer, 128, 1102, 2019 |
33 |
The potential of metal hydrides paired with compressed hydrogen as thermal energy storage for concentrating solar power plants Sheppard DA, Buckley CE International Journal of Hydrogen Energy, 44(18), 9143, 2019 |
34 |
Modelling a kinetic deviation of the magnesium hydrogenation reaction at conditions close to equilibrium Adams M, Grant DM, Stuart A, Walker GS International Journal of Hydrogen Energy, 44(55), 29123, 2019 |
35 |
Energy storage based on SrCO3 and Sorbents-A probabilistic analysis towards realizing solar thermochemical power plants Meroueh L, Yenduru K, Dasgupta A, Jiang D, AuYeung N Renewable Energy, 133, 770, 2019 |
36 |
Model of the solar-driven reduction of cobalt oxide in a particle suspension reactor Kopping SJ, Hoeniges J, Greenhagen J, Matejczyk Z, Venstrom LJ Solar Energy, 177, 713, 2019 |
37 |
Thermochemical energy storage via isothermal carbonation-calcination cycles of MgO-stabilized SrO in the range of 1000-1100 degrees C Gigantino M, Kiwic D, Steinfeld A Solar Energy, 188, 720, 2019 |
38 |
Physicochemical properties of ettringite/meta-ettringite for thermal energy storage: Review Chen B, Kuznik F, Horgnies M, Johannes K, Morin V, Gengembre E Solar Energy Materials and Solar Cells, 193, 320, 2019 |
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Analysis of solid-state reaction in the performance of doped calcium manganites for thermal storage Lucio B, Romero M, Gonzalez-Aguilar J Solid State Ionics, 338, 47, 2019 |
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Calorimetric method for determining the thermochemical energy storage capacities of redox metal oxides King K, Randhir K, Klausner J Thermochimica Acta, 673, 105, 2019 |