| 1 |
Cross effect between temperature and consolidation on the flow behavior of granular materials in thermal energy storage systems
Duran-Olivencia FJ, Espin MJ, Valverde JM
Powder Technology, 363, 135, 2020 |
| 2 |
Insights into utilization of strontium carbonate for thermochemical energy storage
Ammendola P, Raganati F, Miccio F, Murri AN, Landi E
Renewable Energy, 157, 769, 2020 |
| 3 |
Energy and exergy analysis of the integration of concentrated solar power with calcium looping for power production and thermochemical energy storage
Karasavvas E, Panopoulos KD, Papadopoulou S, Voutetakis S
Renewable Energy, 154, 743, 2020 |
| 4 |
Dispatchability of solar photovoltaics from thermochemical energy storage
Fernandez R, Ortiz C, Chacartegui R, Valverde JM, Becerra JA
Energy Conversion and Management, 191, 237, 2019 |
| 5 |
The role of sensible heat in a concentrated solar power plant with thermochemical energy storage
Chen XY, Zhang D, Wang Y, Ling X, Jin XG
Energy Conversion and Management, 190, 42, 2019 |
| 6 |
Optimizing the CSP-Calcium Looping integration for Thermochemical Energy Storage
Alovisio A, Chacartegui R, Ortiz C, Valverde JM, Verda V
Energy Conversion and Management, 136, 85, 2017 |
| 7 |
Power cycles integration in concentrated solar power plants with energy storage based on calcium looping
Ortiz C, Chacartegui R, Valverde JM, Alovisio A, Becerra JA
Energy Conversion and Management, 149, 815, 2017 |
| 8 |
Thermochemical energy storage of concentrated solar power by integration of the calcium looping process and a CO2 power cycle
Chacartegui R, Alovisio A, Ortiz C, Valverde JM, Verda V, Becerra JA
Applied Energy, 173, 589, 2016 |
