Periodic Reporting for period 1 - THERMOBAT (A Ferrosilicon Latent Heat Thermophotovoltaic Battery)
Reporting period: 2022-06-01 to 2023-05-31
Latent heat thermophotovoltaic batteries allow for much lower cost than state-of-the-art electrochemical batteries and can provide both heat and electricity on demand, which make them attractive for grid-scale, long-duration energy storage, and distributed dispatchable cogeneration. This project will develop the first latent heat thermophotovoltaic battery and will demonstrate the technology in a relevant environment for combined heat and power dispatchable generation.
This objective is being addressed in WP2. The first key milestone has been achieved, meaning that small amounts (~ 0.1 liters) of FeSiB have been produced using cheap raw materials. Moreover, the Si, B and Fe resource mapping has been elaborated, which is key to understand the cost of the manufacturing of this new PCM.
Objective 2: 100 kWh Heat Storage Box with > 1 MWh/m3 withstanding > 100 thermal cycles
This objective is being addressed in WP2. The first milestone has been also achieved, meaning that small scaled crucibles have been developed. Preliminary experiments have confirmed the capability of 100 thermal cycling. Next step is to corroborate that this result is reproducible and can be extrapolated to larger scale sealed crucibles.
Objective 3: 1 kW TPV generator with an efficiency > 20 % and power density > 1 W/cm2 at 1200ºC
This objective is being addressed in WP3. The first milestone has been achived, and a germanium TPV cell has been fabricated and measure under high temperature real TPV conditions. Next step is the optimization of the TPv cell structure to obtain efficiencies over 20%. Moreover, the first steps towards the manufacturing of large TPV modules have been undertaken, including the testing of different interconnection schemes.
Objective 4: A 100 kWh LHTPV demonstrator with electric-RTE > 10 % and global-RTE > 70%
This objective is being addressed in WP4. During the first year of the project, the electric furnace has been developed. Also, a new cooling approach has been developed and investigated experimentally. This new approach addresses some relevant safety issues of the original design. The results obtained so far are very positive and promising. Moreover, the innovative character of this solution adds value to the technology, as it may generate new intellectual property rights not previously anticipated in the DoA.