A robust new battery has been unveiled from 247Solar, a spinoff of MIT. It operates almost like an electrochemical battery but has significant advantages at longer durations
The basic principle of the thermal battery is rather simple. Electric resistance coils heat inexpensive thermal storage medium (silica sand) using low-cost excess electricity, from intermittent solar and wind power sources. Energy is stored as ultra-high temperature heat (up to 1000℃/1850℉) at a fraction of the cost of batteries. Whenever needed, a specialised turbine reconverts the heat to electricity. The innovative turbine can do this without combustion, as atmospheric-pressure air is passed through the “Thermal Storage” and drives the “Turbine” to generate electricity.
By adding a combustor, the battery can also produce even more dispatchable backup power, ideally using an emission-free fuel such as green hydrogen in the combustion process. This is also how the battery can provide spinning reserves. The innovative approach is designed to replace traditional diesel gensets at remote mines, as it provides 24/7 highly reliable operation with higher renewables penetration, significant fuel savings, and dramatically lower lifetime operating costs.
Bruce Anderson, CEO of 247Solar’s, explained, “HeatStorE combines two inventions that are part of 247Solar’s Ultra-High Temperature Technology Platform, the 247Solar Heat2Power Turbine and the 247Solar Thermal Storage System. Combining these two proven technologies ensures that HeatStorE is also extremely reliable. We expect more than 20-year operations with little or no performance degradation.”
Considering that the new approach consists of a factory-made, shipping-size container filled with sand that is heated by resistance coils, its robustness is no surprise. Neither are its low O&M costs. The combination of robustness and life-cycle cost advantages will enable mining companies to implement new power plant concepts with fewer diesel engines – ultimately without any at all.
The new thermal battery can also be used in applications other than mining. In community microgrids, off-grid villages or island grids, HeatStorE is ideally suited to provide operational flexibility and resilience. The typical storage duration is in the range of 4-20 hours, which also allows for substantial grid-support and load shifting. Interestingly, the cost per kWh drops rapidly with duration. Behind the metre in industrial applications, the battery can also convert otherwise-wasted hot process exhaust to electricity.
