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TERRENUS ENERGY

Latent heat thermophotovoltaic battery for renewables storage

Inside view of a latent heat thermophotovoltaic battery developed in the Amadeus project and available at IES-UPM. Image: Technical University of Madrid

Developed by researchers in Spain, the battery uses renewable electricity to melt low-cost metals such as silicon or ferrosilicon alloys to produce and store latent heat, which is in turn used by a thermophovoltaic generator to produce power. According to its creators, the device may store electricity at a cost of €10 per kilowatt-hour for a 10MWh system.

From pv magazine

A group of scientists from the Technical University of Madrid has fabricated a latent heat thermophotovoltaic (LHTPV) battery that is able to store electricity in the form of latent heat at temperatures of over 1,000 degrees Celsius and then convert the stored heat to electricity on demand using a thermophotovoltaic system consisting of a thermal emitter and a photovoltaic diode cell.

“We have built a small, laboratory scale prototype of less than 1kWh of storage capacity,” the research’s corresponding author, Alejandro Datas, told pv magazine. “To reach commercial maturity, we need to build a system with several megawatt-hours of power capacity, which may require some time and a large amount of funds. However, we are already working on that and, hopefully, we can speed things up if we find the right partners to scale the technology.”

The proposed system uses renewable electricity to melt, at temperatures over 1,000 degrees Celsius, low-cost metals such as silicon or ferrosilicon alloys, which are able to store energy during their fusion process, thus producing the so-called “latent heat.” According to the research team, a liter of silicon material is able to store more than 1kWh of latent heat, which corresponds to the energy contained in a liter of hydrogen pressurized at 500 bar. “However, unlike hydrogen, silicon can be stored at atmospheric pressure, making the system potentially cheaper and safer,” it further explained.

The thermophovoltaic generator used for the device is described by the researchers as a miniature photovoltaic system that can generate up to 100 times more energy than a conventional PV installation. According to the researchers’ calculations, if a square meter of a conventional PV array produces 200W, a square meter of thermophotovoltaic system may generate up to 20kW. “The efficiency of thermophotovoltaic cells ranges between 30 and 40% depending on the temperature of the heat source,” they emphasized. “Furthermore, the use of thermophotovoltaic generators, instead of conventional heat engines, avoids the use of moving parts, fluids, and complex heat exchangers.”

The prototype is claimed to be able to store energy at a cost of €4 per kilowatt-hour, although its commercial costs may be higher as the system currently does not integrate a container and thermal insulation. “It would be possible to reach costs of around €10 per kilowatt-hour if the system is large enough, typically more than 10MWh, since the cost of thermal insulation would be a small fraction of the total cost of the system,” the Spanish group emphasized, noting that if costs will be further reduced, it may be enough to recover only 30-40% of the energy in the form of electricity, to make these devices more profitable than lithium-ion batteries. “Additionally, the remaining 60-70% of the heat that is not converted to electricity can be delivered directly to buildings, factories, or cities, reducing your natural gas consumption.”

The battery was presented in the paper “Latent heat thermophotovoltaic batteries,” which was recently published in Joule. “If the price of stationary lithium-ion batteries remains high, it will be necessary to combine them with other, cheaper technologies, such as thermophotovoltaic batteries, which allow larger amounts of electricity to be stored,” Datas concluded.

Author: Emiliano Bellini

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