![]() ![]() Programme of the day is available in the lefthand panel and included keynote talks by: Commercialisation of Liquid Metal Batteries & The Economics of Storage. ![]() Stability Theory & Magnetohydrodynamics of Liquid Metal Batteries.Large-scale stationary storage is one of the key issues of future energy systems based on variable renewable energies and liquid metal batteries can address this need in an environmentally benign and economic way.Īcross a period of 1.5 days, this workshop will featured a series of talks that cover two main session themes: It gave an update on the progress achieved in recent years in terms of scientific research and industrial development and provided a discussion platform fostering knowledge exchange. This event brought together mathematicians and scientists working at the forefront of dynamo theory and its applications, with end users from industry to further investigate opportunities for liquid metal batteries. The event image is by Steffen Landgraf and shows Ni-foam freshly impregnated with liquid Li. This event was developed in collaboration with the SOLSTICE project on Sodium-Zinc molten salt batteries for low-cost stationary storage. This programme emphasised the interplay between theory, numerical simulation and observations by bringing together applied mathematicians, stellar, solar and planetary scientists engaged in theory or observations, and experts from neighbouring fields. This knowledge exchange event was part of a four month research programme at the Isaac Newton Institute on Frontiers in dynamo theory: from the Earth to the stars. Material science and chemistry is central to getting LMBs to work and there is significant scientific overlap in the fields of stability theory and the computation of liquid metal magnetohydrodynamics (MHD). In the scientific scene, LMBs share some common threads with the flow of metals and plasma in planets and stars. However, there are still many technical problems arising from the need to scale-up and cluster LMBs to meet commercial storage requirements. This company has just won a contract to build a large energy storage facility near Reno. The liquid metal battery (LMB) is a potential next generation storage scheme, first developed in the lab by Don Sadoway at MIT and now developed commercially by the US spin-off company Ambri. Pumped hydro has worked well for over a century, but requires suitable terrain, while Lithium-ion batteries require rare metals which are in limited supply. BackgroundĮnergy storage is crucial to the success of renewables and currently there is no satisfactory scheme. This hybrid Open for Business event aimed to bring together mathematicians and scientists working at the forefront of dynamo theory and its applications, with end users from industry to explore further opportunities for liquid metal batteries. ![]()
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