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Stationary energy-storage batteries

FIGURE 40.15 NGK stationary-energy-storage batteries (a) the 50 kW modular battery component (1760 mm wide x 640 mm high x 2200 mm deep) and (h) an integrated 500 kW/4 MWh demonstration battery system that uses lOof these modular batteries (Courtesy of Tokyo Electric Power Company and NGK Insulators, Ltd.)... [Pg.1305]

Stationary batteries 250 Wh-5 MWh Emergency power supplies, local energy storage, remote relay stations... [Pg.6]

High Performance Batteries for EV Propulsion and Stationary Energy Storage. Symposium and Workshop on Advanced Research and Design Lithium/Metal Sulphide Battery Development Programme... [Pg.330]

Battery technology is one of the most rapidly developing fields in energy storage, driven by the anticipated application in electromobility, so that in the future additional competitive technologies could become available for stationary applications as well. [Pg.44]

Since 1803, when Ritter invented the voltaic pile, rechargeable batteries have been known to exist [5]. The big breakthrough came in 1859, when Plante introduced the lead-acid battery [6]. Until today, this kind of secondary battery has been the most well-known electrochemical device. It is omnipresent in every car as a starter battery and also plays an important role in stationary energy storage (e.g. for uninterruptable power supplies). [Pg.228]

Lithium-ion batteries compete against a number of emerging and established power generation and energy storage devices. In general, the metrics required of the devices are driven by whether the application is portable, transportable, or stationary. [Pg.194]

Magnesium-antimony liquid metal battery for stationary energy storage. J Am Chem Soc 134 1895-1897... [Pg.988]


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