Title :
Development of a 500-kW Modular Multilevel Cascade Converter for Battery Energy Storage Systems
Author :
Kawakami, Noriko ; Ota, Sadao ; Kon, Hiroyuki ; Konno, Shuji ; Akagi, Hirofumi ; Kobayashi, Hideo ; Okada, Norio
Author_Institution :
Toshiba Mitsubishi Electr. Ind. Syst. Corp., Fuchu, Japan
Abstract :
Renewable energy sources such as wind turbine and photovoltaic power generators may make the power grid unstable due to their output fluctuations. Battery energy storage systems (BESSs) are being considered as a countermeasure for this issue. A modular multilevel cascade converter (MMCC) is expected as a power conversion circuit for BESSs because each bridge cell can control the state of charge of a battery unit, independent of that of another one, and the harmonic current generated is low enough to eliminate the ac filter, normally installed on conventional two-level converters, from the MMCC. This paper describes the development of a real-scale (500 kW) single-star-bridge-cell-based MMCC for BESSs and reports successful test results obtained from a downscaled grid model and a 6.6-kV real-scale distribution line.
Keywords :
energy storage; photovoltaic power systems; power conversion harmonics; power distribution; power grids; secondary cells; wind turbines; BESS; MMCC; battery energy storage systems; battery unit; downscaled grid model; harmonic current generation; modular multilevel cascade converter; photovoltaic power generators; power 500 kW; power conversion circuit; power grid; real-scale distribution line; renewable energy sources; single-star-bridge-cell; state of charge; two-level converters; voltage 6.6 kV; wind turbine; Batteries; Bridge circuits; Fluctuations; Frequency control; Insulated gate bipolar transistors; System-on-chip; Test equipment; Battery energy storage systems (BESSs); battery storage plants; frequency stability; multilevel converters; power systems; pulsewidth modulation (PWM);
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2014.2313657
