Steady-state mathematical models of battery storage plants with line-commutated converters
- Univ. of Naples (Italy). Dept. of Electrical Engineering Univ. of Cassino (Italy). Dept. of Industrial Engineering
Battery storage plants can be interfaced to electric power systems by AC/DC line-commutated converters, whose behavior is strongly influenced by AC and DC side interactions and which can work in non-ideal conditions such as those arising from voltage harmonics and unbalances. The paper presents mathematical models of battery storage plants with conventionally and non-conventionally controlled line-commutated converters; the aim is to carry out a complete harmonic analysis in steady-state non-ideal conditions. The models, built-up including the DC side representation in the converter modeling, can be directly employed in an iterative harmonic analysis of a power system with converters. Numerical simulation results are also discussed.
- OSTI ID:
- 6109147
- Journal Information:
- IEEE Transactions on Power Delivery (Institute of Electrical and Electronics Engineers); (United States), Vol. 8:2; ISSN 0885-8977
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
AC SYSTEMS
ENERGY STORAGE SYSTEMS
ELECTRIC BATTERIES
MATHEMATICAL MODELS
HARMONICS
INVERTERS
NUMERICAL ANALYSIS
STEADY-STATE CONDITIONS
ELECTRICAL EQUIPMENT
ELECTROCHEMICAL CELLS
ENERGY SYSTEMS
EQUIPMENT
MATHEMATICS
OSCILLATIONS
POWER SYSTEMS
240201* - Power System Networks
Transmission & Distribution- AC Systems- (1990-)