New power-conditioning systems for superconducting magnetic energy storage
This dissertation presents the development of new power-conditioning systems for superconducting magnetic energy storage (SMES), which can regulate fast and independently the active and reactive powers demanded in the ac network. Three new power-conditioning systems were developed through a systematic approach to match the requirements of the superconducting coil and the ac power network. Each of these new systems is composed of ten 100-MW modules connected in parallel to handle the large current through the superconducting coil. The first system, which was published in the IEEE Transactions on EnergyConversion, consists of line-commutated 24-pulse converter, a thyristor-switched tap-changing transformer, and a thyristor-switched capacitor bank. The second system, which was accepted for publication in the IEEE Transactions on Energy Conversion, consists of a 12-pulse GTO (gate turn-off thyristor) converter and a thyristor-switched tap-changing transformer. The third system, which was submitted to the International Journal of Energy System, consists of a dc chopper and a voltage-source PWM (pulse width modulation) converter. The operational concept of each new system is verified through mathematical analyses and computer simulations. The dynamic interaction of each new system with the ac network and the superconducting coil is analyzed using a simulation model with EMTP (electro-magnetic transients program). The analysis results prove that each new system is feasible and realizable. Each system can regulate the active and reactive powers of the utility network rapidly and independently, and each offer a significant reduction of the system rating by reducing the reactive power demand in the converter. Feasible design for each new system was introduced using a modular design approach based on the 1000 MW/5000 MWH plant, incorporating commercially available components and proven technologies.
- Research Organization:
- Arizona State Univ., Tempe, AZ (United States)
- OSTI ID:
- 6779522
- Resource Relation:
- Other Information: Ph.D. Thesis
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
MAGNETIC ENERGY STORAGE
SUPERCONDUCTING MAGNETS
POWER CONDITIONING CIRCUITS
DESIGN
ALTERNATING CURRENT
CAPACITORS
CONVERSION
POWER
POWER RANGE 01-10 GW
SIMULATION
THYRISTORS
TRANSFORMERS
CURRENTS
ELECTRIC CURRENTS
ELECTRICAL EQUIPMENT
ELECTROMAGNETS
ELECTRONIC CIRCUITS
ENERGY STORAGE
EQUIPMENT
GIGAWATT POWER RANGE
MAGNETS
POWER RANGE
SEMICONDUCTOR DEVICES
STORAGE
SUPERCONDUCTING DEVICES
250100* - Energy Storage- Magnetic