Fuzzy controlled SMES unit for power system application

This paper presents a new approach to control a superconducting magnetic energy storage (SMES) unit for power system application. The SMES unit is used to improve the dynamic performance of P-f and Q-V loops of a power system. Two independent fuzzy controllers are assigned, one for the frequency con...

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Bibliographic Details
Main Authors: Rabbani, M.G., Devotta, J.B.X., Elangovan, S.
Format: Conference Proceeding
Language:English
Subjects:
Control systems
Frequency control
Fuzzy control
Fuzzy systems
Power system control
Power system dynamics
Power systems
Samarium
Superconducting magnetic energy storage
Voltage control
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Summary:This paper presents a new approach to control a superconducting magnetic energy storage (SMES) unit for power system application. The SMES unit is used to improve the dynamic performance of P-f and Q-V loops of a power system. Two independent fuzzy controllers are assigned, one for the frequency control and another for the voltage control. Speed deviation (/spl Delta//spl omega/) and acceleration (/spl Delta//spl omega/) of a synchronous generator are taken as the input signals to the fuzzy frequency controller (FFC). The terminal voltage deviation (/spl Delta/V/sub 1/) and its derivative (/spl Delta/V/sub 1/) are considered as the inputs to the fuzzy voltage controller (FVC). To get the maximum benefit from the SMES unit, a supplementary control is generated by using the output of FFC and the inductor current deviation (/spl Delta/I/sub sm/) as inputs. /spl Delta/I/sub sm/ is also used as a negative feedback signal to ensure the SMES energy is restored to its pre-disturbance level. The desired P-modulation from the SMES is obtained by adding this supplementary control signal to the output of FFC while the output of the FVC is the desired Q-modulation. The effective use of the SMES unit is verified for small as well as large disturbances for a single machine infinite bus system, and simulation results are presented and discussed.
DOI:10.1109/EMPD.1998.705413