An approach to the estimation of the severity of power system voltage flicker is presented in this paper. The presented technique is a simulation approach using a combined time/frequency-domain analysis technique. This hybrid approach allows the accuracy of differential equation-based mathematical models for critical components and the simplicity of phasor/impedance frequency-domain models for other components to be used in the same algorithm. Frequency-domain techniques are used to formulate a multi-phase power distribution system model to account for the effects of system unbalance. To incorporate the inherent temporal nature of the flicker problem, time-domain techniques are used to represent loads that produce flicker and the equipment that may be installed to mitigate flicker. A least-squares estimation technique developed for digital relaying applications is used as an "interface" between the time-domain differential equation solutions and the frequency-domain network solutions. Both peak-to-peak and RMS bus voltages are automatically generated by the algorithm and are shown to be accurate relative to EMTP software.
[1]
Hermann W. Dommel,et al.
Fast Transient Stability Soultions
,
1972
.
[2]
Michael K. Walker,et al.
Electric Utility Flicker Limitations
,
1979,
IEEE Transactions on Industry Applications.
[3]
Elham B. Makram,et al.
Starting transients of induction motors connected to unbalanced networks
,
1989
.
[4]
R. J. Koessler.
Dynamic simulation of static VAR compensators in distribution systems
,
1992
.
[5]
L. L. Grigsby,et al.
An improved fault analysis algorithm for unbalanced multi-phase power distribution systems
,
1994
.