Above a sufficiently high harmonic order, the Pi- or T-representation of cables is no longer sufficient. Consequently, it becomes necessary to investigate techniques allowing for improved representation of cables for higher harmonic orders.
[ ] Investigate cooperation with Willem Leterme
[ ] Investigate the applicability of Carson's equations and other frequency models
Load Models
Several models exist to represent loads in a harmonic context. The following models [1] need to be reviewed and implemented in an harmonic OPF context:
[x] Fixed current source model
[ ] Norton model
[ ] Coupled Norton model
[ ] Harmonically coupled admittance matrix model
References:
[1] Modeling of loads dependent on harmonic voltages by Brunoro et al., Electric Power Systems Research, 2017.
Above a sufficiently high harmonic order, the Pi- or T-representation of cables is no longer sufficient. Consequently, it becomes necessary to investigate techniques allowing for improved representation of cables for higher harmonic orders.
Several models exist to represent loads in a harmonic context. The following models [1] need to be reviewed and implemented in an harmonic OPF context:
References:
[1] Modeling of loads dependent on harmonic voltages by Brunoro et al., Electric Power Systems Research, 2017.