| Title |
Power Balancing Strategy in the Microgrid During Transient |
| Authors |
서재진(Seo, Jae-Jin) ; 이학주(Lee, Hak-Ju) ; 정원욱(Jung, Won-Wook) ; 원동준(Won, Dong-Jun) |
| Keywords |
Microgrid ; Distributed Generator ; Power balancing ; Frequency Droop Control, Controllable Load ; Load shedding |
| Abstract |
When problems such as line fault, breakdown of a substation or a generator, etc. arise on the grid, the Microgrid is designed to be separated or isolated from the grid. Most existing DGs(Distributed Generators) in distribution system use rotating machine. However, new DGs such as micro gas turbine, fuel cell, photo voltaic, wind turbine, etc. will be interfaced with the Microgrid through an inverter. So the Microgrid may have very lower inertia than the conventional distribution system. By the way, the rate of change of frequency depends on the inertia of the power system. Moreover, frequency has a strong coupling with active power in power system. Because the frequency of the Microgrid may change rapidly and largely during transient, appropriate and fast control strategy is needed for stable operation of the Microgrid. Therefore, this paper presents a power balancing strategy in Microgrid during transient. Despite of strong power or frequency excursions, power balancing in the Microgrid can be maintained. |