Supply and Demand Control of Distributed Generators in a Microgrid for New Energy
Abstract
We report the operational results of distributed generators (DGs) in a microgrid and present the effects after incorporating photovoltaic power generation (PV) systems into the microgrid for electric power system. The microgrid was constructed at the EXPO 2005 Aichi site as part of a demonstration promoted by NEDO. A solution is needed to problems where instability in the DGs that utilize natural energy such as solar light and wind force negatively influence existing electric power systems. So, we developed energy control system and controlled DGs output to reduce the fluctuation at the grid connected point caused by PV system's instability output. Our microgrid consists of DGs such as PV systems, fuel cells, and NaS batteries, and these DGs are controlled by an energy control system. We verified practical effectiveness of the installing the microgrid as follows. (1) 99.5% of the power imbalance in the supply and demand over 30 minutes was within a range of ±3% under normal operating conditions, (2) the microgrid contributes to the load leveling, (3) energy control system smoothes the power flow fluctuation of PV system output at the grid connected point, (4) in the future, installing a microgrid will help reduce the additional LFC (Load Frequency Control) capacity.
- Publication:
-
IEEJ Transactions on Power and Energy
- Pub Date:
- 2008
- DOI:
- 10.1541/ieejpes.128.143
- Bibcode:
- 2008IJTPE.128..143S
- Keywords:
-
- microgrid;
- distributed generators;
- fuel cells;
- photovoltaic power generation system;
- NaS batteries;
- 30-minute supply and demand power balancing;
- load leveling;
- load frequency control