Title :
Smart grid implications for power quality standardization
Author :
Geiger, Daniel L. ; Halpin, S. Mark
Author_Institution :
Auburn Univ., Auburn, AL, USA
Abstract :
Renewable energy sources continue to grow in North America and around the world. There is a push to install these renewable energy sources at the low voltage (LV) distribution level to create a distributed generation (DG) power system. Traditionally, the power system is assumed to have one source that is connected to loads through an impedance. Present electromagnetic compatibility (EMC) standardization for both IEC and IEEE is based on this assumption. It is important and necessary to consider how the present standards apply to DG units so that future standardization can account for the shift from one “large” source to multiple “small” distributed sources.
Keywords :
IEC standards; IEEE standards; distributed power generation; electromagnetic compatibility; power supply quality; renewable energy sources; smart power grids; standardisation; DG power system; DG units; EMC standardization; IEC; IEEE; North America; distributed generation power system; electromagnetic compatibility standardization; large-source distributed sources; low-voltage distribution level; multiple-small distributed source; power quality standardization; renewable energy sources; smart grid implication; Harmonic analysis; IEC standards; IEEE standards; Power system harmonics; Voltage fluctuations; Distributed Generation; EMC Standardization; Power Quality; Renewable Energy; Smart Grid;
Conference_Titel :
North American Power Symposium (NAPS), 2014
Conference_Location :
Pullman, WA
DOI :
10.1109/NAPS.2014.6965419
