TITLE:
Comparison and Evaluation of Power Factor Correction Topologies for Industrial Applications
AUTHORS:
John Karatzaferis, Nick Papanikolaou, Emmanuel Tatakis, Michael Loupis, John Spanoudakis
KEYWORDS:
Power Factor Correction; Industrial Load; Converter; Thermal Design; Mass/Volume Analysis
JOURNAL NAME:
Energy and Power Engineering,
Vol.5 No.6,
August
9,
2013
ABSTRACT:
Power factor correction is a major issue for all industries, since a typical industrial load is causing current delays, as well as higher order current harmonics. Power factor correction is often mandatory from the power companies, usually by charging the reactive power that the company consumes. Many solutions for power factor correction have been presented in the bibliography; in this paper, the most significant power factor correction topologies will be reviewed and simulated with SABER RD software. Finally, a prototype design will be presented, based on a mass/cost analysis of the selected topologies and with an aim to manufacture 10 kW modules. The main outcome of this work is the feasibility for an SME to manufacture a competitive modular power factor correction product for industrial applications.