Abstract :
Most utility power quality problems are caused by sags, surges, and momentary outages which last from several cycles to several seconds. Modern loads are very sensitive to these short duration glitches resulting in major losses in revenue through system down-time and loss of product from work in process. Many of these problems are caused by normal transients as equipment and factories go on-line or shut down. Others are caused by lightening strikes and faults on the distribution system. Although power utility companies attempt to minimize the interruptions through filtering and system management, power quality problems continue to cost American industry billions of dollars a year. Batteries have been used for many years in uninterruptible power supplies (UPS) to protect critical loads. However, because many new facilities have a network of broadly distributed critical loads, a UPS on the order of one to several megawatts is needed to support the total plant rather than several small kilowatt installations. This paper reports on the implementation of such a utility scale power quality management system
Keywords :
industrial power systems; power system control; power system reliability; power system transients; secondary cells; uninterruptible power supplies; AC Battery PQ2000 system; American industry; distributed critical loads; down-time; energy storage solutions; faults; filtering; glitches; interruptions; lightening strikes; outages; power quality management system; premium power; sags; surges; transients; uninterruptible power supplies; utility power quality; Costs; Energy management; Energy storage; Filtering; Power quality; Power system management; Production facilities; Quality management; Surge protection; Uninterruptible power systems;
