Abstract :
The benefits in performance (sensitivity and speed), reliability (security, selectivity, and dependability), availability, efficiency, economics, safety, compatibility, and capabilities of microprocessor multifunction protective relaying (MMPR) technology over the previous existing technologies, namely electromechanical and solid-state, are explored. The suggested typical values, quality measurements, and analysis of protective relaying performance, reliability, and unavailability are intended to be a recommendation of what could be used as a benchmark in our industry. This paper is useful to consulting engineers, industrial and commercial electric power plant engineers, and OEM engineers that are interested in doing reliability and unavailability predictions for industrial electric power distribution systems that employ MMPR equipment. Furthermore, this paper should assist those making MMPR technology cost-versus-reliability decisions when performing facilities studies to evaluate and improve the system reliability and/or capacity of an existing plant
Keywords :
maintenance engineering; microcomputer applications; microprocessor chips; power distribution protection; power distribution reliability; power engineering computing; relay protection; cost-versus-reliability decisions; industrial electric power distribution systems; maintenance costs; microprocessor multifunction protective relaying; power plant engineers; quality measurements; system reliability improvement; Availability; Costs; Electrical equipment industry; Information security; Maintenance; Power engineering and energy; Power system reliability; Protection; Protective relaying; Reliability engineering; MTBF; failure rate; microprocessor multifunction protective relaying; reliability; unavailability;
