Title :
Field experience using a microprocessor relay to protect a 14,000 hp motor
Author :
Mekic, Fahrudin ; Gaynor, Paul ; Wilson, Robert
Author_Institution :
ABB Inc., Allentown, PA, USA
Abstract :
The protective relays discussed in this paper along with individual solid-state relaying protect a 14,000 hp 4-pole compressor induction motor. All protection is located in an outdoor breaker cubicle located at a Gulf coast petrochemical plant without the benefit of HVAC. The protection scheme was designed so that all fault types and abnormal operating conditions are properly detected and cleared. The installation includes unique protection functions for locked rotor protection, blown fuse detection, customized logic for the upstream breaker tripping, customized relay display, and condition monitoring of the primary equipment (breaker, current transformer (CT), voltage transformer (VT) etc). A novel approach using non-saturating current and voltage sensors is also discussed in this paper.
Keywords :
compressors; condition monitoring; electric sensing devices; electrical faults; induction motors; machine protection; microcomputer applications; power engineering computing; relay protection; rotors; 14000 hp; 4-pole compressor induction motor protection; blown fuse detection; condition monitoring; customized relay display; microprocessor relay; outdoor breaker cubicle; petrochemical plant; protective relays; rotor protection; sensors; solid-state relaying protection; upstream breaker tripping; Current transformers; Fault detection; Induction motors; Micromotors; Microprocessors; Petrochemicals; Protection; Protective relaying; Rotors; Solid state circuits;
Conference_Titel :
Petroleum and Chemical Industry Conference, 2005. Industry Applications Society 52nd Annual
Print_ISBN :
0-7803-9272-8
DOI :
10.1109/PCICON.2005.1524537
