Acoustic waveguide sensing the condition of components within gas turbines

Abstract

A system for online monitoring the condition of a thermal barrier coating on the vanes and/or blades of a combustion turbine, or other forms of component deterioration affecting the acoustic properties of the vanes and/or blades. The system begins with a signal generator for transmitting a signal to an acoustic transmitter, and then to an acoustic waveguide secured within the turbine, adjacent to a vane. Acoustic waves passing through the vane's coating will have a certain magnitude and velocity when passing through an intact coating, which will change as the coating deteriorates. Additional variation of the acoustic wave will occur due to pressure pulses from passing blades, with the magnitude of the pressure pulses increasing as the blade's coating deteriorates. The acoustic waves are then received by a second acoustic waveguide. The resulting signal will be converted from an acoustic signal to an electrical signal by an acoustic receiver, and will pass through a filter to remove the lower frequency signals of the turbine from the higher frequency signals to be analyzed. The remaining higher frequency signals are sent to a computer, permitting the variations in the acoustic waves to be analyzed. A second embodiment relies solely on pressure pulses from passing blades to generate acoustic signals within the vanes.