High Temperature Static and Dynamic Pressure Transducer for Combustion Instability Control Using Acoustic Low-Pass Filter Structures

Abstract: There is a need to measure static and dynamic conditions in many gas turbine applications, in particular for combustion instabilities, such as those in the afterburner. The DC and low frequency components are typically used for conventional engine control, while the high frequency data is essential for acoustic screech and rumble diagnostics and control. This paper presents a static-dynamic piezoresistive pressure transducer that measures low amplitude, dynamic pressure perturbations superimposed on top of a h… Show more

“…As pictured in Fig. 16.01-2002 A and classical control theory [5,9]. When the holes in the valve align with a separate channel, the high pressure passes through the channel, creating a sinusoidal dynamic pressure.…”

“…We attempted to match the results obtained from the dynamic pressure generator to models created by Antonini et al, and Bergh and Tijdeman, as well as a model we have previously published [7,12,16]. This is because the Hurst and Kurtz model accounts for only viscosity effects but not heat losses which seem to be the dominant damping effect at higher frequencies [16]. It is clear that although early models correctly predict the resonance locations and the general shape of the curve they typically overestimate the gain at resonance.…”

An Experimental and Theoretical Investigation of Wave Propagation in Teflon and Nylon Tubing With Methods to Prevent Aliasing in Pressure Scanners

“…As pictured in Fig. 16.01-2002 A and classical control theory [5,9]. When the holes in the valve align with a separate channel, the high pressure passes through the channel, creating a sinusoidal dynamic pressure.…”

“…We attempted to match the results obtained from the dynamic pressure generator to models created by Antonini et al, and Bergh and Tijdeman, as well as a model we have previously published [7,12,16]. This is because the Hurst and Kurtz model accounts for only viscosity effects but not heat losses which seem to be the dominant damping effect at higher frequencies [16]. It is clear that although early models correctly predict the resonance locations and the general shape of the curve they typically overestimate the gain at resonance.…”

An Experimental and Theoretical Investigation of Wave Propagation in Teflon and Nylon Tubing With Methods to Prevent Aliasing in Pressure Scanners

Miniature low-pass mechanical filter for improved frequency response with MEMS microphones & low-pressure transducers

High-Temperature Piezoelectric Pressure Sensors for Hypersonic Flow Measurements