Journal of Pure and Applied Ultrasonics

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NDE of High Temperature Stainless Steel Used in Biomass Gasifier


Affiliations
1 Department of Physics, Sethu Institute of Technology, Kariapatti-626106, India
2 School of Energy, Madurai Kamaraj University, Madurai-625021, India
3 Division for PIE & NDT Development, Indira Gandhi Center for Atomic Research, Kalpakkam-603102, India
 

A biomass gasifier was in operation for sometime and later failed near the weld portion. A portion of the sample near the failed region was cut and used for this investigation. Study based on ultrasonic velocity measurements, metallography and X-ray diffraction was carried out at different portions of samples of stainless steel used in the biomass gasifier. Precise ultrasonic velocity measurements were performed by pulse echo method using cross correlation technique. Longitudinal ultrasonic wave generating probes of 5 and 20 MHz were used. It is found that there is an increase in ultrasonic velocity in samples obtained from the exposed portion as compared to the virgin samples. Metallographic studies revealed that there is a microstructural reformation taking place due to prolonged temperature treatment at the regions away from the failed portion. Very near the failed portion, there is intergranular type crack propagation as a result of partial sensitization and embrittlement. X-ray diffraction study is in support of the metallographic observations. The increase in ultrasonic velocities in service exposed specimen with and without intergranular cracks was attributed to the continuous changes taking place in the microstructures. It is suggested that periodic monitoring of the critical parts especially the combustion zone by NDE techniques would help avoid premature failure of the biomass gasifier plant.

Keywords

Ultrasonic Measurements, Biomass Gasifier, AISI Type 310 Stainless Steel, Microstructures, Characterization.
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  • NDE of High Temperature Stainless Steel Used in Biomass Gasifier

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Authors

S. Raja Karthihan
Department of Physics, Sethu Institute of Technology, Kariapatti-626106, India
T. M. Haridasan
School of Energy, Madurai Kamaraj University, Madurai-625021, India
P. Palanichamy
Division for PIE & NDT Development, Indira Gandhi Center for Atomic Research, Kalpakkam-603102, India
C. K. Mukopadhyay
Division for PIE & NDT Development, Indira Gandhi Center for Atomic Research, Kalpakkam-603102, India
P. Kalyanasundaram
Division for PIE & NDT Development, Indira Gandhi Center for Atomic Research, Kalpakkam-603102, India

Abstract


A biomass gasifier was in operation for sometime and later failed near the weld portion. A portion of the sample near the failed region was cut and used for this investigation. Study based on ultrasonic velocity measurements, metallography and X-ray diffraction was carried out at different portions of samples of stainless steel used in the biomass gasifier. Precise ultrasonic velocity measurements were performed by pulse echo method using cross correlation technique. Longitudinal ultrasonic wave generating probes of 5 and 20 MHz were used. It is found that there is an increase in ultrasonic velocity in samples obtained from the exposed portion as compared to the virgin samples. Metallographic studies revealed that there is a microstructural reformation taking place due to prolonged temperature treatment at the regions away from the failed portion. Very near the failed portion, there is intergranular type crack propagation as a result of partial sensitization and embrittlement. X-ray diffraction study is in support of the metallographic observations. The increase in ultrasonic velocities in service exposed specimen with and without intergranular cracks was attributed to the continuous changes taking place in the microstructures. It is suggested that periodic monitoring of the critical parts especially the combustion zone by NDE techniques would help avoid premature failure of the biomass gasifier plant.

Keywords


Ultrasonic Measurements, Biomass Gasifier, AISI Type 310 Stainless Steel, Microstructures, Characterization.