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Book Chapter

Failure Analysis of Boiler Water Wall-Tubes at a Power Generation Plant

By A. El-Batahgy, W. Metwally
Series: ASM Failure Analysis Case Histories
Publisher: ASM International
Published: 01 June 2019
DOI: 10.31399/asm.fach.power.c9001709
EISBN: 978-1-62708-229-7
... (367 deg C) and 2935 psi (20.5 MPa), failed near the IK boxes as a result of thermal fatigue. Thermal fatigue damage was accelerated by repetitive exposure to water droplets from the soot blower and the associated rapid cooling. Boilers Electric power generation Tubes ASME SA210-A1 Thermal...
Abstract
Several waterwall tubes in a power station boiler failed after ten years of service. The boiler is a suspension type equipped with 30 IK boxes where retractable soot blowers are inserted to clean the inside of the boiler using high-pressure steam. The tubes, which operate at 693 deg F (367 deg C) and 2935 psi (20.5 MPa), failed near the IK boxes as a result of thermal fatigue. Thermal fatigue damage was accelerated by repetitive exposure to water droplets from the soot blower and the associated rapid cooling.
Image

Graphitized microstructure of SA210 grade A1 plain carbon steel. Original m...

in Failure of Boilers and Related Equipment > Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 20 Graphitized microstructure of SA210 grade A1 plain carbon steel. Original magnification: 400× More
Book Chapter

Failure of Boilers and Related Equipment

By Paresh Haribhakti, P.B. Joshi
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.a0006825
EISBN: 978-1-62708-329-4
... grade A1 0.27 max 0.10 min 0.93 max … … … … … 0.035 max S and P … SA210 grade C 0.35 max 0.10 min 0.29–1.06 … … … … … 0.035 max S and P … SA178 grade C 0.35 max … 0.80 max … … … … … 0.035 max S and P … ASME T11 SA213 grade T11 0.05–0.15 0.50–1.00 0.30–0.60 1.00...
Abstract
Failures in boilers and other equipment taking place in power plants that use steam as the working fluid are discussed in this article. The discussion is mainly concerned with failures in Rankine cycle systems that use fossil fuels as the primary heat source. The general procedure and techniques followed in failure investigation of boilers and related equipment are discussed. The article is framed with an objective to provide systematic information on various damage mechanisms leading to the failure of boiler tubes, headers, and drums, supplemented by representative case studies for a greater understanding of the respective damage mechanism.
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