Experiences with lower furnace tube cracking in a recovery boiler

The recovery boiler at the DMI Peace River Pulp Mill experienced severe cracking of composite tubes made of stainless steel 304L/SA210. Cracking occurred in tubes on the furnace floor, at primary air ports, at smelt spout openings, and at composite-to-composite butt welds in the lower furnace. The p...

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Main Authors: Vesak, Rob, Downing, Bill, Gauthier, Mike, Howard, Sally, Spirig, Doug, Neels, Laura, Tran, Honghi
Format: Article in Journal/Newspaper
Language:English
Published: TAPPI Press 2005
Subjects:
Bryant
Canada
Tay
Wilcox
Peace River
Online Access:http://hdl.handle.net/1807/98671
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spelling ftunivtoronto:oai:localhost:1807/98671 2023-05-15T17:54:49+02:00 Experiences with lower furnace tube cracking in a recovery boiler Vesak, Rob Downing, Bill Gauthier, Mike Howard, Sally Spirig, Doug Neels, Laura Tran, Honghi 2005-01 http://hdl.handle.net/1807/98671 en_ca eng TAPPI Press Vesak, R., Downing, B., Gauthier, M., Howard, S., Spirig, D., Neels, L., & Tran, H. TAPPI J. 4 (1): (2005). 0734-1415 http://hdl.handle.net/1807/98671 Article 2005 ftunivtoronto 2020-06-17T12:29:02Z The recovery boiler at the DMI Peace River Pulp Mill experienced severe cracking of composite tubes made of stainless steel 304L/SA210. Cracking occurred in tubes on the furnace floor, at primary air ports, at smelt spout openings, and at composite-to-composite butt welds in the lower furnace. The problem of cracking in the primary air ports was related to frequent temperature excursions in the tubes. These temperature variations were caused by the location and configuration of the tertiary air system and by the operation of the six-on-six interlaced secondary air system. Modifications made to the boiler have minimized the cracking problem. The elevation, size, and number of tertiary air ducts were changed, and the interlacing of the secondary air was reconfigured. A number of the SS304L/SA210 composite tubes were replaced with rotary-welded and co-extruded Inconel 625 and 825 tubes. The authors wish to acknowledge Blaine Anderson and Keith Rivers of Babcock & Wilcox Canada for their contributions to the boiler trials, Jim Keiser of Oak Ridge National Laboratory, and Damond Tay and Shery Vafa of University of Toronto for their involvement in the investiga- tion. Special appreciation also goes to Dan Lefebvre, Susan Oslie, Greg Sahaydak, Brett Bryant, and the rest of the Peace River Pulp Steam and Recovery Operations. Article in Journal/Newspaper Peace River University of Toronto: Research Repository T-Space Bryant ENVELOPE(-60.942,-60.942,-71.236,-71.236) Canada Tay ENVELOPE(-55.750,-55.750,-63.367,-63.367) Wilcox ENVELOPE(-66.933,-66.933,-67.949,-67.949)
institution Open Polar
collection University of Toronto: Research Repository T-Space
op_collection_id ftunivtoronto
language English
description The recovery boiler at the DMI Peace River Pulp Mill experienced severe cracking of composite tubes made of stainless steel 304L/SA210. Cracking occurred in tubes on the furnace floor, at primary air ports, at smelt spout openings, and at composite-to-composite butt welds in the lower furnace. The problem of cracking in the primary air ports was related to frequent temperature excursions in the tubes. These temperature variations were caused by the location and configuration of the tertiary air system and by the operation of the six-on-six interlaced secondary air system. Modifications made to the boiler have minimized the cracking problem. The elevation, size, and number of tertiary air ducts were changed, and the interlacing of the secondary air was reconfigured. A number of the SS304L/SA210 composite tubes were replaced with rotary-welded and co-extruded Inconel 625 and 825 tubes. The authors wish to acknowledge Blaine Anderson and Keith Rivers of Babcock & Wilcox Canada for their contributions to the boiler trials, Jim Keiser of Oak Ridge National Laboratory, and Damond Tay and Shery Vafa of University of Toronto for their involvement in the investiga- tion. Special appreciation also goes to Dan Lefebvre, Susan Oslie, Greg Sahaydak, Brett Bryant, and the rest of the Peace River Pulp Steam and Recovery Operations.
format Article in Journal/Newspaper
author Vesak, Rob
Downing, Bill
Gauthier, Mike
Howard, Sally
Spirig, Doug
Neels, Laura
Tran, Honghi
spellingShingle Vesak, Rob
Downing, Bill
Gauthier, Mike
Howard, Sally
Spirig, Doug
Neels, Laura
Tran, Honghi
Experiences with lower furnace tube cracking in a recovery boiler
author_facet Vesak, Rob
Downing, Bill
Gauthier, Mike
Howard, Sally
Spirig, Doug
Neels, Laura
Tran, Honghi
author_sort Vesak, Rob
title Experiences with lower furnace tube cracking in a recovery boiler
title_short Experiences with lower furnace tube cracking in a recovery boiler
title_full Experiences with lower furnace tube cracking in a recovery boiler
title_fullStr Experiences with lower furnace tube cracking in a recovery boiler
title_full_unstemmed Experiences with lower furnace tube cracking in a recovery boiler
title_sort experiences with lower furnace tube cracking in a recovery boiler
publisher TAPPI Press
publishDate 2005
url http://hdl.handle.net/1807/98671
long_lat ENVELOPE(-60.942,-60.942,-71.236,-71.236)
ENVELOPE(-55.750,-55.750,-63.367,-63.367)
ENVELOPE(-66.933,-66.933,-67.949,-67.949)
geographic Bryant
Canada
Tay
Wilcox
geographic_facet Bryant
Canada
Tay
Wilcox
genre Peace River
genre_facet Peace River
op_relation Vesak, R., Downing, B., Gauthier, M., Howard, S., Spirig, D., Neels, L., & Tran, H. TAPPI J. 4 (1): (2005).
0734-1415
http://hdl.handle.net/1807/98671
_version_ 1766162664710471680

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