Causes and solutions for recovery boiler primary air port composite tube cracking

Jams R. Keiser; Douglas L. Singbeil; Gorti B. Sarma; Joseph R. Kish; Kimberly A. Choudhury; Camden R. Hubbard; Laurie A. Frederick; Jerry Yuan; Preet M. Singh

Causes and solutions for recovery boiler primary air port composite tube cracking

Jams R. Keiser, Douglas L. Singbeil, Gorti B. Sarma, Joseph R. Kish, Kimberly A. Choudhury, Camden R. Hubbard, Laurie A. Frederick, Jerry Yuan, Preet M. Singh

Corrosion Science & Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

A number of black liquor recovery boilers in North America have experienced severe, localized cracking in the coextruded 304L stainless steel/SA210 carbon steel tubes at or near the bottom of primary air ports. Some of these cracks have been found to advance into the carbon steel. Studies have shown that excessive temperature fluctuations on the surface of the tubes are common to all tubes that experience this cracking. This project has addressed this problem by identifying 1) changes in the alloy used for the cladding on the composite tubes to reduce the likelihood of cracking, 2) changes in the design of the primary air port to one that appears to reduce crack frequency, and 3) process changes that can reduce the magnitude and frequency of the temperature fluctuations. This paper utilizes the information obtained from this study to address questions regarding the nature of the cracking, the cracking mechanism, prevention of cracks advancing into the carbon steel and complete avoidance of any cracking.

Original language	English
Title of host publication	2004 International Chemical Recovery Conference
Pages	527-542
Number of pages	16
State	Published - 2004
Event	2004 International Chemical Recovery Conference - Charleston, SC, United States Duration: Jun 6 2004 → Jun 10 2004

Publication series

Name	2004 International Chemical Recovery Conference
Volume	1

Conference

Conference	2004 International Chemical Recovery Conference
Country/Territory	United States
City	Charleston, SC
Period	06/6/04 → 06/10/04

Cite this

@inproceedings{efeb28ad6c834e1e9896a159d02ef4ce,

title = "Causes and solutions for recovery boiler primary air port composite tube cracking",

abstract = "A number of black liquor recovery boilers in North America have experienced severe, localized cracking in the coextruded 304L stainless steel/SA210 carbon steel tubes at or near the bottom of primary air ports. Some of these cracks have been found to advance into the carbon steel. Studies have shown that excessive temperature fluctuations on the surface of the tubes are common to all tubes that experience this cracking. This project has addressed this problem by identifying 1) changes in the alloy used for the cladding on the composite tubes to reduce the likelihood of cracking, 2) changes in the design of the primary air port to one that appears to reduce crack frequency, and 3) process changes that can reduce the magnitude and frequency of the temperature fluctuations. This paper utilizes the information obtained from this study to address questions regarding the nature of the cracking, the cracking mechanism, prevention of cracks advancing into the carbon steel and complete avoidance of any cracking.",

author = "Keiser, {Jams R.} and Singbeil, {Douglas L.} and Sarma, {Gorti B.} and Kish, {Joseph R.} and Choudhury, {Kimberly A.} and Hubbard, {Camden R.} and Frederick, {Laurie A.} and Jerry Yuan and Singh, {Preet M.}",

year = "2004",

language = "English",

isbn = "1595100407",

series = "2004 International Chemical Recovery Conference",

pages = "527--542",

booktitle = "2004 International Chemical Recovery Conference",

note = "2004 International Chemical Recovery Conference ; Conference date: 06-06-2004 Through 10-06-2004",

}

Keiser, JR, Singbeil, DL, Sarma, GB, Kish, JR, Choudhury, KA, Hubbard, CR, Frederick, LA, Yuan, J & Singh, PM 2004, Causes and solutions for recovery boiler primary air port composite tube cracking. in 2004 International Chemical Recovery Conference. 2004 International Chemical Recovery Conference, vol. 1, pp. 527-542, 2004 International Chemical Recovery Conference, Charleston, SC, United States, 06/6/04.

Causes and solutions for recovery boiler primary air port composite tube cracking. / Keiser, Jams R.; Singbeil, Douglas L.; Sarma, Gorti B. et al.
2004 International Chemical Recovery Conference. 2004. p. 527-542 (2004 International Chemical Recovery Conference; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Causes and solutions for recovery boiler primary air port composite tube cracking

AU - Keiser, Jams R.

AU - Singbeil, Douglas L.

AU - Sarma, Gorti B.

AU - Kish, Joseph R.

AU - Choudhury, Kimberly A.

AU - Hubbard, Camden R.

AU - Frederick, Laurie A.

AU - Yuan, Jerry

AU - Singh, Preet M.

PY - 2004

Y1 - 2004

N2 - A number of black liquor recovery boilers in North America have experienced severe, localized cracking in the coextruded 304L stainless steel/SA210 carbon steel tubes at or near the bottom of primary air ports. Some of these cracks have been found to advance into the carbon steel. Studies have shown that excessive temperature fluctuations on the surface of the tubes are common to all tubes that experience this cracking. This project has addressed this problem by identifying 1) changes in the alloy used for the cladding on the composite tubes to reduce the likelihood of cracking, 2) changes in the design of the primary air port to one that appears to reduce crack frequency, and 3) process changes that can reduce the magnitude and frequency of the temperature fluctuations. This paper utilizes the information obtained from this study to address questions regarding the nature of the cracking, the cracking mechanism, prevention of cracks advancing into the carbon steel and complete avoidance of any cracking.

AB - A number of black liquor recovery boilers in North America have experienced severe, localized cracking in the coextruded 304L stainless steel/SA210 carbon steel tubes at or near the bottom of primary air ports. Some of these cracks have been found to advance into the carbon steel. Studies have shown that excessive temperature fluctuations on the surface of the tubes are common to all tubes that experience this cracking. This project has addressed this problem by identifying 1) changes in the alloy used for the cladding on the composite tubes to reduce the likelihood of cracking, 2) changes in the design of the primary air port to one that appears to reduce crack frequency, and 3) process changes that can reduce the magnitude and frequency of the temperature fluctuations. This paper utilizes the information obtained from this study to address questions regarding the nature of the cracking, the cracking mechanism, prevention of cracks advancing into the carbon steel and complete avoidance of any cracking.

UR - http://www.scopus.com/inward/record.url?scp=5444270043&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:5444270043

SN - 1595100407

SN - 9781595100405

T3 - 2004 International Chemical Recovery Conference

SP - 527

EP - 542

BT - 2004 International Chemical Recovery Conference

T2 - 2004 International Chemical Recovery Conference

Y2 - 6 June 2004 through 10 June 2004

ER -

Causes and solutions for recovery boiler primary air port composite tube cracking

Abstract

Publication series

Conference

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