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

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

Research output: Contribution to conferencePaperpeer-review

10 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 languageEnglish
Pages107-122
Number of pages16
StatePublished - 2004
Event11th International Symposium on Corrosion in the Pulp and Paper Industry - Charleston, SC, United States
Duration: Jun 7 2004Jun 11 2004

Conference

Conference11th International Symposium on Corrosion in the Pulp and Paper Industry
Country/TerritoryUnited States
CityCharleston, SC
Period06/7/0406/11/04

Fingerprint

Dive into the research topics of 'Causes and solutions for recovery boiler primary air port composite tube cracking'. Together they form a unique fingerprint.

Cite this