Combustion of solid waste in municipal incinerators has resulted in fouling and corrosion on heat transfer surfaces. The nature of these deposits and the extent of the corrosion has been investigated in a combined field and laboratory study. In addition to the elements normally found in boiler deposits, chlorine, lead, and zinc appeared in significant quantities in the incinerator deposits. Twenty specific compounds have been identified in the deposits. The presence of potassium, sulfur, chlorine, lead, and zinc in the corrosion product scale at the metal-deposit interface has been demonstrated. Corrosion resulting from the action of flue gases and accumulated deposits has been measured by means of probes exposed in large municipal incinerators. Mechanisms for the corrosion processes are suggested, and possible remedies are discussed.
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January 1973
This article was originally published in
Journal of Engineering for Power
Research Papers
Corrosion and Deposits From Combustion of Solid Waste
H. H. Krause,
H. H. Krause
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
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D. A. Vaughan,
D. A. Vaughan
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
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P. D. Miller
P. D. Miller
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
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H. H. Krause
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
D. A. Vaughan
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
P. D. Miller
Battelle Memorial Institute, Columbus Laboratories, Columbus, Ohio
J. Eng. Power. Jan 1973, 95(1): 45-52 (8 pages)
Published Online: January 1, 1973
Article history
Received:
July 31, 1972
Online:
July 14, 2010
Connected Content
A companion article has been published:
Corrosion and Deposits from Combustion of Solid Waste—Part VI: Processed Refuse as a Supplementary Fuel in a Stoker-Fired Boiler
Citation
Krause, H. H., Vaughan, D. A., and Miller, P. D. (January 1, 1973). "Corrosion and Deposits From Combustion of Solid Waste." ASME. J. Eng. Power. January 1973; 95(1): 45–52. https://doi.org/10.1115/1.3445693
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