S. MacAdam scite author profile

S. MacAdam

4Publications

21Citation Statements Received

29Citation Statements Given

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Affiliations

Materials Sciences (United States), Lawrence Berkeley National Laboratory, University of California, Berkeley

Publications

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High temperature degradation by erosion-corrosion in bubbling fluidized bed combustors

Hou

MacAdam²,

Niu

et al. 2004

Mat. Res.

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Heat-exchanger tubes in fluidized bed combustors (FBCs) often suffer material loss due to combined corrosion and erosion. Most severe damage is believed to be caused by the impact of dense packets of bed material on the lower parts of the tubes. In order to understand this phenomenon, a unique laboratory test rig at Berkeley was designed to simulate the particle hammering interactions between in-bed particles and tubes in bubbling fluidized bed combustors. In this design, a rod shaped specimen is actuated a short distance within a partially fluidized bed. The downward specimen motion is controlled to produce similar frequencies, velocities and impact forces as those experienced by the impacting particle aggregates in practical systems. Room temperature studies have shown that the degradation mechanism is a three-body abrasion process. This paper describes the characteristics of this test rig, reviews results at elevated temperatures and compares them to field experience. At higher temperatures, deposits of the bed material on tube surfaces can act as a protective layer. The deposition depended strongly on the type of bed material, the degree of tube surface oxidation and the tube and bed temperatures. With HCl present in the bed, wastage was increased due to enhanced oxidation and reduced oxide scale adherence

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Temperature Dependence of Steel Wastage in a Bubbling Fluidized Bed Simulator

MacAdam

Stringer

1993

CORROSION

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Effect of process variables on wastage in fluidized bed combustors: criteria for test procedures

et al. 1993

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Wastage of in-bed components in bubbling fluidized-bed combustors (FBC) has been a continuing problem. In response to this, there have been a number of attempts recently to develop testing techniques to help in the selection of resistant alloys and coating to resist wastage, and to determine the effect of critical process variables on the wastage. This paper summarizes what is known about the wastage in operating FBCs, to provide a basis for the qualification of the testing techniques.

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The circumferential distribution of wastage on in-bed tubes in fluidized bed combustors

MacAdam

Stringer

1995

Wear

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S. MacAdam

High temperature degradation by erosion-corrosion in bubbling fluidized bed combustors

Temperature Dependence of Steel Wastage in a Bubbling Fluidized Bed Simulator

Effect of process variables on wastage in fluidized bed combustors: criteria for test procedures

The circumferential distribution of wastage on in-bed tubes in fluidized bed combustors

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