Anne Hoff scite author profile

We examined the fouling and corrosion that took place when 316 stainless steel and pure iron wires were electrically heated to 540À680°C in a liquid bath of the atmospheric bottoms fraction of a crude oil. The foulant was determined to be heterogeneous, with a thick macroscale outer layer of pitch, covering a microscale sheath of coke, which was in turn both covering and interspersed with a microscale layer of iron sulfide. This foulant was observed to delaminate from the wire surface, presumably as a result of both the generation of growth stresses and the action of gas bubbles that were evolved during the fouling process. Unexpectedly but conclusively, we observed that the underlying wire surface was heavily corroded. In the case of the stainless steel, we observed a microscale chromium oxide layer that separated the foulant from the underlying metal. This layer presumably reduced the rate of metal dissolution. The degree of corrosion was much higher in the pure iron samples, where such a layer did not exist. Our hypothesis is that there is a synergy between the measured macroscopic fouling and the underlying microscopic corrosion, where the iron from the wire reacts with the sulfur in the oil to build up the thick sulfide.

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Thiophene mitigates high temperature fouling of metal surfaces in oil refining

Stephenson¹,

Hazelton²,

Kupsta³

et al. 2015

Fuel

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Effect of Asphaltene Stability on Fouling at Delayed Coking Process Furnace Conditions

Derakhshesh

Eaton²,

Newman

et al. 2013

Energy Fuels

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In this study, we examine the link between stability of asphaltenes at ambient conditions with fouling at the conditions of a delayed coker furnace, with heat-transfer surfaces above 450 °C. The atmospheric bottom fraction of a crude oil was blended with an aliphatic diluent in different ratios; the S values were measured; and then fouling rates were measured on electrically heated stainless-steel 316 wires in an autoclave reactor. As expected, the less stable the blend, the greater the rate and extent of fouling. The most severe fouling occurred with the unstable asphaltenes. Scanning electron microscopy (SEM) imaging of the foulant illustrates very different textures, with the structure becoming more porous with lower stability. Under crosspolarized light, the coke shows the presence of mesophase in the foulant layer. These data suggest a correlation between the fouling rate at high-temperature furnace conditions and the stability index of the crude oil.

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Discrete Element Method Analysis for Metal Powders Used in Additive Manufacturing, and DEM Simulation Tutorial Using LIGGGHTS-PUBLIC [PowerPoint and paper]

Shenouda

Hoff

2020

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Cracking of vacuum residue from Athabasca bitumen in a thin film

et al. 2007

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A novel apparatus for cracking experiments based on very rapid induction heating is described. Oil and catalyst is deposited in a thin film on a metal strip made from a Curie-point alloy and heated rapidly by induction in an induction furnace. The setup offers several advantages, such as rapid heating and quenching, precise control of reaction times and temperatures, and minimization of heat and mass transfer effects. The apparatus is used in a study of the catalytic activity of calcium-modified chabazite for heavy oil cracking. The catalyst was also tested in a conventional setup in cracking of hexadecane to verify its catalytic activity. A clear catalytic effect can be seen for the hexadecane cracking, but the effect is absent for thin film cracking of the vacuum residue.KEY WORDS: vacuum residue cracking; Athabasca bitumen in thin film.

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Anne Hoff

Corrosion-Fouling of 316 Stainless Steel and Pure Iron by Hot Oil

Thiophene mitigates high temperature fouling of metal surfaces in oil refining

Effect of Asphaltene Stability on Fouling at Delayed Coking Process Furnace Conditions

Discrete Element Method Analysis for Metal Powders Used in Additive Manufacturing, and DEM Simulation Tutorial Using LIGGGHTS-PUBLIC [PowerPoint and paper]

Cracking of vacuum residue from Athabasca bitumen in a thin film

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