2011
DOI: 10.1016/j.egypro.2011.01.189
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Material testing for future commercial post-combustion capture plants–Results of the testing programme conducted at the Niederaussem pilot plant

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Cited by 18 publications
(14 citation statements)
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“…Various materials including different grades of stainless steel coupons, stainless steel tubes and flanges, and glass fibre reinforced plastic were placed at different locations throughout the plant during 6 months of operation with MEA solvent. According to Moser et al (2011), all the tested stainless steel materials had excellent corrosion resistance as evidenced by recording less than 0.001 mm/year corrosion rate. Accordingly, these materials were deemed suitable for use in post-combustion CO 2 capture plants.…”
Section: Corrosionmentioning
confidence: 99%
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“…Various materials including different grades of stainless steel coupons, stainless steel tubes and flanges, and glass fibre reinforced plastic were placed at different locations throughout the plant during 6 months of operation with MEA solvent. According to Moser et al (2011), all the tested stainless steel materials had excellent corrosion resistance as evidenced by recording less than 0.001 mm/year corrosion rate. Accordingly, these materials were deemed suitable for use in post-combustion CO 2 capture plants.…”
Section: Corrosionmentioning
confidence: 99%
“…MEA concentration was also reported to contribute to an increase in the corrosion rate. In a more recent study, construction material evaluation was carried out in a pilot scale CO 2 capture plant capable of removing 7.2 ton/day of CO 2 from a slipstream extracted from a 1000 MW lignite based Niederaussem power station in Germany (Moser et al, 2011). Various materials including different grades of stainless steel coupons, stainless steel tubes and flanges, and glass fibre reinforced plastic were placed at different locations throughout the plant during 6 months of operation with MEA solvent.…”
Section: Corrosionmentioning
confidence: 99%
“…Based on lab experiments and engineering practice, polyurea, epoxy glass coatings, fiber reinforced plastics, corrosion resistant steels, titanium alloy and foam glass blocks are widely used (Ni et al 2002;González-Guzmán et al 2010;Moser et al 2011;Jeon et al 2011;Nam et al 2010;Sugizaki et al 1996;Song et al 2011;Soo Park et al 1999). In this study, polyurea and vinyl ester glass flake (VEGF) were classified as the coating materials; titanium alloy, sulfuric acid dew corrosion resistant steel (ND) and fiberglass reinforced plastics (FRP) were selected as the lining materials; foam glass blocks were deemed as the lightweight insulation products.…”
Section: Methodsmentioning
confidence: 99%
“…This material is able to protect metal from corrosion in highly corrosive media because it is expected to greatly hinder the water transport through the polymeric matrix (ZareNezhad and Aminian 2010). Moser et al (2011) have conducted certain experiments on fiber reinforced plastic, concluding that this material is able to show excellent corrosion resistance in different positions in the plant (prescrubber unit, absorber, and desorber) at a wide range of specific process conditions (temperature, pressure, solvent loading, and gas/solvent stream). Corrosion resistant steel for sulfuric acid dew is a type of low-alloy structural steel, including a small amount of manganese, copper, chromium, antimony, nickel, or tin, to form a protective layer on the metal surface.…”
Section: Introductionmentioning
confidence: 99%
“…Different types of stainless steels and polymeric materials as well as concrete were tested in the lignite-fired Niederaussem power station (Germany) [78,79]. Carbon steel corrosion was evaluated in the Tarong coal-fired power station (Australia), confirming once more the high corrosivity of the rich MEA [80].…”
Section: Corrosion Monitoring At Pilot Plant Scalementioning
confidence: 99%