2 research outputs found
Deactivation effects of biofuels on SCR catalysts
Get PDFSelective Catalytic Reduction (SCR) technology is widely used for reducing nitrogen oxides (NOX) from exhaust gases. Nitrogen oxides are harmful for humans and the environment. The SCR catalysts convert nitrogen oxides to nitrogen and water with solid or liquid ammonia. The technology is widely being used with diesel engines in vehicles as well as power plant scale applications. Typically the catalyst is coated with vanadium pentoxide.
The SCR catalysts can lose their activity over time. This deactivation may be due to too much heat, pore blocking or chemical poisoning. Many biofuels can contain trace elements and ash that may accelerate the deactivation. Biofuels are solid or liquid fuels that are made from renewable biological sources. In this thesis some information from power plant and engine testing, as well as laboratory scale testing is gathered in order to understand the deactivation process.
Potassium has the strongest deactivation effect by itself and with other components. Sodium, calcium, magnesium and phosphorus are also found to be harmful, but their effects are more dependent on the compound and the presence of other poisons. Basically all alkaline and earth alkaline metals are harmful. The main reason for deactivation is the aerosol poisoning that chemically decreases the ammonia absorption on the catalyst surface. The less ammonia is absorbed the less conversion will happen inside the catalyst. Pore blocking and blocking the inlet of the catalyst by ash are much less harmful deactivation methods.fi=Opinnäytetyö kokotekstinä PDF-muodossa.|en=Thesis fulltext in PDF format.|sv=Lärdomsprov tillgängligt som fulltext i PDF-format
