Abstract
AbstractThe paper presents current reports on kinetics and mechanisms of reactions with mercury which take place in the exhaust gases, discharged from the processes of combustion of solid fuels (coals). The three main stages were considered. The first one, when thermal decomposition of Hg components takes place together with formation of elemental mercury (Hg0). The second one with homogeneous oxidation of Hg0to Hg2+by other active components of exhaust gases (e.g. HCl). The third one with heterogeneous reactions of gaseous mercury (the both - elemental and oxidised Hg) and solid particles of fl y ash, leading to generation of particulate-bound mercury (Hgp). Influence of exhaust components and their concentrations, temperature and retention time on the efficiency of mercury oxidation was determined. The issues concerning physical (gas-solid) and chemical speciation of mercury (fractionation Hg0-Hg2+) as well as factors which have influence on the mercury speciation in exhaust gases are discussed in detail.
Reference115 articles.
1. Mercury capture by fl y ash : study of the combustion of a high - mercury coal at a utility boiler;Sakulpitakphon;Energy Fuels,2000
2. of Ambient Mercury in the Upper Region Water Air Soil Pollution;Pyta,2009
3. Kinetic modeling of homogeneous mercury oxidation : the importance of NO and in predicting oxidation in coal - derived systems;Niksa;Environmental Science Technology,2001
4. The role of unburned carbon concentrates from fl y ashes in the oxidation and retention of mercury;Abad;Chemical Engineering Journal,2011
5. Retention of elemental mercury in fl y ashes in different atmospheres;López;Energy Fuels,2007
Cited by
7 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献