Showing papers on "Selective catalytic reduction published in 1972"

The reactions of organometallic compounds of transition metals with molecular nitrogen and carbon dioxide

Abstract: A development of organometallic chemistry has revealed wide possibilities for activating various unsaturated and saturated molecules for numerous novel reactions Many nitrogen fixating systems based on the low-valent transition metal derivatives and reducing agents have been discovered Depending on the reaction conditions, complexed nitrogen reduction occurs to form either hydrazine derivatives or ammonia An investigation of the nitrogen fixating systems involving Lewis acids, to regenerate the catalyst, has led to catalytic nitrogen fixation Nitrogen activated by complex formation with transition metal compounds is capable of insertion reactions into metal—carbon bonds to form organic amines In this connection the possibility arises of forming amines from the reaction of nitrogen with hydrocarbons in the presence of transition metal compounds Transition metal nitrogen compounds seem to be intermediates in the 'reverse' reactions as well, ie decompositions of nitrogencompounds with nitrogen evolution (Sandmeyer reaction, hydrazine oxidation etc) Unlike nitrogen, carbon dioxide is rather reactive and undergoes insertion reactions into non-transition metal-carbon boids Carbon dioxide also appeared to be capable of direct or indirect complex formation with low-valent transition metal compounds (Ru, Rh, Pt, etc) Investigation of the stability of such complexes permits novel synthetic and catalytic reactions to be found Thus the formation of Me—H bonds (eg in the formic acid decomposition with CO2 evolution) can be utilized for catalytic reduction of olefins and other unsaturated compounds by means of formic acid When the intermediate carbon dioxide complexes with Me—C bonds (carboxylates) are formed the competitive reaction occurs, ie olefin insertion into Me—H or Me—C bonds with elimination of the respective carboxylic acid Another interesting reaction, insertion of CO2 into Me—H or Me—C bonds, can follow either 'normal' (formation of a carbon-carbon' bond) or 'reverse' (formation of the metalloacid ester) pathways A development of organometallic chemistry has provided unusual possibilities for activating various unsaturated and saturated molecules and introducing them into the various reactions The present lecture deals with the problem of activation by transition 607

Control of nitrogen oxides emission from engines

Abstract: The emission of nitrogen oxides in engine exhaust gas is curtailed, by passing the engine exhaust gas through a catalyst bed for selective reduction of nitrogen oxides to nitrogen, and recycling a minor portion of the treated exhaust gas to the engine intake, so that the recycled exhaust gas is present during fuel combustion in the engine and nitrogen oxides formation is reduced.