Patent ID: 9314739
Filing Date: 2016-04-19
CPC Classification: B01D,F01N

Claim Text:
1. A process for denoxing carbon monoxide and gaseous organic substances containing flue gases by selective catalytic reduction of nitrogen oxides, which comprises the steps of: directing the flue gases in a first flow direction through at least a first channel and a second channel, the first channel having at least a first and a second heat storage module and the second channel having at least a third and a fourth heat storage module, the first and second heat storage modules being sequentially disposed in the first channel and the third and fourth heat storage module being sequentially disposed in the second channel; performing the selective catalytic reduction of the nitrogen oxides in a first catalyzer disposed between the first and second heat storage modules in the first channel and in a second catalyzer disposed between the third and fourth heat storage modules in the second channel; prior to the selective catalytic reduction in the first catalyzer, heating the flue gases in the first heat storage module by heat exchange with a recovered residual heat of denoxed flue gases to a reaction temperature of 160° C. to 500° C.; after the selective catalytic reduction in the first catalyzer, heating the flue gases in the second storage module by heat exchange to increase the flue gas temperature for subsequent regenerative post-combustion of the carbon monoxide and the gaseous organic substances contained in the flue gases; partially compensating for heat displacement losses from the heat exchange by regenerative post-combustion of the carbon monoxide and the gaseous organic substances contained in the flue gases at combustion temperatures from 750° to 900° C. in a space disposed between the first and second channels, wherein additional nitrogen oxides are created during the regenerative post-combination and the additional nitrogen oxides and the nitrogen oxides contained in the flue gases are subjected to the selective catalytic reduction in the first and second catalyzers; and alternating a reversal of the flow direction of the flue gases through the first and second channels and the space between the first and second channels.