"The actual emission limit of nitrogen oxides arising from large point sources (e.g. power plants and heating plants) is 500 mg/m3 NO2. The limit is supposed to be made more restrictive until July, 2020 and will be reduced to 200 mg/m3 NO2. In case this limit can not be met by primary denitrification (by low-emission burners installation), the incorporation of methods of primary denitrification and selective non-catalytic reduction of NOx, which is economically acceptable, could be considered."@en . "Mikulov" . . "2"^^ . "1"^^ . "Kinetic model of formation and non-catalyc reduction of NOx" . . "82653" . . "Kinetic model of formation and non-catalyc reduction of NOx" . "kinetic model; nitrogen oxides; emission limit"@en . "[077F2229C412]" . "Kinetic model of formation and non-catalyc reduction of NOx"@en . "Macha\u010D, Pavel" . "V" . . "4"^^ . "\u010Cesk\u00E1 spole\u010Dnost pr\u016Fmyslov\u00E9 chemie - GS" . . . . . . "2013-04-08+02:00"^^ . "Zl\u00EDn" . "Kinetic model of formation and non-catalyc reduction of NOx"@en . "978-80-86238-37-1" . "International Conference on Chemical Technology - ICCT 2013" . "RIV/60461373:22310/13:43895596" . . . "F\u00EDla, Vlastimil" . . "The actual emission limit of nitrogen oxides arising from large point sources (e.g. power plants and heating plants) is 500 mg/m3 NO2. The limit is supposed to be made more restrictive until July, 2020 and will be reduced to 200 mg/m3 NO2. In case this limit can not be met by primary denitrification (by low-emission burners installation), the incorporation of methods of primary denitrification and selective non-catalytic reduction of NOx, which is economically acceptable, could be considered." . . . "RIV/60461373:22310/13:43895596!RIV14-MSM-22310___" . "22310" . . .