Abstract
In the article discusses the features of constructive solutions accepted in the burner devices and chambers of boiler units, which were used both when converting solid fuel boilers to natural gas, and creating new designs of gas boiler units. The works to reduce nitrogen oxide emissions at the Gas Institute of the National Academy of Sciences of Ukraine began in the 1960s and by 1971 significant results had been achieved was shown. The main methods and technical solutions that are used to reduce emissions of nitrogen oxides during the combustion of natural gas in boilers of various capacities, including 300 MW power units, are considered. The principal design of a two-stage burner, which are operated in an amount of more than 2000 units in Ukraine and the CIS countries is presented. The installed two-stage burner devices for combustion of natural gas require immediate reconstruction with bringing their indicators to the calculated ones at the first stage. The modernization of the exist ing two-stage burners is possible to achieve the readings of the EU emissions directive 2010/75/EU was shown. The most promising technologies for further reducing the level of nitrogen oxide emissions less than 100 mg/Nm3 (3% O2, dry gases) when burning natural gas were shown. Bibl. 38, Fig.4, Tab. 1.
Highlights
Ñîâðåìåííûå òåíäåíöèè è íåêîòîðûå íîâûå òåõíîëîãèè ñíèæåíèÿ âûáðîñîâ NOx Åâðîïåéñêîì Ñîþçå è äðóãèõ âûñîêîðàçâèòûõ ñòðàíàõ çàäà÷è ïî óìåíüøåíèþ çàãðÿçíåíèÿ àòìîñôåðíîãî âîçäóõà îòíîñÿòñÿ ê ñàìûì ïðèîðèòåòíûì.
 òî æå âðåìÿ, êàê áûëî óêàçàíî âûøå, ïðåâûøåíèå äîïóñòèìîé êîíöåíòðàöèè îêñèäîâ àçîòà â àòìîñôåðíîì âîçäóõå â ãîðîäàõ Åâðîïû, â òîì ÷èñëå Óêðàèíû, ÿâëÿåòñÿ ðÿäîâûì ÿâëåíèåì.
Óæåñòî÷àþòñÿ íîðìû âûáðîñîâ ïî îêñèäàì àçîòà ïðè ñæèãàíèè âñåõ òîïëèâ, â ÷àñòíîñòè, ïðè ñæèãàíèè ïðèðîäíîãî ãàçà äëÿ íîâûõ êîòëîâ ñðåäíåé ìîùíîñòè ââåäåíî æåñòêîå îãðàíè÷åíèå íà óäåëüíóþ êîíöåíòðàöèþ îêñèäîâ àçîòà â äûìîâûõ ãàçàõ íà óðîâíå íå âûøå 100 ìã/íì (3 % Î2, ñóõèå ãàçû) [32, 33].
Summary
 Åâðîïåéñêîì Ñîþçå è äðóãèõ âûñîêîðàçâèòûõ ñòðàíàõ çàäà÷è ïî óìåíüøåíèþ çàãðÿçíåíèÿ àòìîñôåðíîãî âîçäóõà îòíîñÿòñÿ ê ñàìûì ïðèîðèòåòíûì.  òî æå âðåìÿ, êàê áûëî óêàçàíî âûøå, ïðåâûøåíèå äîïóñòèìîé êîíöåíòðàöèè îêñèäîâ àçîòà â àòìîñôåðíîì âîçäóõå â ãîðîäàõ Åâðîïû, â òîì ÷èñëå Óêðàèíû, ÿâëÿåòñÿ ðÿäîâûì ÿâëåíèåì. Óæåñòî÷àþòñÿ íîðìû âûáðîñîâ ïî îêñèäàì àçîòà ïðè ñæèãàíèè âñåõ òîïëèâ, â ÷àñòíîñòè, ïðè ñæèãàíèè ïðèðîäíîãî ãàçà äëÿ íîâûõ êîòëîâ ñðåäíåé ìîùíîñòè ââåäåíî æåñòêîå îãðàíè÷åíèå íà óäåëüíóþ êîíöåíòðàöèþ îêñèäîâ àçîòà â äûìîâûõ ãàçàõ íà óðîâíå íå âûøå 100 ìã/íì (3 % Î2, ñóõèå ãàçû) [32, 33]. Åâðîïåéñêèå íîðìû ïî âûáðîñàì NOx ïðè ñæèãàíèè ïðèðîäíîãî ãàçà â ñóùåñòâóþùèõ è íîâûõ òîïëèâîñæèãàþùèõ óñòàíîâêàõ (ÒÑÓ) Óêðàèíû (ìîùíîñòü ÒÑÓ — ýòî ñóììà âõîäÿùèõ ìîùíîñòåé âñåõ êîòëîàãðåãàòîâ, ïîäêëþ÷åííûõ ê îäíîé äûìîâîé òðóáå) â çàâèñèìîñòè îò èõ âõîäÿùåé òåïëîâîé ìîùíîñòè (N) (Î2 = 3 %, Ð = = 101,325 êÏà, ñóõèå ãàçû) ïðèâåäåíû â òàáëèöå
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