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http://dx.doi.org/10.7464/ksct.2021.27.4.367

A Study on the Oxy-Combustion of the Coal in Drop Tube Furnace  

Roh, Seon Ah (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Yun, Jin Han (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Lee, Jung Kyu (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Keel, Sang In (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Min, Tai Jin (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Kim, Sang-Bok (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Park, In-Yong (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Han, Bangwoo (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Kim, Jin-Tae (Environment System Research Division, Korea Institute of Machinery and Materials (KIMM))
Publication Information
Clean Technology / v.27, no.4, 2021 , pp. 367-371 More about this Journal
Abstract
The oxy-combustion system is one of the carbon recovery and storage technologies (CCS: Carbon capture & storage) that performs coal combustion using pure oxygen and recirculated flue gas. This is a technology that facilitates storage of carbon dioxide by generating an exhaust gas consisting of only carbon dioxide without a process of separating carbon dioxide and nitrogen when coal is burned using pure oxygen and recirculated flue gas mixture instead of a conventional air combustion system that produces carbon dioxide and nitrogen mixed exhaust gas. In this study, the characteristics of generated NO and SO2 as atmospheric pollutants during oxy-combustion were examined using O2/CO2 mixed simulation gas. The reaction temperature was varied from 900 ℃ to 1200 ℃ and oxygen partial pressure was varied from 30% to 50%. The results showed that NO and SO2 concentrations in flue gas increased as the oxygen concentration and the reaction temperature in the furnace increased. The partial pressure of CO2 in flue gas also increased as the oxygen concentration and the reaction temperature in the furnace increased. As a results of comparing NO production of 30% O2/CO2 oxy-combustion with air combustion, NO in flue gas increased with reaction temperature in both experiments and NO of oxy-combustion was 40 ~ 80 ppm lower than that of air combustion.
Keywords
Oxy-combustion; Coal; NO; $SO_2$; $CO_2$;
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