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        검색결과 4

        1.
        2016.09 KCI 등재 서비스 종료(열람 제한)
        Characteristics of the exhaust gas of a commercial scale (7.2 ton/day) municipal wastes incinerator with recirculation of its high temperature combustion gas were investigated. High temperature combustion gas made by incineration was entrained by an air jet and re-used for incineration. Air was preheated to 384-512oC and diluted to have an oxygen concentration of 16-17%. Incineration of municipal wastes with the preheated and diluted air made extremely uniform and stable flames. Concentrations of nitric oxide (NOx), carbon monoxide (CO), oxygen (O2), and carbon dioxide (CO2) in flue gas were measured at the boiler exit and the stack, simultaneously. Averaged concentrations of NOx and CO were reduced to 54.2 ppm and 3.1 ppm at the boiler exit and to 49.8 ppm and 6.0 ppm at the stack, respectively, at a reference oxygen concentration of 12% without any post treatment of NOx and when the averaged outlet temperature of the combustion chamber was 904oC. The measured NOx emission was only 29% of that of a conventional municipal incinerator. Simultaneous reduction of NOx and CO is significant. Averaged concentrations of O2 and CO2 were 9.7% and 8.6% at the boiler exit and 14.6% and 4.9% at the stack, respectively.
        2.
        2015.09 KCI 등재 서비스 종료(열람 제한)
        Characteristics of exhaust gas of solid refuse fuel (SRF) burning in a commercial scale of 12ton/day incinerator havebeen investigated. Combustion air for SRF burning is mixed with recirculated high temperature exhaust gas to diluteoxygen concentration and preheat itself. It is called high temperature EGR (Exhaust Gas Recirculation) combustion. Itis known that low oxygen concentration of diluted air reduces flame temperature and NOx emission, but also makes flameunstable. Highly heated air by mixing with high temperature exhaust gas makes flame stable by enhancement ofcombustion reaction. Concentrations of nitric oxide (NOx), carbon monoxide (CO), oxygen (O2) and carbon dioxide (CO2)in flue gas have been measured at stack. High temperature EGR incineration of SRF dramatically reduces nitric oxideemission and residual oxygen. Average concentrations of NOx, and CO are 71.5ppm and 86.6ppm especially at referenceoxygen concentration of 12% without any post treatment of NOx when the average outlet temperature of combustionchamber is 942oC. And average concentrations of O2 and CO2 are 9.59% and 8.3% especially.
        3.
        2014.01 KCI 등재 서비스 종료(열람 제한)
        Analyzing results of exhaust gas of solid fuel burning are investigated with measuring position in a pilot scale MILD(Moderate and Intense Low oxygen Dilution) combustor using high temperature exhaust gas recirculation. Flue gas hasbeen measured at exit of combustion chamber and stack, especially. Oxygen concentration measured at stack is higherand carbon dioxide concentration is lower than that measured at exit of combustion chamber, because air flows into theflue gas from the post-treatment facilities, such as gas cooler and bag filter, due to negative pressure caused by inducedblower. Low carbon dioxide concentration can cause an error which estimates higher air ratio than actual air flow rateneeded for complete combustion. Average calculated concentration of measured nitric oxide and carbon monoxide forreference concentration of 6% oxygen have no notable difference with measuring position. But, time resolution of thedata measured at exit of combustion chamber is better than that measured at stack. It is confirmed that MILD combustionof solid fuel of pulverized coal using high temperature exhaust gas recirculation can reduce dramatically nitric oxideemission.
        4.
        2013.01 KCI 등재 서비스 종료(열람 제한)
        MILD (Moderate and Intense Low oxygen Dilution) combustion using high temperature exhaust gas recirculation is applied to solid fuels of dried sewage sludge and pulverized coal combustion to investigate the effect of reduction of NOx emission in a pilot scale combustor. High temperature exhaust gas recirculation is accomplished by entraining high temperature exhaust gas to air jets at just exit of the combustion chamber without a heat exchanger. High temperature exhaust gas recirculation makes the solid fuel flame stable and extremely uniform color and uniform temperature distribution. NOx concentration at the combustor exit was 62% and 40% less in the high temperature exhaust recirculation MILD combustion compared with the conventional combustion using air jet only for sewage sludge and pulverized coal respectively.