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역방향 2차 공기 주입 방식을 적용한 소각 연소로의 Thermal NOx 및 CO 배출특성에 대한 축소모형실험 연구
최종균(Chonggun Choi),최우성(Woosung Choi),신동훈(Donghoon Shin) 대한기계학회 2016 大韓機械學會論文集B Vol.40 No.8
일반적으로 연소로는 연료의 연소과정에서 NOx, CO등의 공해물질을 배출한다. 본 연구는 소각연소로를 대상으로 2차 공기를 연소가스 흐름의 역방향으로 주입시키는 방법의 NOx 및 CO 배출특성에 대한 연구를 수행하였다. 연구의 주요변수는 1, 2차 공기의 유량비와 2차 공기의 투입 방향으로 설정하였다. 변수에 따른 NOx 및 CO 배출특성을 묘사하기 위해서 축소모형실험 연구를 수행하였다. 실험결과 1차 공기유량이 감소하고 2차 공기유량이 증가할수록 NOx가 감소되다가 일정 유량비 이상에서 다시 NOx가 다소 증가하는 형태가 나타났다. 역방향으로 빠른 유속의 2차 공기가 투입될 때 연소로 내부에 유동 재순환이 발생하여 혼합이 증가하고 이로 인해서 온도 영역이 고르게 분포되는 것으로 나타났으며 그 결과로서 thermal NOx의 저감 효과를 확인할 수 있었다. CO는 2차 공기가 역방향에서 높은 비율로 투입되는 조건이외에서는 측정되지 않았다. 측정된 경우도 CO의 농도는 2 ppm 이내로 안정적인 연소 조건으로 나타났다. Incinerators generally emit pollutants such as NOx and CO during the combustion process. In this paper, pollutant emissions and temperature distributions were studied in a simulated incinerator with a reversed (relative to the flue gas flow) secondary air injection system. The experiments were performed by using a lab-scale furnace in order to evaluate the effects of the injection location, direction and flow rate of secondary air jets. The emission of NOx was lower in the case of reversed secondary air injection than in the case of cross injection, due to the recirculation and mixing of the exhaust gas. In the reversed air injection cases, thermal NOx emissions decreased as secondary air ratio increased from 30 to 60 and slightly increased at secondary air ratios higher than 60. In most cases, CO emissions were not detected except for a few reversed secondary air injection cases, in which cases CO concentrations below 2ppm were observed.
최종균,황승식,최규홍,CHOI, CHONGGUN,HWANG, SEUNG-SIK,CHOI, GYU-HONG 한국수소및신에너지학회 2018 한국수소 및 신에너지학회논문집 Vol.29 No.4
Fuel cells are known as eco - friendly energy facilities that can use heat energy and electric energy at the same time. Fuel cells are classified according to the temperature and material used, and solid oxide fuel cell (SOFC) is relatively high temperature ($700-800^{\circ}C$). SOFC requires a hot box consisting of a high temperature stack, a reformer, a burner, and the heat exchangers in order to use energy efficiently. The hot box needs to maintain heat insulation performance at high temperature to reduce heat loss. However, Fibrous insulation, which is widely used, needs to be improved because it has a disadvantage that the thermal conductivity is rapidly increased due to the increase of temperature. Therefore, this study was carried out to develop a thermal insulation, which is applied to multiple layers insulation (MLI) technic, that can be used under SOFC operating conditions and prevent a drastic drop in thermal conductivity at high temperature. The developed insulation is consist of a thermally conductive material, a spacer, and a reflective plate. The thermal conductivity of the insulation was measured by in the thermal conductivity measuring device at high temperature range. As a result, it was confirmed that the developed layers insulation have an good thermal conductivity (0.116 W/mK) than fibrous insulation (0.24 W/mK) as a radiation shielding effect at a high temperature of 1,173 K.