CAJ | 학술논문

氮氧化物种类繁多，本文重点分析了氮氧化物的转换效率问题，探究了样气出口露点稳定性和冷凝器除水能力。研究结果表明，对于NO2转换效率，碳炉催化器的最佳转换温度为230℃；钼炉催化器的最佳转换温度为400℃。最高样气露点随着环境温度升高（24-42℃），流量变化（1-3L/min）逐步降低。
담양화물충류번다，본문중점분석료담양화물적전환효솔문제，탐구료양기출구로점은정성화냉응기제수능력。연구결과표명，대우NO2전환효솔，탄로최화기적최가전환온도위230℃；목로최화기적최가전환온도위400℃。최고양기로점수착배경온도승고（24-42℃），류량변화（1-3L/min）축보강저。
Nitrogen oxides have a great variety, this paper analyzes the conversion efficiency of nitrogen oxides, and explores the sample gas outlet dew point stability and condenser water removal capacity. The results show that for NO2 conversion efficiency, optimum temperature is 230℃ catalyzed bycarbon catalytic oven; optimal transition temperature is 400℃ catalyzed by molybdenum furnace. Maximum sample gas dew point increases as the ambient temperature (24-42℃ ) rises, flow changes (1-3L/min) gradual y decreased.