两段式高温滴管炉内烟煤NO_x生成规律
NOx formation of bituminous coal in two-stage high-temperature dropper tube furnace
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摘要: 为了研究分级低氮燃烧技术主燃区温度及过量空气系数对氮氧化物排放的影响,以烟煤为研究对象,利用两段式高温滴管炉,对主燃区温度1 000~1 600℃的工况下NOx排放规律进行了研究。研究结果表明:主燃区温度在1 000~1 600℃时,过量空气系数从1.0增加到1.6,浓度随之升高。当过量空气系数大于1时,主燃区温度越高,NOx随过量空气系数增加的幅度就越小。在保证煤粉燃尽率的前提下,主燃区温度越高,所需过量空气系数越小,可以有效减少锅炉排烟热损失。主燃区温度为1 000~1 400℃,主燃区过量空气系数为0.786时,氮氧化物排放量最低。主燃区温度为1 500~1 600℃,主燃区过量空气系数为0.69时,氮氧化物排放量最低。主燃区温度从1 000℃升高到1 600℃时,NOx的脱除率从80%升高到96%,主燃区的温度和NOx的脱除率正相关。主燃区的温度为1 400~1 600℃时,随过量空气系数的增加,热力型NOx占总NOx的比例呈下降趋势。Abstract: The NOx emission of bituminous coal in the temperature range of 1 000-1 600 ℃ was studied with a two-stage dropper tube furnace at high temperature. The purpose is to study the effects of the temperature of primary combustion zone and excess air coefficient with staged low nitrogen combustion technology. The results show that NOx emission in- creases with the excess air ratio when the temperature of primary combustion zone is in the range of 1 000-1 600 ℃ . However,the increasing extent of NOx emission was reduced when the excess air ratio exceeds 1. This is of great impor- tance in the engineering practice. The excess air ratio required is becoming smaller with the increase of the temperature of primary combustion zone,and thus the waste heat loss will be reduced. When the temperature of primary combustion zone is in the range of 1 000-1 400 ℃ ,the optimal excess air ratio of primary combustion zone is 0. 786,while 0. 69 for the range of 1 500-1 600 ℃ . The removal rate of NOx increases from 80% to 96% when the temperature of primary combustion zone increases from 1 000 to 1 600 ℃ . There is a positive correlation between temperature of primary com- bustion zone and NOx removal rate. When the temperature of primary combustion zone is in the range of 1 400-1 600 ℃,the ratio of thermal NOx to the total NOx tends to decrease with the increase of excess air ratio.