机械工程学报
機械工程學報
궤계공정학보
Journal of Mechanical Engineering
2015年
18期
167-174
,共8页
钟亚峰%孙保民%赵晓山%汪涛%康志忠
鐘亞峰%孫保民%趙曉山%汪濤%康誌忠
종아봉%손보민%조효산%왕도%강지충
数值模拟%空间分布%燃尽风率%燃料型NOx%热力型NOx
數值模擬%空間分佈%燃儘風率%燃料型NOx%熱力型NOx
수치모의%공간분포%연진풍솔%연료형NOx%열력형NOx
numerical simulation%spatial distribution%overfire air rate%fuel NOx%thermal NOx
运用CFD软件模拟不同燃尽风率下炉内NOx生成特性,根据相应的煤质选择了合适的NOx模型,模拟的结果能够较好地与改造前后的实测数据吻合,验证了模型的准确性。在该数值模型的基础上,针对不同燃尽风率的模拟结果进行分析,阐述NOx的生成特性在不同燃尽风率下的变化。结果表明,空间分布法能够详细地描述炉内燃烧状况及NOx生成。燃尽风率的变化对挥发分的析出影响较小。高燃尽风率使得主燃区缺氧程度加深,焦炭的燃尽会被推迟,主燃区还原性气氛得到增强,主燃区燃料型和热力型 NOx的生成速率均有所下降,NOx浓度得以降低。但主燃区剩余未完全燃烧物质及焦炭推迟燃尽使得在燃尽区有更多 HCN 被氧化产生燃料型 NOx,使得最高燃尽风率下炉膛出口的 NOx浓度不一定达到最低。控制出口NOx的浓度主要是根据煤质合理选择燃尽风率,控制主燃区燃料型NOx的生成和燃尽区燃料型NOx的反弹。
運用CFD軟件模擬不同燃儘風率下爐內NOx生成特性,根據相應的煤質選擇瞭閤適的NOx模型,模擬的結果能夠較好地與改造前後的實測數據吻閤,驗證瞭模型的準確性。在該數值模型的基礎上,針對不同燃儘風率的模擬結果進行分析,闡述NOx的生成特性在不同燃儘風率下的變化。結果錶明,空間分佈法能夠詳細地描述爐內燃燒狀況及NOx生成。燃儘風率的變化對揮髮分的析齣影響較小。高燃儘風率使得主燃區缺氧程度加深,焦炭的燃儘會被推遲,主燃區還原性氣氛得到增彊,主燃區燃料型和熱力型 NOx的生成速率均有所下降,NOx濃度得以降低。但主燃區剩餘未完全燃燒物質及焦炭推遲燃儘使得在燃儘區有更多 HCN 被氧化產生燃料型 NOx,使得最高燃儘風率下爐膛齣口的 NOx濃度不一定達到最低。控製齣口NOx的濃度主要是根據煤質閤理選擇燃儘風率,控製主燃區燃料型NOx的生成和燃儘區燃料型NOx的反彈。
운용CFD연건모의불동연진풍솔하로내NOx생성특성,근거상응적매질선택료합괄적NOx모형,모의적결과능구교호지여개조전후적실측수거문합,험증료모형적준학성。재해수치모형적기출상,침대불동연진풍솔적모의결과진행분석,천술NOx적생성특성재불동연진풍솔하적변화。결과표명,공간분포법능구상세지묘술로내연소상황급NOx생성。연진풍솔적변화대휘발분적석출영향교소。고연진풍솔사득주연구결양정도가심,초탄적연진회피추지,주연구환원성기분득도증강,주연구연료형화열력형 NOx적생성속솔균유소하강,NOx농도득이강저。단주연구잉여미완전연소물질급초탄추지연진사득재연진구유경다 HCN 피양화산생연료형 NOx,사득최고연진풍솔하로당출구적 NOx농도불일정체도최저。공제출구NOx적농도주요시근거매질합리선택연진풍솔,공제주연구연료형NOx적생성화연진구연료형NOx적반탄。
Using CFD software to simulate different rates of overfire air NOx formation characteristics in furnance. According to the characteristics of the coal, select the appropriate NOx model. The simulation shows that the date can be consistent with the measured before and after transformation. It verifies the accuracy of the model. Base on this numerical model, a method called spatial distribution is used to analyze the results of different rates of overfire air by simulating. Describes the characteristics of NOx formation at different rate of overfire air. The results show that the spatial distribution method can describe the combustion conditions in the furnance and NOx formation in detail. Changing overfire air rate have a less affected on volatile release. In a high overfire air rate, the coke burn out will be postponed and the reducing atmosphere will be enhanced. In the primary combustion zone, the fuel and thermal NOx rates has declined. NOx concentration is reduced. But the unburned substances and the coke delays burn out makes more HCN to be oxidized to produce fuel NOx. This makes under the highest rate overfire air the furnace exit NOx concentration does not reach the minimum. The main idea to control export concentration of NOxis to choose a overfire air rate based on the characteristics of the coal so that can control the formation of fuel NOx in the main combustion zone and rebound in the burnout zone.