安徽电气工程职业技术学院学报
安徽電氣工程職業技術學院學報
안휘전기공정직업기술학원학보
Journal of Anhui Electrical Engineering Professional Technique College
2015年
3期
74-77
,共4页
脱硝%板式催化剂%磨损%反应器结构
脫硝%闆式催化劑%磨損%反應器結構
탈초%판식최화제%마손%반응기결구
denitrification%board type catalyst%wear%reactor structure
针对马鞍山当涂电厂660MW机组脱硝SCR(选择性催化还原)板式催化剂发生局部严重磨损的现象,文章依据多次实际测量的数据进行对比分析,发现磨损呈现规律性分布,并且与脱硝反应器内部结构相关联. 通过冷态流场计算及灰场数值计算分析研究表明:催化剂局部严重磨损的主要原因是由于反应器的顶部梁结构布局不合理,造成烟气流量、流速分布不均,引起催化剂局部出现严重磨损. 针对这一原因,文章提出通过移除脱硝反应器上方的积灰三角以及改变喷氨烟道上方导流板的直径和角度等措施来改善脱硝反应器中烟气的流速分布. 数值模拟的计算结果表明,在相同的运行工况下,改善后的脱硝反应器中烟气流速的均匀性得到了显著的提高,有效抑制了催化剂局部出现严重磨损等不良现象的发生.
針對馬鞍山噹塗電廠660MW機組脫硝SCR(選擇性催化還原)闆式催化劑髮生跼部嚴重磨損的現象,文章依據多次實際測量的數據進行對比分析,髮現磨損呈現規律性分佈,併且與脫硝反應器內部結構相關聯. 通過冷態流場計算及灰場數值計算分析研究錶明:催化劑跼部嚴重磨損的主要原因是由于反應器的頂部樑結構佈跼不閤理,造成煙氣流量、流速分佈不均,引起催化劑跼部齣現嚴重磨損. 針對這一原因,文章提齣通過移除脫硝反應器上方的積灰三角以及改變噴氨煙道上方導流闆的直徑和角度等措施來改善脫硝反應器中煙氣的流速分佈. 數值模擬的計算結果錶明,在相同的運行工況下,改善後的脫硝反應器中煙氣流速的均勻性得到瞭顯著的提高,有效抑製瞭催化劑跼部齣現嚴重磨損等不良現象的髮生.
침대마안산당도전엄660MW궤조탈초SCR(선택성최화환원)판식최화제발생국부엄중마손적현상,문장의거다차실제측량적수거진행대비분석,발현마손정현규률성분포,병차여탈초반응기내부결구상관련. 통과랭태류장계산급회장수치계산분석연구표명:최화제국부엄중마손적주요원인시유우반응기적정부량결구포국불합리,조성연기류량、류속분포불균,인기최화제국부출현엄중마손. 침대저일원인,문장제출통과이제탈초반응기상방적적회삼각이급개변분안연도상방도류판적직경화각도등조시래개선탈초반응기중연기적류속분포. 수치모의적계산결과표명,재상동적운행공황하,개선후적탈초반응기중연기류속적균균성득도료현저적제고,유효억제료최화제국부출현엄중마손등불량현상적발생.
According to the local serious wear and tear occurred on a 660MW unit in a power plant deni-trification SCR ( selective catalytic reduction) plate catalyst, this paper collects the actual measurement data, and after comparing and analyzing many times, it is found that the wear issue is showed in regular distribution, and is associated with denitrification reactor in internal structure.Through the cold flow field calculation and ash field numerical analysis, the research shows that the main reason for partial severe wear of catalyst is because of the unreasonable top beam structure layout of reactor.Due to this reason, the flue gas flow is concentrated on front beam contributing to the quantity of flow concentrated and above the catalyst module the uneven gas velocity.Therefore, the local severe wear is caused in catalyst.For this reason, this article puts forward a plan to improve the velocity distribution of the flue gas in denitrifi-cation reactor by removing the triangle deposition on the top of the denitrification reactor and changing the diameter and angle of the guide plate on the top of spraying ammonia flu.Numerical simulation results show that under the same operating conditions, the uniformity of flow velocity in the flue gas denitrifica-tion reactor is significantly improved, and the catalyst local severe wear as well as other adverse reactions is effectively inhibited.