东方电气评论
東方電氣評論
동방전기평론
Dongfang Electric Review
2015年
3期
14-19
,共6页
魏艳娜%张定海%冉燊铭%毛宇
魏豔娜%張定海%冉燊銘%毛宇
위염나%장정해%염신명%모우
选择性催化还原(SCR)%脱硝%CHEMKIN%CFD%过程模拟
選擇性催化還原(SCR)%脫硝%CHEMKIN%CFD%過程模擬
선택성최화환원(SCR)%탈초%CHEMKIN%CFD%과정모의
selective catalytic reduction( SCR)%denitration%CHEMKIN%CFD%process simulation
脱硝效率及氨逃逸是SCR脱硝装置的两项关键性能参数. 脱硝效率反映脱硝装置能否将氮氧化物控制在合适的范围内, 氨逃逸反映通过催化还原过程尾气中NH3的残留. SCR 烟气脱硝反应是一种复杂的气固非均相催化反应, 通过冷模试验耗时耗力且也无法准确预测脱硝效率及氨逃逸. 本文通过对气固非均相催化反应机理的研究, 确定计算参数, 并通过大量尝试计算, 明确CHEMKIN和CFD耦合催化反应机理计算SCR的步骤和方法; 并以工程为依托, 对SCR催化反应中影响脱硝效率及氨逃逸的各因素进行CHEMKIN计算、 CFD耦合CHEMKIN机理计算, 将结果与修正曲线、 现场试验进行相应的比较研究.
脫硝效率及氨逃逸是SCR脫硝裝置的兩項關鍵性能參數. 脫硝效率反映脫硝裝置能否將氮氧化物控製在閤適的範圍內, 氨逃逸反映通過催化還原過程尾氣中NH3的殘留. SCR 煙氣脫硝反應是一種複雜的氣固非均相催化反應, 通過冷模試驗耗時耗力且也無法準確預測脫硝效率及氨逃逸. 本文通過對氣固非均相催化反應機理的研究, 確定計算參數, 併通過大量嘗試計算, 明確CHEMKIN和CFD耦閤催化反應機理計算SCR的步驟和方法; 併以工程為依託, 對SCR催化反應中影響脫硝效率及氨逃逸的各因素進行CHEMKIN計算、 CFD耦閤CHEMKIN機理計算, 將結果與脩正麯線、 現場試驗進行相應的比較研究.
탈초효솔급안도일시SCR탈초장치적량항관건성능삼수. 탈초효솔반영탈초장치능부장담양화물공제재합괄적범위내, 안도일반영통과최화환원과정미기중NH3적잔류. SCR 연기탈초반응시일충복잡적기고비균상최화반응, 통과랭모시험모시모력차야무법준학예측탈초효솔급안도일. 본문통과대기고비균상최화반응궤리적연구, 학정계산삼수, 병통과대량상시계산, 명학CHEMKIN화CFD우합최화반응궤리계산SCR적보취화방법; 병이공정위의탁, 대SCR최화반응중영향탈초효솔급안도일적각인소진행CHEMKIN계산、 CFD우합CHEMKIN궤리계산, 장결과여수정곡선、 현장시험진행상응적비교연구.
Denitration efficiency and ammonia escape are the two core performance parameters of SCR-DeNOx system. The denitration efficiency reflects whether the denitration device can take control of nitrogen oxides in a proper range, while the ammonia escape reflects residue of NH3 in flue gas by catalytic reduction. SCR is a complex gas-solid heterogeneous catalytic reaction, using the cold test that is by time-consuming can not accurately predict denitration efficiency and ammonia escape rate. This paper, based on the study of gas-solid heterogeneous catalytic reaction mechanism, determines the calculation parameters, and through a large number of trial calculation, definitudes the steps and methods of CHEMKIN and CFD coupled catalytic reaction mechanism on SCR calculation. The theories have been applied in some projects, to calculate the affects of denitration efficiency and ammonia escape rate on SCR catalytic reactions with CHEMKIN calculation, CFD calculation of the coupling CHEMKIN mechanism, compare the results of correction curve and field tests.
