农业工程学报
農業工程學報
농업공정학보
2014年
1期
146-153
,共8页
栾积毅%刘向东%武雪梅%翁志刚%邢蕾%郭有成
欒積毅%劉嚮東%武雪梅%翁誌剛%邢蕾%郭有成
란적의%류향동%무설매%옹지강%형뢰%곽유성
农业废弃物%脱硝%秸秆%再燃%影响因素
農業廢棄物%脫硝%秸稈%再燃%影響因素
농업폐기물%탈초%갈간%재연%영향인소
agricultural wastes%denitrification%straw%reburning%influencing factors
为了缓解化石能源的不足,开发生物质清洁高效燃烧的利用方式,采用农业废弃物(稻壳、秸秆)和R90煤粉作为再燃燃料在恒温沉降炉上进行再燃脱硝试验。针对燃料种类、化学计量比(stoichiometric ratio)、停留时间、燃料粒度、再燃比等因素对再燃脱硝效率的影响进行了研究。结果表明:农业废弃物(秸秆、稻壳)的再燃脱硝能力明显高于煤粉,其中秸秆再燃脱硝效率最高,稻壳再燃脱硝效率中等,煤粉最低,不同的挥发分含量是造成农业废弃物(秸秆、稻壳)与煤粉再燃脱硝率差别的最主要原因。再燃脱硝率随再燃区化学计量比(SR2)的提高逐渐降低。SR2增加,燃料热解析出的还原组分被氧竞争性地消耗,导致NO还原反应弱化,再燃脱硝率降低。SR2对农业废弃物秸秆和稻壳再燃脱硝率影响明显强于煤粉,再燃比20%工况,SR2从0.8增加到0.9,秸秆再燃脱硝率减少了20.12%,稻壳减少20.07%,煤粉减少了8.38%。燃料粒度的改变将影响颗粒的升温过程,在相同条件下,较细的燃料颗粒能更快速释放出更多的挥发分,可以提供再燃还原NO所需的更多的还原物质,对提高再燃脱硝率是有利的。再燃停留时间增加,在富燃料条件下再燃燃料与NO的反应时间延长,有利于NO消减。采用农业废弃物秸秆、稻壳作为作为再燃燃料,合理的再燃停留时间在600 ms以内,明显低于煤粉。通过调整再燃比可以获得适合的再燃脱硝率,农业废弃物秸秆、稻壳的合理再燃比在15%~20%之间。
為瞭緩解化石能源的不足,開髮生物質清潔高效燃燒的利用方式,採用農業廢棄物(稻殼、秸稈)和R90煤粉作為再燃燃料在恆溫沉降爐上進行再燃脫硝試驗。針對燃料種類、化學計量比(stoichiometric ratio)、停留時間、燃料粒度、再燃比等因素對再燃脫硝效率的影響進行瞭研究。結果錶明:農業廢棄物(秸稈、稻殼)的再燃脫硝能力明顯高于煤粉,其中秸稈再燃脫硝效率最高,稻殼再燃脫硝效率中等,煤粉最低,不同的揮髮分含量是造成農業廢棄物(秸稈、稻殼)與煤粉再燃脫硝率差彆的最主要原因。再燃脫硝率隨再燃區化學計量比(SR2)的提高逐漸降低。SR2增加,燃料熱解析齣的還原組分被氧競爭性地消耗,導緻NO還原反應弱化,再燃脫硝率降低。SR2對農業廢棄物秸稈和稻殼再燃脫硝率影響明顯彊于煤粉,再燃比20%工況,SR2從0.8增加到0.9,秸稈再燃脫硝率減少瞭20.12%,稻殼減少20.07%,煤粉減少瞭8.38%。燃料粒度的改變將影響顆粒的升溫過程,在相同條件下,較細的燃料顆粒能更快速釋放齣更多的揮髮分,可以提供再燃還原NO所需的更多的還原物質,對提高再燃脫硝率是有利的。再燃停留時間增加,在富燃料條件下再燃燃料與NO的反應時間延長,有利于NO消減。採用農業廢棄物秸稈、稻殼作為作為再燃燃料,閤理的再燃停留時間在600 ms以內,明顯低于煤粉。通過調整再燃比可以穫得適閤的再燃脫硝率,農業廢棄物秸稈、稻殼的閤理再燃比在15%~20%之間。
위료완해화석능원적불족,개발생물질청길고효연소적이용방식,채용농업폐기물(도각、갈간)화R90매분작위재연연료재항온침강로상진행재연탈초시험。침대연료충류、화학계량비(stoichiometric ratio)、정류시간、연료립도、재연비등인소대재연탈초효솔적영향진행료연구。결과표명:농업폐기물(갈간、도각)적재연탈초능력명현고우매분,기중갈간재연탈초효솔최고,도각재연탈초효솔중등,매분최저,불동적휘발분함량시조성농업폐기물(갈간、도각)여매분재연탈초솔차별적최주요원인。재연탈초솔수재연구화학계량비(SR2)적제고축점강저。SR2증가,연료열해석출적환원조분피양경쟁성지소모,도치NO환원반응약화,재연탈초솔강저。SR2대농업폐기물갈간화도각재연탈초솔영향명현강우매분,재연비20%공황,SR2종0.8증가도0.9,갈간재연탈초솔감소료20.12%,도각감소20.07%,매분감소료8.38%。연료립도적개변장영향과립적승온과정,재상동조건하,교세적연료과립능경쾌속석방출경다적휘발분,가이제공재연환원NO소수적경다적환원물질,대제고재연탈초솔시유리적。재연정류시간증가,재부연료조건하재연연료여NO적반응시간연장,유리우NO소감。채용농업폐기물갈간、도각작위작위재연연료,합리적재연정류시간재600 ms이내,명현저우매분。통과조정재연비가이획득괄합적재연탈초솔,농업폐기물갈간、도각적합리재연비재15%~20%지간。
In order to develop clean and efficient utilization technologies of biomass to supplement insufficient fossil energy, the reduction of NO was studied in a drop tube furnace (DTF) using rice husk, straw, and pulverized coal as reburning fuels. The impacts of fuel type, stoichiometric ratio (SR), reburning reaction temperature, residence time in the reburning-zone, the ratio of fuel particle size and reburning fuel on NO removal efficiency were analyzed in this study. The results indicated that NO reduction efficiency of biomass fuels such as rice husk, straw and sawdust of pine were higher than that of pulverized coal. The NO removal efficiency of straw and sawdust of pine was the highest, but the efficiency of the pulverized coal was the lowest among these three fuels. The composition of volatile components in different fuels had major impacts on the efficiency. NO removal efficiency was decreased with SR increasing in reburning zone. As SR was increased, reducing components released during the devolatilization were consumed by oxygen at the same time with NO reduction, which weakened the reduction reaction of NO. The SR had major impacts on the efficiency of NO reduction of agricultural wastes including rice husk and straw than that of the pulverized coal. For the test case of reburning ratio of 20%, the reduction efficiency of NO using straw and rice husk were decreased by 20.12%and 20.07%, respectively if the SR was increased from 0.8 to 0.9. It was decreased by 8.38%when using the pulverized coal. The sizes of fuel particles affect heating process. Under the same conditions, the fine fuel particles produced more volatile components and supplied more reducing matters of NO, which increased the reduction efficiency of NO. The increase of resistance time also increase the reaction time between reburning fuel and NO, which facilitated the NO reduction. By using straw and rice husk as reburning fuel, reasonable residence time was shorter than 600 ms, which is much lower than that of using the pulverized coal. Adjusting reburning ratio can attain appropriate reduction efficiency of NO. Reasonable reburning ratios of straw and rice husk were preferred to be between 15%-20%.
