燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2014年
5期
635-640
,共6页
张力%刘建军%杨仲卿%郑世伟
張力%劉建軍%楊仲卿%鄭世偉
장력%류건군%양중경%정세위
Cu/γ-Al2 O3催化剂%低浓度甲烷%催化燃烧%SO2%硫中毒
Cu/γ-Al2 O3催化劑%低濃度甲烷%催化燃燒%SO2%硫中毒
Cu/γ-Al2 O3최화제%저농도갑완%최화연소%SO2%류중독
Cu/γ-Al2 O3 catalysts%low concentration methane%catalytic combustion%SO2%sulfur poisoning
采用浸渍法制备了质量分数11.32%Cu/γ-Al2 O3催化剂,采用固定床反应器,考察了SO2浓度(0~0.02%)对低浓度甲烷(体积分数,3%)催化燃烧特性的影响,通过反应前后催化剂的微观结构及化学成分检测,结合理论分析,探讨了催化反应的硫中毒原因。研究表明,SO2的通入导致了Cu/γ-Al2 O3催化剂活性及稳定性的降低,在同一反应温度下,甲烷转化率随着SO2浓度的增加而下降。 SEM、EDS、FT-IR、XRD表征结果表明,SO2会导致Cu/γ-Al2 O3催化剂表面出现结块现象,催化剂表面有硫元素的累积,且以硫酸盐的形式存在,其主要成分为硫酸铜( CuSO4)。在富氧条件下,S O2分子及氧离子在Cu2+上吸附所形成的硫酸铜,附着在催化剂表面,形成一层坚硬的外壳,是产生硫中毒现象的根本原因。
採用浸漬法製備瞭質量分數11.32%Cu/γ-Al2 O3催化劑,採用固定床反應器,攷察瞭SO2濃度(0~0.02%)對低濃度甲烷(體積分數,3%)催化燃燒特性的影響,通過反應前後催化劑的微觀結構及化學成分檢測,結閤理論分析,探討瞭催化反應的硫中毒原因。研究錶明,SO2的通入導緻瞭Cu/γ-Al2 O3催化劑活性及穩定性的降低,在同一反應溫度下,甲烷轉化率隨著SO2濃度的增加而下降。 SEM、EDS、FT-IR、XRD錶徵結果錶明,SO2會導緻Cu/γ-Al2 O3催化劑錶麵齣現結塊現象,催化劑錶麵有硫元素的纍積,且以硫痠鹽的形式存在,其主要成分為硫痠銅( CuSO4)。在富氧條件下,S O2分子及氧離子在Cu2+上吸附所形成的硫痠銅,附著在催化劑錶麵,形成一層堅硬的外殼,是產生硫中毒現象的根本原因。
채용침지법제비료질량분수11.32%Cu/γ-Al2 O3최화제,채용고정상반응기,고찰료SO2농도(0~0.02%)대저농도갑완(체적분수,3%)최화연소특성적영향,통과반응전후최화제적미관결구급화학성분검측,결합이론분석,탐토료최화반응적류중독원인。연구표명,SO2적통입도치료Cu/γ-Al2 O3최화제활성급은정성적강저,재동일반응온도하,갑완전화솔수착SO2농도적증가이하강。 SEM、EDS、FT-IR、XRD표정결과표명,SO2회도치Cu/γ-Al2 O3최화제표면출현결괴현상,최화제표면유류원소적루적,차이류산염적형식존재,기주요성분위류산동( CuSO4)。재부양조건하,S O2분자급양리자재Cu2+상흡부소형성적류산동,부착재최화제표면,형성일층견경적외각,시산생류중독현상적근본원인。
The Cuγ/-Al2 O3 catalysts with 11.32% copper contents prepared by the incipient wetness im preng ation were tested in a fixed bed reactor.The effects of SO2 concentration ( 0 ~0.02%) on the combustion characteristic and stability of low concentration methane( 3%) oev r Cu /γ-Al2 O3 catalysts were investigated.By the analysis of microstructure and chemical component of fresh and aged catalysts, the mechanism of sulfur poisoning in the catalytic reaction was discussed by combining with the theoretical analysis. The results show that the addition of SO2 in the feed gases leads to a decrease of activity na d stability of the catalysts.The methane conversoi n decreases rapidly with teh increasni g concentration of SO2 .The results of SEM, EDS, FT-IR and XRD reveal that the presence of SO2 in the feed gases can result in agglomeration and accumulation of sulfur on the surface of Cu/γ-Al2 O3 catalyst .Sulfur is in the form of sulfate, which mainly contains copper sulfate ( CuSO4 ) .Under the condition of oxygen enrichment, the copper sulfate produced by the absorption of SO2 and oxygen ions on Cu2+is attached to the surface of catalysts and forms a hard shell, which is the major reason for the sulfur poisoning.