化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
9期
3337-3344
,共8页
董冰岩%施志勇%何俊文%王晖%周海金%张鹏%聂亚林
董冰巖%施誌勇%何俊文%王暉%週海金%張鵬%聶亞林
동빙암%시지용%하준문%왕휘%주해금%장붕%섭아림
脉冲放电等离子体%TiO2-分子筛%催化剂%甲醛%协同作用
脈遲放電等離子體%TiO2-分子篩%催化劑%甲醛%協同作用
맥충방전등리자체%TiO2-분자사%최화제%갑철%협동작용
pulse discharge plasma%TiO2-molecular sieve%catalyst%formaldehyde%synergistic effect
为进一步提高脉冲放电等离子降解甲醛的效率,增加CO2选择性,降低O3产生量,研究采用放电等离子体和催化剂协同技术.实验以分子筛为载体,分别制备了Mn/TiO2-分子筛、Fe/TiO2-分子筛和Cu/TiO2-分子筛3种催化剂,并利用 XRD、SEM、EDS、FT-IR 方法对催化剂进行表征分析.进行了脉冲放电等离子体协同 3 种催化剂降解甲醛的研究,比较了不同催化剂协同等离子体对甲醛去除率、CO2选择性、O3产生量的影响.结果表明,3 种催化剂与脉冲放电等离子体都存在协同作用,并能有效地提高甲醛去除率,增加 CO2选择性,降低O3产生量.当脉冲电压为20kV、放电频率为40Hz、气体流量为0.5L/min时,Mn/TiO2-分子筛催化剂协同效果最佳,甲醛去除率为94.4%,CO2选择性为42.2%.催化剂表征结果显示Mn/TiO2-分子筛的活性组分颗粒分布均匀,锐钛矿相的 TiO2 和微晶状态的 MnOx 的存在有效促进了甲醛的氧化分解.研究还对放电等离子体协同Mn/TiO2-分子筛催化剂降解甲醛的机理进行了探讨.
為進一步提高脈遲放電等離子降解甲醛的效率,增加CO2選擇性,降低O3產生量,研究採用放電等離子體和催化劑協同技術.實驗以分子篩為載體,分彆製備瞭Mn/TiO2-分子篩、Fe/TiO2-分子篩和Cu/TiO2-分子篩3種催化劑,併利用 XRD、SEM、EDS、FT-IR 方法對催化劑進行錶徵分析.進行瞭脈遲放電等離子體協同 3 種催化劑降解甲醛的研究,比較瞭不同催化劑協同等離子體對甲醛去除率、CO2選擇性、O3產生量的影響.結果錶明,3 種催化劑與脈遲放電等離子體都存在協同作用,併能有效地提高甲醛去除率,增加 CO2選擇性,降低O3產生量.噹脈遲電壓為20kV、放電頻率為40Hz、氣體流量為0.5L/min時,Mn/TiO2-分子篩催化劑協同效果最佳,甲醛去除率為94.4%,CO2選擇性為42.2%.催化劑錶徵結果顯示Mn/TiO2-分子篩的活性組分顆粒分佈均勻,銳鈦礦相的 TiO2 和微晶狀態的 MnOx 的存在有效促進瞭甲醛的氧化分解.研究還對放電等離子體協同Mn/TiO2-分子篩催化劑降解甲醛的機理進行瞭探討.
위진일보제고맥충방전등리자강해갑철적효솔,증가CO2선택성,강저O3산생량,연구채용방전등리자체화최화제협동기술.실험이분자사위재체,분별제비료Mn/TiO2-분자사、Fe/TiO2-분자사화Cu/TiO2-분자사3충최화제,병이용 XRD、SEM、EDS、FT-IR 방법대최화제진행표정분석.진행료맥충방전등리자체협동 3 충최화제강해갑철적연구,비교료불동최화제협동등리자체대갑철거제솔、CO2선택성、O3산생량적영향.결과표명,3 충최화제여맥충방전등리자체도존재협동작용,병능유효지제고갑철거제솔,증가 CO2선택성,강저O3산생량.당맥충전압위20kV、방전빈솔위40Hz、기체류량위0.5L/min시,Mn/TiO2-분자사최화제협동효과최가,갑철거제솔위94.4%,CO2선택성위42.2%.최화제표정결과현시Mn/TiO2-분자사적활성조분과립분포균균,예태광상적 TiO2 화미정상태적 MnOx 적존재유효촉진료갑철적양화분해.연구환대방전등리자체협동Mn/TiO2-분자사최화제강해갑철적궤리진행료탐토.
In order to further improve formaldehyde removal efficiency,increase carbon dioxide selectivity,and decrease the generation concentration of ozone in pulse discharge plasma,a method of discharge plasma combined with catalysts was adopted in this research. Molecular sieve was used as carrier,then three catalysts were prepared,i.e. Mn/TiO2-molecular sieve,Fe/TiO2-molecular sieve and Cu/TiO2-molecular sieve catalysts,which were characterized by XRD,SEM,EDS and FT-IR. Decomposition of formaldehyde in pulse discharge plasma combined with three catalysts was studied. Effects of plasma combined with different catalysts on formaldehyde removal efficiency,carbon dioxide selectivity and generation concentration of ozone were compared. The results showed that catalysts have synergistic effects on pulse discharge plasma. It could improve formaldehyde removal efficiency,increase carbon dioxide selectivity,and decrease generation concentration of ozone efficiently. Mn/TiO2-molecular sieve catalyst has the best synergistic effect with the impulse voltage of 20kV,the frequency of 40Hz and the gas flow rate of 0.5L/min,i.e. its formaldehyde removal efficiency achieved 94.4% and carbon dioxide selectivity achieved 42.2%. Characterization results showed that Mn/TiO2-molecular sieve catalyst uniform dispersion of active ingredients is as well as the existence of anatase TiO2,and microcrystalline state MnOx increased the oxidation of formaldehyde decomposition. Meanwhile,the mechanism of degrading formaldehyde in discharge plasma combined with Mn/TiO2-molecular sieve catalyst was also discussed.
