石油化工
石油化工
석유화공
PETROCHEMICAL TECHNOLOGY
2009年
10期
1044-1047
,共4页
裂解碳五馏分%双烯烃%选择加氢%镍基催化剂
裂解碳五餾分%雙烯烴%選擇加氫%鎳基催化劑
렬해탄오류분%쌍희경%선택가경%얼기최화제
C_5 fraction from steam cracking%diolefins%selective hydrogenation%nickel catalyst
对裂解碳五馏分中双烯烃选择加氢为单烯烃的工艺及其催化剂进行了研究.采用鼓泡床反应器对制备的镍系催化剂进行了评价,考察了反应压力、液态空速、氢气与双烯烃的摩尔比和入口温度对镍系催化剂选择加氢性能的影响.实验结果表明,在人口温度为常温、反应压力1.5~3.0 MPa、氢气与双烯烃的摩尔比1.5~1.9、液态空速2~4 h~(-1)、返回物料与新鲜物料的体积比为3的工艺条件下,加氢后物料中双烯烃的质量分数小于0.5%,双烯烃的转化率大于98%,单烯烃的选择性大于90%.经过1 000 h的催化剂稳定性实验考核表明,制备的镍系催化剂具有良好的稳定性;经加速失活后,再生后催化剂的性能基本恢复.
對裂解碳五餾分中雙烯烴選擇加氫為單烯烴的工藝及其催化劑進行瞭研究.採用鼓泡床反應器對製備的鎳繫催化劑進行瞭評價,攷察瞭反應壓力、液態空速、氫氣與雙烯烴的摩爾比和入口溫度對鎳繫催化劑選擇加氫性能的影響.實驗結果錶明,在人口溫度為常溫、反應壓力1.5~3.0 MPa、氫氣與雙烯烴的摩爾比1.5~1.9、液態空速2~4 h~(-1)、返迴物料與新鮮物料的體積比為3的工藝條件下,加氫後物料中雙烯烴的質量分數小于0.5%,雙烯烴的轉化率大于98%,單烯烴的選擇性大于90%.經過1 000 h的催化劑穩定性實驗攷覈錶明,製備的鎳繫催化劑具有良好的穩定性;經加速失活後,再生後催化劑的性能基本恢複.
대렬해탄오류분중쌍희경선택가경위단희경적공예급기최화제진행료연구.채용고포상반응기대제비적얼계최화제진행료평개,고찰료반응압력、액태공속、경기여쌍희경적마이비화입구온도대얼계최화제선택가경성능적영향.실험결과표명,재인구온도위상온、반응압력1.5~3.0 MPa、경기여쌍희경적마이비1.5~1.9、액태공속2~4 h~(-1)、반회물료여신선물료적체적비위3적공예조건하,가경후물료중쌍희경적질량분수소우0.5%,쌍희경적전화솔대우98%,단희경적선택성대우90%.경과1 000 h적최화제은정성실험고핵표명,제비적얼계최화제구유량호적은정성;경가속실활후,재생후최화제적성능기본회복.
For the sake of producing propylene and ethylene from steam cracking C_5 fraction, diolefins in C_5 fraction should be selectively hydrogenated to monoolefins in advance. The nickel catalyst used in the selective hydrogenation was prepared by isochoric impregnation and was evaluated in a bubbling-bed reactor. Effects of inlet temperature, reaction pressure, LHSV and mole ratio of hydrogen to diolefins On the selective hydrogenation were investigated. Under optimal conditions: ambient inlet temperature; pressure 1.5 - 3.0 Mpa, mole ratio of hydrogen to diolefins 1.5 - 1.9, LHSV 2 - 4 h~(-1) and volume ratio of recycled feedstock to fresh feedstock 3, the mass fraction of diolefins in the products was less than 0.5%, conversion of diolefines was more than 98% and the selectivity to monoolefins was more than 90%. The prepared catalyst is good in stability. After accelerated deactivation, the activity of regenerated catalyst can be basically recovered.
