燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2007年
1期
51-55
,共5页
令狐文生%黎晓红%藤元薰
令狐文生%黎曉紅%籐元薰
령호문생%려효홍%등원훈
费托合成%超临界%近临界%溶剂%钴催化剂
費託閤成%超臨界%近臨界%溶劑%鈷催化劑
비탁합성%초림계%근림계%용제%고최화제
Fischer-Tropsch synthesis%supercritcal and near-critical conditions%solvent%cobalt catalyst
研究了超临界和近临界条件下费托合成过程中溶剂对反应行为的影响.反应在固定床反应器中进行,催化剂为Co/SiO2,所选择的溶剂有两类:纯溶剂(正戊烷和正己烷)和混和溶剂(由正己烷和少量的C5~10烃组成).结果表明,正己烷分压对CO转化率影响很小,但是产物中1-烯烃含量随正己烷分压增加而增加,超临界条件下1-烯烃含量明显高于非临界条件下.溶剂的种类对CO转化率、CH4和CO2选择性以及产物炭分布影响不大.这一结果表明为了减少溶剂用量,对含有适量轻组分(C5~10)的正己烷溶剂进行循环使用是可行的.结果同时表明与正己烷相比,混和溶剂(25%正己烷和75%正葵烷)具有较高的1-烯烃选择性.
研究瞭超臨界和近臨界條件下費託閤成過程中溶劑對反應行為的影響.反應在固定床反應器中進行,催化劑為Co/SiO2,所選擇的溶劑有兩類:純溶劑(正戊烷和正己烷)和混和溶劑(由正己烷和少量的C5~10烴組成).結果錶明,正己烷分壓對CO轉化率影響很小,但是產物中1-烯烴含量隨正己烷分壓增加而增加,超臨界條件下1-烯烴含量明顯高于非臨界條件下.溶劑的種類對CO轉化率、CH4和CO2選擇性以及產物炭分佈影響不大.這一結果錶明為瞭減少溶劑用量,對含有適量輕組分(C5~10)的正己烷溶劑進行循環使用是可行的.結果同時錶明與正己烷相比,混和溶劑(25%正己烷和75%正葵烷)具有較高的1-烯烴選擇性.
연구료초림계화근림계조건하비탁합성과정중용제대반응행위적영향.반응재고정상반응기중진행,최화제위Co/SiO2,소선택적용제유량류:순용제(정무완화정기완)화혼화용제(유정기완화소량적C5~10경조성).결과표명,정기완분압대CO전화솔영향흔소,단시산물중1-희경함량수정기완분압증가이증가,초림계조건하1-희경함량명현고우비림계조건하.용제적충류대CO전화솔、CH4화CO2선택성이급산물탄분포영향불대.저일결과표명위료감소용제용량,대함유괄량경조분(C5~10)적정기완용제진행순배사용시가행적.결과동시표명여정기완상비,혼화용제(25%정기완화75%정규완)구유교고적1-희경선택성.
The effect of solvents on the reaction performance of Fischer-Tropsch synthesis under supercritcal and nearcritical conditions was studied in a fixed bed reactor. Two kinds of solvents: pure solvents ( n-hexane and n-pentane)and mixed solvents (the solvent consists mostly of n-hexane and some content of C5 to C10 normal paraffins and normal olefins) were chosen as the solvent. The catalyst used was a SiO2 supported cobalt catalyst. The results showed that the partial pressure of n-hexane had little influence on the CO conversion when total pressure and syngas partial pressure were kept constant. 1-olefins content in the products, however, increased with increasing partial pressures of n-hexane. 1-olefins content in the products under supercritical condition was obviously higher than that under non-supercritical conditions. Similar CO conversion, CH4 and CO2 selectivities and hydrocarbon distribution were obtained in different pure media: n-pentane and n-hexane. 1-olefins content in n-pentane was slightly lower than that in n-hexane. Compared with pure n-hexane solvent, the solvent with mainly n-hexane and some C5 ~ 10 components had similar effects on CO conversion, CH4 and CO2 selectivities, and hydrocarbon selectivity of the products. This result suggested that the recycle of the supercritcal solvent contained some content of lighter fractions ( such as C5 ~ 10 ) produced in the FT process is possible for reducing the amount of supercritical solvent during supercritical FT process. The binary mixed solvent (25 % n-hexane/75% n-decane) showed much higher 1-olefins selectivity than the pure n-hexane probably because of its higher solubility t heavier products.