石油化工高等学校学报
石油化工高等學校學報
석유화공고등학교학보
JOURNAL OF PETROCHEMICAL UNIVERSITIES
2014年
5期
7-11
,共5页
魏建明%杜峰%张新功%陈小博%赵辉%崔祥勇
魏建明%杜峰%張新功%陳小博%趙輝%崔祥勇
위건명%두봉%장신공%진소박%조휘%최상용
焦化蜡油%糠醛抽提%催化裂化%组合工艺
焦化蠟油%糠醛抽提%催化裂化%組閤工藝
초화사유%강철추제%최화열화%조합공예
Coking gas oil%Furfural extraction%Catalytic cracking%Integrated processing
为合理利用青岛炼化的焦化蜡油,开展了糠醛抽提-催化裂化组合工艺的实验室研究。糠醛抽提试验结果表明,抽提最佳条件:温度为60℃,剂油质量比为2,得到抽余油的收率为52.55%,抽余油中饱和分质量分数为60.83%,芳烃和胶质的含量降低,性质得到明显的改善。催化裂化性能评价表明,焦化蜡油由于含有大量难裂化的稠环芳烃组分以及较高的氮化物,导致转化率低,产物分布差。与焦化蜡油相比,抽余油催化裂化的转化率明显提高,产品分布得到了明显的改善,可作为催化裂化的原料进行掺炼。
為閤理利用青島煉化的焦化蠟油,開展瞭糠醛抽提-催化裂化組閤工藝的實驗室研究。糠醛抽提試驗結果錶明,抽提最佳條件:溫度為60℃,劑油質量比為2,得到抽餘油的收率為52.55%,抽餘油中飽和分質量分數為60.83%,芳烴和膠質的含量降低,性質得到明顯的改善。催化裂化性能評價錶明,焦化蠟油由于含有大量難裂化的稠環芳烴組分以及較高的氮化物,導緻轉化率低,產物分佈差。與焦化蠟油相比,抽餘油催化裂化的轉化率明顯提高,產品分佈得到瞭明顯的改善,可作為催化裂化的原料進行摻煉。
위합리이용청도련화적초화사유,개전료강철추제-최화열화조합공예적실험실연구。강철추제시험결과표명,추제최가조건:온도위60℃,제유질량비위2,득도추여유적수솔위52.55%,추여유중포화분질량분수위60.83%,방경화효질적함량강저,성질득도명현적개선。최화열화성능평개표명,초화사유유우함유대량난열화적주배방경조분이급교고적담화물,도치전화솔저,산물분포차。여초화사유상비,추여유최화열화적전화솔명현제고,산품분포득도료명현적개선,가작위최화열화적원료진행참련。
In order to process appropriately the coking gas oil from Qingdao Petrochemical Co.,a laboratory investigation of integrated processing of furfural extraction-catalytic cracking was carried out.The optimal extraction parameters of the furfural extraction were determined,in which the temperature was 60 ℃,and the solvent-to-oil ratio was 2.The raffinate yield was 52.55% by weight of the coking gas oil,in which the saturates content was 60.83%.Also the aromatics and resins contents were reduced,resulting in the properties improvement of the raffinate.The results of catalytic cracking evaluation for coking gas oil indicated that it had low conversion rate and bad product distribution due to the high percent of hard cracking component of polycyclic aromatic hydrocarbons and nitrides.Compared with the coking gas oil,the conversion rate of raffinate products distribution had been significantly improved.And the raffinate can be blended in the feedstock for catalytic cracking.