加氢尾油可作为优质的催化裂化或加氢裂化掺炼原料。
The hydrogenation tail oil obtained from process could be used as superior FCC or hydrocracking feedstock.
结果表明,加氢尾油的馏分不适宜作为裂解原料,可以作为催化裂化的原料。
The results show that fractions of the hydrogenation residue are suitable for catalyzed cracking materials instead of cracking materials.
该工艺技术流程简单,生产方案灵活,化学耗氢低;加氢尾油产率高、质量好。
This technology is simple in processing scheme, flexible in production option, with low chemical hydrogen consumption and high yields of unconverted oils of superior quality.
对辽河渣油悬浮床加氢尾油进行了延迟焦化和调合沥青试验,结果表明尾油可以得到充分利用。
The utilization experiments of the unconverted oil of Liaohe residuum from the process as coker feedstock and asphalt blending component showed that the unconverted oil can be fully utilized.
结果表明,利用GC-MS法对加氢尾油中多环芳烃进行分析,具有选择性高,响应呈线性,芳烃组分信号不受烷烃干扰,分析时间短和精密度好等优点。
The results showed that the GC-MS had the advantages of high selectivity, rapid analysis, high precision, good linear response, and low interference on PAH signals, etc.
采用尾油循环和其它组合工艺,可以得到较高的重渣油加氢转化率。
High conversion could be obtained by using the tail oil circulation process and other integrated processes.
将胜利减压渣油中的胶质与饱和分、芳香分以及减压馏分油加氢裂化(SSOT)尾油中的石蜡进行调合。
The resins of Shengli vacuum residue were blent with saturates, aromatics from Shengli vacuum residue and paraffin from SSOT hydrogenation residue.
常压三线和减压一线油的加氢裂化尾油作裂解原料,经过小型试验评价和工业实际应用,证明它是优良的乙烯裂解原料。
Bench scale test and commercial application test have verified that the tail oil from heavy AGO and light VGO hydrocracking is an excellent feedstock for ethylene production.
加氢裂化尾油粘度指数高,低硫、低氮、杂质含量少,倾点和粘度偏高。
The hydrocracking tail oil possesses the characteristics of higher viscosity index, pour point, viscosity and lower sulfur, nitrogen, impurity content.
加氢裂化尾油粘度指数高,低硫、低氮、杂质含量少,倾点和粘度偏高。
The hydrocracking tail oil possesses the characteristics of higher viscosity index, pour point, viscosity and lower sulfur, nitrogen, impurity content.
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