本发明公开了一种煤液化油沸腾床加氢处理催化剂载体及其制备方法。
The invention discloses a catalyst carrier for coal liquification oil hydrogenation on boiling bed and the preparation method.
对混合渣油及其经固定床加氢处理后生成油的镍分布进行了研究,考察反应温度和加氢处理催化剂对油样中镍分布的影响。
The nickel distribution of residue feedstock and products obtained from fixed bed reactor were studied and focused on the effect of reaction temperature and various hydrotreating catalysts.
催化剂特别适用于重质烃类原料加氢处理的非固定床法。
The catalyst is particularly suitable for use in non-fixed bed processes for the hydroprocessing of heavy hydrocarbon feeds.
介绍了催化裂化原料加氢预处理催化剂FF-18的反应性能评价及首次工业应用情况。
The performances evaluation and first commercial application of FF-18 catalysts for FCC feed- stock hydrotreating are described.
重点分析了裂解碳九加氢工艺和催化剂技术,强调了原料预处理、反应工艺和催化剂设计等要点。
The hydrogenation technologies, as well as catalysts used in hydrotreating, were analyzed and compared, and feedstock pretreatment, reaction process and catalyst design were discussed.
该催化剂可以广泛的用于石油馏分的加氢处理过程,特别适合于中间馏分油的加氢脱硫、加氢脱氮和加氢脱芳过程。
The said catalyst can be used for hydrotreating process of fraction of petroleum, especially for hydrodesulphurization and hydrodenitrification process of middle distillate oil .
采用脱氮活性高的RN-2催化剂对管输油的焦化蜡油进行加氢处理,脱除其中的氮、硫等杂质及改善烃类组成后,进行催化裂化或与直馏蜡油混合作催化裂化进料。
CGO were hydrotreated by RN 2 catalyst to remove N and S impurities and improve the quality. The hydrotreated CGO was proposed to be mixed with VGO as FCC feedstock after testing in the pilot plant.
在渣油加氢处理中试装置上,考察了渣油中氮化物在不同催化剂上的脱除规律。
The distribution and removal of nitrogen were investigated on a residue hydrotreating pilot plant.
本发明的改性适合于作为石油加工催 化剂的催化材料,特别适于作加氢处理和加氢转化催化剂的载体。
The property transformation of said invention can be used as catalysis material when processing oil, especially as the catalyst carrier of hydrogenation treatment and hydrogenation transformation.
催化加氢处理是渣油裂化加工的重要技术,但焦炭和金属在催化剂上的沉积将降低催化剂的活性。
Catalytic hydro-processing is an important technology for residue oil upgrading, but the catalysts are easy to be deactivated due to the deposition of coke and metals on the catalyst surface.
预处理淤浆催化剂提高了它的温度,因此当其进入加氢处理反应器时降低了对催化剂淤浆的冲击。
Preconditioning the slurry catalyst raises its temperature, thereby reducing shock on the catalyst slurry as it enters the hydroprocessing reactor.
预处理淤浆催化剂提高了它的温度,因此当其进入加氢处理反应器时降低了对催化剂淤浆的冲击。
Preconditioning the slurry catalyst raises its temperature, thereby reducing shock on the catalyst slurry as it enters the hydroprocessing reactor.
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