TiO2纳米管负载 Ni-Mo加氢脱硫催化剂的生产工艺研究
TiO2납미관부재 Ni-Mo가경탈류최화제적생산공예연구
Study on Production Technology of TiO2 Nanotube Powders Loaded Ni-Mo as Hydrodesulfurization Catalyst
  • 万方数据
    当代化工 당대화공
    CONTEMPORARY CHEMICAL INDUSTRY
    2015年 1期 12-14 ,共3页

    刘丰%王德慧%宋官龙%宫哲%赵德智

    류봉%왕덕혜%송관룡%궁철%조덕지

    TiO2纳米管%负载%加氢脱硫催化剂%生产工艺 TiO2納米管%負載%加氫脫硫催化劑%生產工藝
    TiO2납미관%부재%가경탈류최화제%생산공예
    TiO2 nanotube powder%Load%Hydrodesulfurization catalyst%Production technology
    采用水热合成法制备 TiO2纳米管粉体。经浸渍、Ni-Mo 负载等工艺研究,生产一种具有适宜孔径、比表面积和催化性能的加氢脱硫催化剂。取得了相关工艺参数,为工业化生产提供基础数据。最终确定:当焙烧温度为350℃时,得到孔径为92.4 nm,比表面积为232.2 m2/g,孔容为0.85 mL/g,金属含量为 NiO≥2.2%, MoO3≥19.3%的加氢脱硫催化剂 TNM-2。
    채용수열합성법제비 TiO2납미관분체。경침지、Ni-Mo 부재등공예연구,생산일충구유괄의공경、비표면적화최화성능적가경탈류최화제。취득료상관공예삼수,위공업화생산제공기출수거。최종학정:당배소온도위350℃시,득도공경위92.4 nm,비표면적위232.2 m2/g,공용위0.85 mL/g,금속함량위 NiO≥2.2%, MoO3≥19.3%적가경탈류최화제 TNM-2。
    The TiO2 nanotube powders were synthesized by hydrothermal method. Through technology research on dipping and Ni-Mo loading, a hydrodesulfurization catalyst with big specific surface-area, suitable pore size and catalytic performance was prepared. Based this reaction, the relevant process data was obtained, which could provide basic data for industrial production. The results show that, when the calcination temperature is 350 ,℃ the catalyst TNM-2 with pore diameter of 92.4 nm, specific surface area of 232.2 m2/g and pore volume of 0.85 mL/g can be obtained.
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