An approach to design the catalyst for deep hydrodesulfurization to achieve 10ppm sulfur level

Naoyuki Kunisada, Ki Hyouk Choi, Yozo Korai, Isao Mochida, K. Nakano

研究成果: Contribution to journalConference article査読

抄録

Several NiMo and CoMo sulfide catalysts were examined in first and second layers with or without H2S and NH3 reduction between the layers. The two layers of the best HDS catalysts with appropriate activity under respective conditions can be a logical approach to achieve deep HDS of gas oil. The first layer catalyst must eliminate 100% of reactive sulfur species. Hence, the catalyst must have larger surface area, slightly smaller pore being allowed for the larger surface area. Acidity helps higher activity, 95% of refractory sulfur species must be also eliminated. Moderate acidity is helpful for the hydrogenative HDS. The second layer catalyst eliminates the refractory sulfur species of 100-500 ppm to < 10 ppm in the presence of H2S and NH3. The hydrodesulfurized straight run gas oil contains 20 ppm nitrogen. The catalyst must have larger pores to accept the refractory sulfur species of tri aromatic rings with methyl groups more than di aromatic rings. Acidity is important to enhance HDS of the refractory sulfur species in the hydrogenation route by moderate H2S inhibition. Zeolite containing CoMo and NiMo showed higher activity in SRGO, HSRGO and HSRGO + H2S. However, zeolite having strong acidity is easily deactivated. Appropriate sets of two catalysts with successive layers are very active to achieve regulated Sulfur level of gas oil. It is always discussed whether CoMo or NiMo is better catalyst for the first and second layers. High dispersion in designed shape of the sulfides must be practiced in any supports.

本文言語英語
ページ(範囲)80-81
ページ数2
ジャーナルACS Division of Fuel Chemistry, Preprints
48
1
出版ステータス出版済み - 3 2003
イベントProceedings of the 2003 SPE/EPA/DOE Exploration Production Environmental Conference - San Antonio, TX, 米国
継続期間: 3 10 20033 12 2003

All Science Journal Classification (ASJC) codes

  • エネルギー(全般)

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