Methanol synthesis from syngas in a slurry reactor

Fei Ren; Hansheng Li; Dezheng Wang; Jinfu Wang; Weixiong Pan; Jinlu Li

Methanol synthesis from syngas in a slurry reactor

Fei Ren^*, Hansheng Li, Dezheng Wang, Jinfu Wang, Weixiong Pan, Jinlu Li

^*此作品的通讯作者

Tsinghua University

科研成果: 期刊稿件 › 会议文章 › 同行评审

9 引用（Scopus）

摘要

A new catalyst (denoted LP201), which gives a high CO conversion without any decrease in activity in 1000 hr operation in a slurry reactor, was developed for the synthesis of methanol. The activity of the LP201 catalyst was much higher than that of the commercial C302 catalyst. The LP201 catalyst was suitable for the large scale synthesis of methanol in a slurry reactor. CO conversion increased monotonically with an increase in temperature. The surface structure of the deactivated catalyst was very different from the LP201 catalyst after reduction and before methanol synthesis and the change in the structure of the deactivated catalyst is irreversible. This suggested that an irreversible change in the structure of catalyst and carbon deposition during the gas-phase methanol synthesis led to the deactivation of the catalyst.

源语言	英语
页（从-至）	921-922
页数	2
期刊	ACS Division of Fuel Chemistry, Preprints
卷	48
期	2
出版状态	已出版 - 9月 2003
已对外发布	是

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Ren, F., Li, H., Wang, D., Wang, J., Pan, W., & Li, J. (2003). Methanol synthesis from syngas in a slurry reactor. ACS Division of Fuel Chemistry, Preprints, 48(2), 921-922.

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title = "Methanol synthesis from syngas in a slurry reactor",

abstract = "A new catalyst (denoted LP201), which gives a high CO conversion without any decrease in activity in 1000 hr operation in a slurry reactor, was developed for the synthesis of methanol. The activity of the LP201 catalyst was much higher than that of the commercial C302 catalyst. The LP201 catalyst was suitable for the large scale synthesis of methanol in a slurry reactor. CO conversion increased monotonically with an increase in temperature. The surface structure of the deactivated catalyst was very different from the LP201 catalyst after reduction and before methanol synthesis and the change in the structure of the deactivated catalyst is irreversible. This suggested that an irreversible change in the structure of catalyst and carbon deposition during the gas-phase methanol synthesis led to the deactivation of the catalyst.",

author = "Fei Ren and Hansheng Li and Dezheng Wang and Jinfu Wang and Weixiong Pan and Jinlu Li",

year = "2003",

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T1 - Methanol synthesis from syngas in a slurry reactor

AU - Ren, Fei

AU - Li, Hansheng

AU - Wang, Dezheng

AU - Wang, Jinfu

AU - Pan, Weixiong

AU - Li, Jinlu

PY - 2003/9

Y1 - 2003/9

N2 - A new catalyst (denoted LP201), which gives a high CO conversion without any decrease in activity in 1000 hr operation in a slurry reactor, was developed for the synthesis of methanol. The activity of the LP201 catalyst was much higher than that of the commercial C302 catalyst. The LP201 catalyst was suitable for the large scale synthesis of methanol in a slurry reactor. CO conversion increased monotonically with an increase in temperature. The surface structure of the deactivated catalyst was very different from the LP201 catalyst after reduction and before methanol synthesis and the change in the structure of the deactivated catalyst is irreversible. This suggested that an irreversible change in the structure of catalyst and carbon deposition during the gas-phase methanol synthesis led to the deactivation of the catalyst.

AB - A new catalyst (denoted LP201), which gives a high CO conversion without any decrease in activity in 1000 hr operation in a slurry reactor, was developed for the synthesis of methanol. The activity of the LP201 catalyst was much higher than that of the commercial C302 catalyst. The LP201 catalyst was suitable for the large scale synthesis of methanol in a slurry reactor. CO conversion increased monotonically with an increase in temperature. The surface structure of the deactivated catalyst was very different from the LP201 catalyst after reduction and before methanol synthesis and the change in the structure of the deactivated catalyst is irreversible. This suggested that an irreversible change in the structure of catalyst and carbon deposition during the gas-phase methanol synthesis led to the deactivation of the catalyst.

UR - http://www.scopus.com/inward/record.url?scp=1042278340&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:1042278340

SN - 0569-3772

VL - 48

SP - 921

EP - 922

JO - ACS Division of Fuel Chemistry, Preprints

JF - ACS Division of Fuel Chemistry, Preprints

IS - 2

ER -

Methanol synthesis from syngas in a slurry reactor

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