Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating

Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating

Hydrotreating of vacuum residue by ebullated-bed shows tremendous significance due to more stringent environmental regulations and growing demand for lighter fuels. However, enhancing the catalyst stability still remains as a challenging task. Herein, two Ni–Mo/Al2O3 catalysts with distinct morpholo...

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Main Authors: Huihong Zhu, Zhiwei Mao, Bin Liu, Tao Yang, Xiang Feng, Hao Jin, Chong Peng, Chaohe Yang, Jifeng Wang, Xiangchen Fang
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2021-04-01
Series:Green Energy & Environment
Subjects:
Deactivation
Ebullated-bed
Hydrotreating
Vacuum residue
Morphology
Online Access:http://www.sciencedirect.com/science/article/pii/S2468025720300509
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spelling doaj-03360990b2cf46e799bfce965f7bfe992021-06-07T06:52:35ZengKeAi Communications Co., Ltd.Green Energy & Environment2468-02572021-04-0162283290Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreatingHuihong Zhu0Zhiwei Mao1Bin Liu2Tao Yang3Xiang Feng4Hao Jin5Chong Peng6Chaohe Yang7Jifeng Wang8Xiangchen Fang9Dalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, ChinaState Key Lab of Heavy Oil Processing, China University of Petroleum, Qingdao, 266580, ChinaState Key Lab of Heavy Oil Processing, China University of Petroleum, Qingdao, 266580, ChinaDalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, ChinaState Key Lab of Heavy Oil Processing, China University of Petroleum, Qingdao, 266580, China; Corresponding authors.Dalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, ChinaDalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, China; State Key Lab of Chemical Engineering, East China University of Science and Technology, Shanghai, 200237, China; Corresponding authors.State Key Lab of Heavy Oil Processing, China University of Petroleum, Qingdao, 266580, ChinaDalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, ChinaDalian Research Institute of Petroleum and Petrochemicals, SINOPEC, Dalian, 116045, China; Corresponding authors.Hydrotreating of vacuum residue by ebullated-bed shows tremendous significance due to more stringent environmental regulations and growing demand for lighter fuels. However, enhancing the catalyst stability still remains as a challenging task. Herein, two Ni–Mo/Al2O3 catalysts with distinct morphologies (i.e., spherical and cylindrical) were first designed, and the morphology effect on deactivation was systematically elucidated employing multi-characterizations, such as HRTEM with EDX mapping, electron microprobe analysis, FT-IR, TGA and Raman. It is found that spherical catalyst exhibits superior hydrotreating stability over 1600 h. The carbonaceous deposits on spherical catalyst with less graphite structure are lighter, and the coke weight is also smaller. In addition, the metal deposits uniformly distribute in the spherical catalyst, which is better than the concentrated distribution near the pore mouth for the cylindrical catalyst. Furthermore, the intrinsic reason for the differences was analyzed by the bed expansion experiment. Higher bed expansion rate together with the better mass transfer ability leads to the enhanced performance. This work sheds new light on the design of more efficient industrial hydrotreating catalyst based on morphology effect.http://www.sciencedirect.com/science/article/pii/S2468025720300509DeactivationEbullated-bedHydrotreatingVacuum residueMorphology
collection DOAJ
language English
format Article
sources DOAJ
author Huihong Zhu
Zhiwei Mao
Bin Liu
Tao Yang
Xiang Feng
Hao Jin
Chong Peng
Chaohe Yang
Jifeng Wang
Xiangchen Fang
spellingShingle Huihong Zhu
Zhiwei Mao
Bin Liu
Tao Yang
Xiang Feng
Hao Jin
Chong Peng
Chaohe Yang
Jifeng Wang
Xiangchen Fang
Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
Green Energy & Environment
Deactivation
Ebullated-bed
Hydrotreating
Vacuum residue
Morphology
author_facet Huihong Zhu
Zhiwei Mao
Bin Liu
Tao Yang
Xiang Feng
Hao Jin
Chong Peng
Chaohe Yang
Jifeng Wang
Xiangchen Fang
author_sort Huihong Zhu
title Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
title_short Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
title_full Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
title_fullStr Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
title_full_unstemmed Regulating catalyst morphology to boost the stability of Ni–Mo/Al2O3 catalyst for ebullated-bed residue hydrotreating
title_sort regulating catalyst morphology to boost the stability of ni–mo/al2o3 catalyst for ebullated-bed residue hydrotreating
publisher KeAi Communications Co., Ltd.
series Green Energy & Environment
issn 2468-0257
publishDate 2021-04-01
description Hydrotreating of vacuum residue by ebullated-bed shows tremendous significance due to more stringent environmental regulations and growing demand for lighter fuels. However, enhancing the catalyst stability still remains as a challenging task. Herein, two Ni–Mo/Al2O3 catalysts with distinct morphologies (i.e., spherical and cylindrical) were first designed, and the morphology effect on deactivation was systematically elucidated employing multi-characterizations, such as HRTEM with EDX mapping, electron microprobe analysis, FT-IR, TGA and Raman. It is found that spherical catalyst exhibits superior hydrotreating stability over 1600 h. The carbonaceous deposits on spherical catalyst with less graphite structure are lighter, and the coke weight is also smaller. In addition, the metal deposits uniformly distribute in the spherical catalyst, which is better than the concentrated distribution near the pore mouth for the cylindrical catalyst. Furthermore, the intrinsic reason for the differences was analyzed by the bed expansion experiment. Higher bed expansion rate together with the better mass transfer ability leads to the enhanced performance. This work sheds new light on the design of more efficient industrial hydrotreating catalyst based on morphology effect.
topic Deactivation
Ebullated-bed
Hydrotreating
Vacuum residue
Morphology
url http://www.sciencedirect.com/science/article/pii/S2468025720300509
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