The development of process and catalysts for reforming of gasoline fractions: State of the art and prospects

21ST CENTURY: CHEMISTRY TO LIFE Pub Date : 2019-08-16 DOI:10.1063/1.5122901

A. Belyi

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引用次数: 1

Abstract

The article summarizes the results of fundamental and applied research on the development of scientific principles for the design of technologies for the production and operation of the naphtha-reforming catalysts made in the laboratory of the motor fuels synthesis over the past 20 years. The main result is the determination of an important role of the nonmetallic states of platinum (Ptσ) in adsorption and catalysis. The main principles of the development of highly efficient catalysts and technologies for their manufacture are formulated. Data on the industrial applications of new reforming catalysts at 14 commercial reforming plants under conditions of reforming gasoline production with research octane numbers of 98–100 are given. The applicability of new catalysts to the combined conversion of C3–C4 and C5+ alkane mixtures into high-octane motor fuel components is demonstrated. The results of the development of three modifications of a new technology for the manufacture of environmentally safe high-octane gasoline with the selectivity of formation of the target product close to 100% are presented.The article summarizes the results of fundamental and applied research on the development of scientific principles for the design of technologies for the production and operation of the naphtha-reforming catalysts made in the laboratory of the motor fuels synthesis over the past 20 years. The main result is the determination of an important role of the nonmetallic states of platinum (Ptσ) in adsorption and catalysis. The main principles of the development of highly efficient catalysts and technologies for their manufacture are formulated. Data on the industrial applications of new reforming catalysts at 14 commercial reforming plants under conditions of reforming gasoline production with research octane numbers of 98–100 are given. The applicability of new catalysts to the combined conversion of C3–C4 and C5+ alkane mixtures into high-octane motor fuel components is demonstrated. The results of the development of three modifications of a new technology for the manufacture of environmentally safe high-octa...

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汽油馏分重整工艺及催化剂的发展:现状与展望

本文综述了近20年来汽车燃料合成实验室在石脑油重整催化剂生产和操作技术设计的科学原理发展方面的基础研究和应用研究成果。主要结果是确定了铂的非金属态(Ptσ)在吸附和催化中的重要作用。阐述了开发高效催化剂的主要原理及其制造技术。介绍了新型重整催化剂在14个工业重整装置上，在研究辛烷值为98 ~ 100的重整汽油生产条件下的工业应用情况。验证了新型催化剂对C3-C4和C5+烷烃混合物复合转化为高辛烷值发动机燃料组分的适用性。介绍了一种生产环境安全的高辛烷值汽油的新工艺的三种改进的开发结果，其目标产物的形成选择性接近100%。本文综述了近20年来汽车燃料合成实验室在石脑油重整催化剂生产和操作技术设计的科学原理发展方面的基础研究和应用研究成果。主要结果是确定了铂的非金属态(Ptσ)在吸附和催化中的重要作用。阐述了开发高效催化剂的主要原理及其制造技术。介绍了新型重整催化剂在14个工业重整装置上，在研究辛烷值为98 ~ 100的重整汽油生产条件下的工业应用情况。验证了新型催化剂对C3-C4和C5+烷烃混合物复合转化为高辛烷值发动机燃料组分的适用性。对一种制造环境安全的高含氧化合物的新技术进行了三次改进，其结果是…

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21ST CENTURY: CHEMISTRY TO LIFE

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