Catalytic reforming can convert cycloalkanes and alkanes in naphtha into aromatics to produce high-octane gasoline blending components or aromatics. It can also supply hydrogen to hydrotreating units and is one of the main processes in petroleum refining. Detailed analysis of the hydrocarbon composition of reformate helps to conduct catalytic reforming reaction kinetics studies at the molecular level, deepen the understanding of the conversion processes of cycloalkanes and alkanes, and provide support for catalyst performance evaluation, unit operation optimization, and refinery logistics optimization [1–3].

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Research and Application in the Catalytic Reforming Unit

  • Xiaoli Chu,
  • Pu Chen,
  • Yupeng Xu,
  • Jingyan Li

摘要

Catalytic reforming can convert cycloalkanes and alkanes in naphtha into aromatics to produce high-octane gasoline blending components or aromatics. It can also supply hydrogen to hydrotreating units and is one of the main processes in petroleum refining. Detailed analysis of the hydrocarbon composition of reformate helps to conduct catalytic reforming reaction kinetics studies at the molecular level, deepen the understanding of the conversion processes of cycloalkanes and alkanes, and provide support for catalyst performance evaluation, unit operation optimization, and refinery logistics optimization [1–3].