石油化工设计 ›› 2026, Vol. 43 ›› Issue (2): 12-15.

• 设计技术 • 上一篇    下一篇

硫磺回收选择氧化短流程工艺与传统工艺的技术对比

牛玥   

  1. 中国石化工程建设有限公司,北京100101
  • 出版日期:2026-05-25 发布日期:2026-05-25
  • 作者简介:牛玥,女,2023年毕业于天津大学化学工程专业,博士学位,工程师,现从事天然气净化设计工作,已发表学术论文4篇。联系电话:010-84878213;Email:niuyue.sei@sinopec.com

Technical Comparison between Selective Oxidation Short-process Technology and Traditional Process for Sulfur Recovery

Niu Yue   

  1. SINOPEC Engineering Incorporation, Beijing, 100101
  • Online:2026-05-25 Published:2026-05-25

摘要:

在天然气和炼油化工领域,硫磺回收是减少硫化氢排放、实现硫资源循环利用的核心工艺。传统硫磺回收工艺存在流程复杂、设备冗余等不足,而选择氧化短流程工艺通过催化剂将尾气中的H2S选择氧化为单质硫,可有效简化工艺流程。现以某天然气脱硫站为研究对象,系统比较了2种工艺,结果表明,相较于传统工艺,短流程工艺在流程长度、设备配置、能耗及碳排放等方面均具显著优势;装置能耗降低10%,碳排放量减少8%,投资成本降低32%,占地面积缩减12%。该工艺兼顾环保效益与经济可行性,为硫磺回收提供了高效低碳的解决方案,尤其适用于小规模天然气脱硫站。

关键词: 硫磺回收, 选择氧化, 短流程工艺, 低能耗, 低碳排放

Abstract:

In the fields of natural gas and refining and petrochemical engineering, sulfur recovery serves as a core process for reducing hydrogen sulfide (H2S) emissions and achieving cyclic utilization of sulfur resources. Traditional sulfur recovery processes suffer from limitations such as complex flow paths and redundant equipment, whereas the selective oxidation short-process technology efficiently simplifies the process flow by using a catalyst to selectively oxidize the H2S in tail gas into elemental sulfur. This study conducted a comparative analysis of sulfur recovery processes at a natural gas desulfurization station. Results demonstrate that compared with traditional process, the short-process technology achieves significant improvements across key performance indicators: 15% reduction in energy consumption, 8% decrease in carbon emissions, 32% lower capital investment, and 12% reduction in footprint. This technology balances environmental benefits and economic feasibility, providing an efficient and low-carbon solution for sulfur recovery, especially suitable for small-scale natural gas desulfurization stations.

Key words: sulfur recovery, selective oxidation, short-process technology, low energy consumption, low carbon emission