Advantages and Disadvantages of Connect Anti Surge System Gas Pipe of Multistage Centrifugal Recycle Gas Compressor with Process Heat Exchanger in Power Former Unit in Daura Refinery

IF 0.6 4区 化学 Q4 CHEMISTRY, APPLIED Russian Journal of Applied Chemistry Pub Date : 2024-04-20 DOI:10.1134/s1070427224010026
Omar M. Waheeb
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Abstract

Gasoline produced by hydrotreating light and heavy naphtha and reforming hydrotreated heavy naphtha, hydrogen required for both processes produced by the reforming unit as a byproduct, compression, and recycling of hydrogen required for reforming reactions provided by recycle gas compressor (centrifugal multi-stages compressor), due to the design criteria of this compressor the anti-surge system pass 18000 kg/h, of hydrogen from discharge to suction of compressor with 3” control valve, at the low flow situation during the startup of the unit to avoid the lake of gas flow and avoid overpressure in the discharge of the compressor. Anti-surge system in this compressor contains no inter-stage cooler, the suction temperature of the compressor is designed at 43℃, and the discharge of the compressor is 79℃ when the anti-surge system is involved in the process, the suction temperature of the compressor becomes 70℃, and the discharge becomes 108℃ due to the heat accumulation of recycle gas out of the anti-surge system. In an aim to solve this problem, the outlet of the anti-surge system of the compressor connected with the process heat exchanger, to cool down the hydrogen inlet to suction of the compressor to approximately 46℃ and back to the design limits, the disadvantage of this solution is the absorption of the light end associated with recycle gas posing in the process heat exchanger, which reduces the total molecular weight of recycle gas through the anti-surge system from 13.336 to 10.51 kg/kg mol at start of the run, and from 16.155 to 12.15 kg/kg mol at the end of the run.

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多拉炼油厂动力前置装置中带有工艺热交换器的多级离心循环气体压缩机连接防浪涌系统气体管道的优缺点
摘要 通过对轻石脑油和重石脑油进行加氢处理和对加氢处理后的重石脑油进行重整生产汽油,这两个过程所需的氢气由重整装置作为副产品生产,压缩和重整反应所需的氢气由循环气压缩机(离心多级压缩机)提供、根据该压缩机的设计标准,防喘振系统通过 3 英寸控制阀将 18000 公斤/小时的氢气从压缩机的排气口输送到吸气口,在装置启动时的低流量情况下,以避免气流湖和压缩机排气口的过压。该压缩机的防喘振系统不包含级间冷却器,压缩机的吸气温度设计为 43℃,压缩机的排气温度为 79℃,当防喘振系统参与过程时,压缩机的吸气温度变为 70℃,排气温度变为 108℃,这是由于从防喘振系统出来的循环气的热量积累造成的。为了解决这个问题,压缩机防喘振系统的出口与工艺热交换器相连,将压缩机吸入的氢气降温至约 46℃,并恢复到设计极限,这种解决方案的缺点是在工艺热交换器中会吸收与循环气有关的轻质末端,从而使通过防喘振系统的循环气的总分子量从 13.336 千克/千克降至 10.51 千克/千克。336 降至 10.51 千克/千克摩尔,运行结束时则从 16.155 降至 12.15 千克/千克摩尔。
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来源期刊
CiteScore
1.60
自引率
11.10%
发文量
63
审稿时长
2-4 weeks
期刊介绍: Russian Journal of Applied Chemistry (Zhurnal prikladnoi khimii) was founded in 1928. It covers all application problems of modern chemistry, including the structure of inorganic and organic compounds, kinetics and mechanisms of chemical reactions, problems of chemical processes and apparatus, borderline problems of chemistry, and applied research.
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