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| 常压塔塔顶冷凝系统铵盐腐蚀及控制 |
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王海博1,李云1,程光旭1,欧阳文彬1,张耀亨2,李欣昀2,雷鹏辉1
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(1.西安交通大学化学工程与技术学院,陕西西安 710049;2.中国石油兰州石化公司研究院,甘肃兰州 730060)
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| 摘要: |
| 以常压塔顶冷凝系统为研究对象,利用Aspen Plus对塔顶系统油气进行热力学模拟,预测系统的NH4Cl结盐点和潮解点,判断NH4Cl腐蚀发生的条件。采用Aspen Plus计算NH4Cl饱和溶液的蒸汽压,通过文献数据对计算结果进行修正,推导NH4Cl的潮解相对湿度(fDRH)与温度(T)的关系。结果表明:fDRH与T呈线性关系,即fDRH=-0.200 07T+82.708;预测塔顶冷凝系统的关键温度点,盐点116℃,潮解点104℃,水露点96℃;塔顶系统116~104℃区域是铵盐沉积的敏感区域,104~96℃区域是发生铵盐垢下腐蚀的敏感区域;NH3的质量浓度高于5 mg/L时系统存在NH4Cl结盐潮解风险;控制系统的HCl和氨气分压能降低NH4Cl盐引起的事故率。 |
| 关键词: 铵盐 NH4Cl结盐点 潮解点 水露点 |
| DOI:10.3969/j.issn.1673-5005.2018.03.022 |
| 分类号:TQ051.5 |
| 文献标识码:A |
| 基金项目:中国石油天然气股份有限公司项目(20151191);国家重点研发计划项目(2017YFF0210406) |
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| Mitigation of the ammonium salts corrosion in overhead condensing system of crude tower |
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WANG Haibo1, LI Yun1, CHENG Guangxu1, OUYANG Wenbin1, ZHANG Yaoheng2, LI Xinyun2, LEI Penghui1
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(1.School of Chemical Engineering and Technology,Xi 'an Jiaotong University,Xi 'an 710049, China;2.Research Institute, Lanzhou Petrochemical Company of CNPC, Lanzhou 730060,China)
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| Abstract: |
| The overhead condensing systems of crude tower was taken as the research object. And the thermodynamic simulation of the oil and gas in the overhead was conducted using Aspen Plus, through which the deposition and deliquescence temperatures of NH4Cl salt were predicted, and the conditions of NH4Cl corrosion were determined. The vapor pressures of the saturated NH4Cl solution were calculated by Aspen Plus, and the calculated values were modified with the vapor pressure data of NH4Cl solution derived from literatures, through which a relationship between the deliquesce relative humidity (fDRH) of NH4Cl and temperature (T)was obtained. It is found that there is a linear correlation between fDRH and T, which is fDRH=-0.200 07T+82.708. The calculated salt point, deliquesce point and water dew point in the overhead condensing systems of crude tower are 116℃, 104℃ and 96℃, respectively. The sensitive area of NH4Cl deposition temperature is from 104℃ to 116℃. The sensitive area of NH4Cl under-deposit corrosion is between 104℃ and 96℃. When the concentration of NH3 is higher than 5 mg/L, the tower overhead system has NH4Cl salt deliquescence risk. The controlling of HCl and NH3 pressure reduces NH4Cl salts corrosion failures. |
| Key words: ammonium salt NH4Cl deposition point deliquesce point water dew point |
