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首页> 外文期刊>Fuel >Modelling and simulation of industrial trickle bed reactor hydrotreating for whole fraction low-temperature coal tar simultaneous hydrodesulfurisation and hydrodenitrification
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Modelling and simulation of industrial trickle bed reactor hydrotreating for whole fraction low-temperature coal tar simultaneous hydrodesulfurisation and hydrodenitrification

机译:工业涓流床反应器加氢处理对整个馏分低温煤焦焦油同时加氢脱硫及水解硝化的建模与仿真

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摘要

Whole fraction low-temperature coal tar (LTCT) has a high content of heavy compounds, direct entry into an industrial reactor for hydrotreating (HDT) conversion into fuel oil is a new technology that has not been widely reported. Furthermore, a copious amount of heat is generated, resulting in hot spots and temperature flying on the catalyst bed.This study uses the gPROMS software, based on the kinetic parameters which are determined from several HDT reactions using experimental data in small-scale TBR, combined with energy balance and mass transfer equations among three phases to construct industrial TBR model with a treatment capacity of 250,000 tons/year. This model was used for simultaneous HDS and HDN process simulation.The Simulation results show that the sharp temperature rise along the catalyst bed length can arrive at 70 K without quenching, which is obviously higher than that of petroleum distillate hydrogenation. So, a optimal bed configuration of equal bed lengths and unequal bed inlet temperature was established by simulating and optimizing the reactor. with each bed 350 cm in length and inlet temperatures of 633 K, 643 K, 653 K, and 653 K, respectively, it has a reasonable temperature rise distribution, lower added hydrogen quench amount of 47360.65 Nm(3)/h, while sulfur and nitrogen removal rates can reach 87.55% and 86.46%, showing better performance than that of a small scale reactor. Hydrogen quenching not only lowers the temperature of the mixture and replenishes the chemical hydrogen consumption but also facilitates the removal of S, N heteroatom compounds. The results can provide a guidance for bed configuration for whole fraction LTCT industrial hydrogenation devices.
机译:整个馏分低温煤焦油(LTCT)具有高含量的重质化合物,直接进入工业反应器的加氢处理(HDT)转化为燃料油是一种未被广泛报道的新技术。此外,产生大量的热量,导致催化剂床上的热点和温度飞行。本研究使用GPROM软件,基于使用小规模TBR的实验数据从几种HDT反应确定的动力学参数,结合三个阶段的能量平衡和传质方程,构建工业TBR模型,治疗能力为250,000吨/年。该模型用于同时HDS和HDN工艺模拟。仿真结果表明,沿催化剂床长度的急剧升高可以达到70 k而不淬火,这明显高于石油馏分氢化。因此,通过模拟和优化反应器来建立等床长度和不等床入口温度的最佳床结构。每个床350厘米的长度和入口温度为633 k,643 k,653 k和653 k,它具有合理的升温分布,较低的氢骤冷量为47360.65nm(3)/ h,而硫氮去除率可达到87.55%和86.46%,表现出比小刻度反应堆的性能更好。氢气淬火不仅降低了混合物的温度并补充了化学氢消耗,而且还有助于去除S,N杂原子化合物。结果可以为全部分数LTCT工业氢化装置提供床配置的指导。

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  • 来源
    《Fuel》 |2020年第1期|117362.1-117362.13|共13页
  • 作者

    Fan Xiaoyong; Li Dong; Feng Xian; Dong Huan; Liu Xu; Dan Yong; Zheng Huaan; Fan An; Li Wenhong;

  • 作者单位

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Yulin Univ Shaanxi Key Lab Low Metamorph Coal Clean Utilizat Sch Chem & Chem Engn Yulin 719000 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Peoples R China|Res Ctr Chem Engn Applying Technol Resource Shaan Xian 710069 Peoples R China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Whole fraction low temperature coal tar; Industry TBR model; HDS and HDN; Modelling and simulation; Gproms;

    机译:全部分数低温煤焦油;工业TBR模型;HDS和HDN;建模和仿真;GPROM;

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