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首页> 外文期刊>Topics in Catalysis >Dispersed Nickel-Based Catalyst for Enhanced Oil Recovery (EOR) Under Limited Hydrogen Conditions
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Dispersed Nickel-Based Catalyst for Enhanced Oil Recovery (EOR) Under Limited Hydrogen Conditions

机译:在有限的氢气条件下分散镍基催化剂,用于增强储存(EOR)

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摘要

Heavy crude oil enhanced into a lighter oil by hydrocracking process with nickel nanoparticles (Ni NPs) as catalysts. Ni NPs were synthesized by colloidal method (chemical reduction of metal salts). The reduction of nickel nitrate hexahydrate ((Ni(NO3)(2)center dot 6H(2)O) was done using sodium borohydride (NaBH4) as a reducing agent in presence of polyvinylpyrrolidone which worked as a protective and stabilizing agent; ethanol was used as a solvent. The properties of the nanoparticles were investigated by FT-IR, TEM, XRD, and HRTEM. These techniques confirmed the formation of Ni NPs with an average size of 10 nm and a tetragonal structure. The experiments were carried out in a batch reactor at 45 Kg(f) cm(-2) (initial H-2 pressure), 380 degrees C, stirring speed of 500 rpm and reaction time of 1 h. In all cases, the increase in the concentration of Ni nanoparticles improved the physical and chemical properties of heavy crude oil, even in limited hydrogen conditions; these properties were measured in terms of viscosity, SARA analysis, sulfur and nitrogen removal, and chromatographic analysis of gaseous products. The asphaltenes conversion was of 26.31% and moderate sulfur removal was achieved, these results are promising for EOR application.
机译:以纳米镍为催化剂,通过加氢裂化工艺将重质原油强化为轻质油。采用胶体法(金属盐化学还原法)合成了镍纳米粒子。以硼氢化钠(NaBH4)为还原剂,聚乙烯吡咯烷酮作为保护剂和稳定剂,还原六水合硝酸镍((Ni(NO3)(2)中心点6H(2)O);乙醇被用作溶剂。通过FT-IR、TEM、XRD和HRTEM研究了纳米颗粒的性质。这些技术证实了镍纳米颗粒的形成,其平均尺寸为10纳米,具有四方结构。实验在间歇式反应器中进行,反应温度为45kg(f)cm(-2)(初始H-2压力),380℃,搅拌速度为500rpm,反应时间为1h。在所有情况下,镍纳米颗粒浓度的增加改善了重质原油的物理和化学性质,即使在有限的氢气条件下;这些特性通过粘度、SARA分析、硫和氮去除以及气体产物的色谱分析进行测量。沥青质转化率为26.31%,实现了中等程度的脱硫,这些结果对提高采收率具有良好的应用前景。

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  • 来源
    《Topics in Catalysis》 |2020年第6期|共7页
  • 作者

    Morelos-Santos O.; Reyes de la Torre A. I; Melo-Banda J. A.; Mendoza-Martinez A. M.; Schacht-Hernandez P.; Portales-Martinez B.; Soto-Escalante I; Dominguez-Esquivel J. M.; Jose-Yacaman M.;

  • 作者单位

    Ctr Invest Petroquim Tecnol Nacl Mexico Inst Tecnol Ciudad Madero Parque Tecnia &

    Parque La Pequena &

    Mediana Ind Altamira 89600 Tamaulipas Mexico;

    Ctr Invest Petroquim Tecnol Nacl Mexico Inst Tecnol Ciudad Madero Parque Tecnia &

    Parque La Pequena &

    Mediana Ind Altamira 89600 Tamaulipas Mexico;

    Ctr Invest Petroquim Tecnol Nacl Mexico Inst Tecnol Ciudad Madero Parque Tecnia &

    Parque La Pequena &

    Mediana Ind Altamira 89600 Tamaulipas Mexico;

    Ctr Invest Petroquim Tecnol Nacl Mexico Inst Tecnol Ciudad Madero Parque Tecnia &

    Parque La Pequena &

    Mediana Ind Altamira 89600 Tamaulipas Mexico;

    Inst Mexicano Petr Eje Cent Lazaro Cardenas 152 Cdmx 07730 Mexico;

    Inst Politecn Nacl CONACYT Ctr Invest Ciencia Aplicada &

    Tecnol Avanzada Lab Nacl Convers &

    Almacenamiento Energia Calzada Legaria 694 Ciudad De Mexico 11500 Mexico;

    Ctr Invest Petroquim Tecnol Nacl Mexico Inst Tecnol Ciudad Madero Parque Tecnia &

    Parque La Pequena &

    Mediana Ind Altamira 89600 Tamaulipas Mexico;

    Inst Mexicano Petr Eje Cent Lazaro Cardenas 152 Cdmx 07730 Mexico;

    No Arizona Univ Flagstaff AZ 86011 USA;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学动力学、催化作用;催化反应过程;
  • 关键词

    Heavy crude oil; Nickel nanoparticles; Upgrading; EOR;

    机译:重原油;镍纳米粒子;升级;EOR;

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