利用氘水证明其在超临界条件下油页岩热液提质过程中的供氢作用

IF 3.4 3区 工程技术 Q2 CHEMISTRY, PHYSICAL
Richard Djimasbe , Mikhail A. Varfolomeev , Nailya M. Khasanova , Ameen A. Al-Muntaser , Rustam R. Davletshin , Muneer A. Suwaid , Gazinur Z. Mingazov
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引用次数: 0

摘要

本文证实了超临界水利用超临界氘水(SCDW)在水热反应过程中产生活性氢的能力,该活性氢与油页岩等非常规原料中的不同馏分相互作用。实验在高压釜反应器中进行,温度为380ºC,时间为1-12小时。使用各种方法对产品进行评估。研究结果表明,15.30%的氘(D)参与了合成石油生产的反应,石油样品的特征是存在主要来源于干酪根的杂原子(N和O)。研究发现,合成油的生成受到碳酸盐物种的干扰,在6h时达到16.78%的最大产率。FTIR表明,在油页岩水热改质过程中,树脂的转化消耗的D分子比沥青质多。根据EPR,Fe2+和Mn2+颗粒在升级过程中没有发挥太大作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Use of deuterated water to prove its role as hydrogen donor during the hydrothermal upgrading of oil shale at supercritical conditions

This paper corroborates the capability of supercritical water to generate active hydrogen that interact with the different fractions involved in unconventional feedstocks such as oil shale during the hydrothermal reactions by using supercritical deuterated water (SCDW). Experiments were conducted in an autoclave reactor at a temperature of 380 ºC and a time of 1–12 h. The products were assessed using various methods. The findings indicate that 15.30% of deuterium (D) was involved in the reaction of synthetic oil production and that oil samples are characterized by the presence of heteroatoms (N and O) most derived from kerogen. It found that the generation of synthetic oil is perturbed by carbonate species and a maximal yield of 16.78% is reached at 6 h. FTIR revealed that during hydrothermal upgrading of oil shale, the conversion of resins consumes more molecules of D than asphaltenes. According to EPR, Fe2+ and Mn2+ particles haven't played much role in the upgrading process.

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来源期刊
Journal of Supercritical Fluids
Journal of Supercritical Fluids 工程技术-工程:化工
CiteScore
7.60
自引率
10.30%
发文量
236
审稿时长
56 days
期刊介绍: The Journal of Supercritical Fluids is an international journal devoted to the fundamental and applied aspects of supercritical fluids and processes. Its aim is to provide a focused platform for academic and industrial researchers to report their findings and to have ready access to the advances in this rapidly growing field. Its coverage is multidisciplinary and includes both basic and applied topics. Thermodynamics and phase equilibria, reaction kinetics and rate processes, thermal and transport properties, and all topics related to processing such as separations (extraction, fractionation, purification, chromatography) nucleation and impregnation are within the scope. Accounts of specific engineering applications such as those encountered in food, fuel, natural products, minerals, pharmaceuticals and polymer industries are included. Topics related to high pressure equipment design, analytical techniques, sensors, and process control methodologies are also within the scope of the journal.
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