Thermal Magnetic Properties Variation of Rock During In-Situ Combustion Process

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-01-01 DOI:10.2118/214296-pa
D. Kuzina, D. Nurgaliev, C. Yuan, V. Morozov, M. Varfolomeev, E. Utemov, L. Chen, J. Pan, W. Pu
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Abstract

In-situ combustion (ISC) has been proven as a promising technique for the extraction of heavy oils. It has been used in oil fields since the 1920s; however, it is still not as widely used as steam injection. One of the difficulties limiting its wide application is monitoring and controlling the movement of the combustion front. This work is aimed at studying the change in the properties of rock during the ISC process, which is expected to be used for developing an effective monitoring method of the combustion front movement. Rock samples before and after the ISC process were obtained from the Xinjiang Oil field (China) where an ISC industrial pilot has been implemented. In the temperature range of lower than 500℃, the minerals may only alter slightly. Therefore, it is difficult to determine whether the rock was heated or not during the ISC processes using general mineralogical or geochemical methods, for example, X-ray diffraction. This work takes a comprehensive approach to study the variation of rock properties. Magnetic analysis was chosen as the primary method since a very tiny change in the mineral composition during heating leads to profound changes in the magnetic properties. We analyzed magnetic susceptibility (MS), natural remanent magnetization (NRM), hysteresis parameters and thermomagnetic data. In addition, we performed differential thermomagnetic analysis (DTMA) for tracing magnetic minerals based on their Curie temperatures as well as for monitoring transformations in magnetic minerals during heating. Simultaneously, X-ray diffractometer (XRD), optical microscope for thin-sections, and organic content measurements were used as assistive methods to get a comprehensive evaluation on the variation of rock. We found that there is a big difference in magnetic minerals between the initial samples (not subjected to the ISC process) and burned samples from different wells and depths in the ISC pilot. Several magnetic clusters with different coercive force and domain structure were found in these samples. Based on the difference in magnetic properties, we found that the burned samples were heated to different temperatures during the ISC process. In addition, for some rock samples, the heating temperature during the ISC process was determined, and an analysis was made of the propagation of the combustion front. The thermal magnetic properties variation of rock during the ISC process is obvious, which makes it promising to be used for monitoring the propagation direction of the combustion front. Theoretical calculations of magnetic anomalies that occur due to changes in the magnetic properties of rocks during the ISC process indicate the possibility of the detection of such anomalies from the Earth’s surface through high-precision magnetic surveys. The findings in this work provide a theoretical base and direction for developing combustion front monitoring technologies.
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岩石原位燃烧过程中热磁性能的变化
原位燃烧(ISC)是一种很有前途的稠油提取技术。自20世纪20年代以来,它一直用于油田;然而,它仍然没有像蒸汽注入那样广泛使用。对燃烧锋面运动的监测和控制是制约其广泛应用的难点之一。本工作旨在研究岩石在ISC过程中性质的变化,有望用于开发一种有效的燃烧锋运动监测方法。从新疆油田(中国)获得了ISC工艺前后的岩石样品,该油田已经实施了ISC工业试点。在低于500℃的温度范围内,矿物变化不大。因此,很难用一般的矿物学或地球化学方法(例如x射线衍射)来确定岩石在ISC过程中是否被加热。这项工作采用综合的方法来研究岩石性质的变化。由于加热过程中矿物成分的微小变化会导致磁性能的深刻变化,因此选择磁性分析作为主要方法。我们分析了磁化率(MS)、自然剩余磁化率(NRM)、磁滞参数和热磁数据。此外,我们还进行了差分热磁分析(DTMA),根据磁性矿物的居里温度来追踪磁性矿物,并监测磁性矿物在加热过程中的变化。同时,利用x射线衍射仪(XRD)、薄片光学显微镜、有机质含量测定等辅助手段,对岩石的变化进行综合评价。我们发现,在ISC试点中,来自不同井和深度的初始样品(未经过ISC工艺)和燃烧样品之间的磁性矿物存在很大差异。在这些样品中发现了具有不同矫顽力和畴结构的磁团簇。基于磁性能的差异,我们发现烧过的样品在ISC过程中被加热到不同的温度。此外,对部分岩样进行了ISC过程升温温度的测定,并对燃烧锋的传播进行了分析。在ISC过程中,岩石热磁性能变化明显,有望用于监测燃烧锋面的传播方向。对ISC过程中岩石磁性变化引起的磁异常的理论计算表明,通过高精度磁测量从地球表面探测到这种异常是可能的。研究结果为燃烧前缘监测技术的发展提供了理论基础和方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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