在测量核磁流量计-松弛仪的纵向弛豫时间时确定 Giulotto 法的应用边界

V. V. Davydov, A. A. Gol’dberg, V. Dudkin, R. Davydov
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引用次数: 0

摘要

介绍了目前在研究和控制凝聚态物质参数方面最常用的核磁共振方法,以及采用这种方法的核磁流量计-松弛仪。在监测介质参数的过程中,确定介质不同流动状态下核磁流量计-松弛仪的纵向和横向弛豫时间的特点已经确定。指出了使用调制技术记录流量计-松弛仪中的核磁信号与其他登记方法相比的优势。利用布洛赫方程中的 Giulotto 方法的各种近似值,获得了一种关系,可根据不同调制频率下核磁共振信号或共振频率振幅的两次测量结果确定纵向弛豫时间。实验证明,这种关系在应用于流动液体时有许多限制。这些限制既与记录核磁共振信号的技术有关,也与在恒定磁场的不同调制频率下产生此类信号的能力有关,而这些信号的振幅差异超出了测量误差的范围。导致确定纵向弛豫时间的比率出现这种差异的原因已经确定。找到了所获关系式的适用范围,并通过实验证明,在这些范围内,该关系式可用于弛豫常数的可靠测量。利用实验数据研究了确定纵向松弛时间的关系。实验证明,在许多情况下,虽然记录了当前介质的核磁共振信号,而且介质也有弛豫时间,但使用所指示的关系无法确定所需的值。所获得的结果使得在使用核磁共振方法研究流动介质和解决能源、石油、化工和制药行业的许多复杂问题时消除误差成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of application boundaries to Giulotto method to during measuring of longitudinal relaxation time in nuclear magnetic flowmeters-relaxometers
The method of nuclear magnetic resonance, which is currently the most common in research and control of parameters of condensed matter, and the nuclear magnetic flowmeters-relaxometers that implement this method are described. The features of determining the times of longitudinal and transverse relaxation in nuclear magnetic flowmeters-relaxometers under different flow regimes of the medium in the process of monitoring its parameters have been established. The advantages of using a modulation technique for recording nuclear magnetic signals in flowmeters-relaxometers in comparison with other registration methods are noted. Using various approximations by the Giulotto method from the Bloch equations, a relation was obtained to determine the longitudinal relaxation time from the results of two measurements of the amplitudes of the nuclear magnetic resonance signal or resonant frequencies at different modulation frequencies. It has been experimentally proven that this relationship has a number of restrictions on its application for flowing liquid. These limitations are associated both with the technique of recording nuclear magnetic resonance signals and with the ability to generate such signals at different modulation frequencies of a constant magnetic field, the amplitudes of which differ from each other beyond the measurement error. The reasons that led to this discrepancy in the ratio for determining the time of longitudinal relaxation have been established. The limits of applicability of the obtained relation are found and it is experimentally proven that within these limits this relation can be used for reliable measurements of relaxation constants. Using experimental data, the relationship for determining the longitudinal relaxation time was studied. It has been proven that in a number of cases it is impossible to determine the desired value using the indicated relationship, although nuclear magnetic resonance signals of the current medium are recorded, and the medium has relaxation times. The results obtained make it possible to eliminate errors when using the nuclear magnetic resonance method to study flowing media and solve a number of complex problems in the energy, oil, chemical and pharmaceutical industries.
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