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Correlations of NMR relaxation time with viscosity/temperature, diffusion coefficient and gas/oil ratio of methane-hydrocarbon mixtures.

机译:NMR弛豫时间与甲烷/烃混合物的粘度/温度,扩散系数和气/油比的相关性。

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A 90 MHz NMR Spectrometer equipped with a high pressure probe was used to study relationship between NMR relaxation time and temperature, viscosity, diffusivity and gas/oil ratio of methane-hydrocarbon mixtures. This research project involves three parts: (1) modifications of the existing NMR apparatus. (2) Measurements of relaxation times and diffusion coefficients of methane-hydrocarbon mixtures. (3) Development of generalized correlations between transport properties and temperature and relaxation times.; The NMR apparatus was modified in order to make elevated temperature and pressure measurements. The modifications included calibration of pressure transducers, addition of temperature measuring devices, connection to the high pressure sample probe of a sapphire sample cell and leak detection of the system. After the modifications, the apparatus was capable of measurements from 20 to 60°C at pressure up to 6000 psia.; NMR relaxation measurements of three mixtures, methane-n-hexane, methane-n-decane and methane-n-hexadecane, were made. The log mean relaxation times were plotted against viscosity/temperature and it was found that unlike stock tank oils, they do not depend linearly on viscosity/temperature on a log-log scale. Each of the mixtures forms a different curve on the plot of relaxation time vs. viscosity/temperature.; Diffusivity measurements were also made for these three mixtures, as well as pure hexane, decane and hexadecane. The log mean diffusion coefficients were calculated. The relationship between diffusion coefficients and relaxation times were studied, and it was found that diffusion coefficients depend linearly on T1 for pure hydrocarbons, but the dependence does not hold for methane-hydrocarbon mixtures.; Correlations between transport properties and NMR relaxation times were developed. First, a relaxation time mixing rule was developed by studying the theory of NMR relaxation mechanism. From the mixing rule, it was found that departure of relaxation times of methane-n-alkane mixtures from linear correlation on a log-log scale can be correlated with proton fractions of methane, which can be expressed as gas/oil ratio. Thus, correlation between relaxation time, viscosity/temperature and gas/oil ratio was developed. Correlation between relaxation time, diffusivity and gas/oil ratio was also developed. From these correlations, viscosity and gas/oil ratio can be estimated just from NMR relaxation time and diffusion coefficient.
机译:使用配备有高压探头的90 MHz NMR光谱仪研究NMR弛豫时间与甲烷,烃混合物的温度,粘度,扩散率和气/油比之间的关系。该研究项目包括三个部分:(1)现有NMR装置的修改。 (2)测量甲烷-烃混合物的弛豫时间和扩散系数。 (3)传输性质与温度和松弛时间之间的广义相关性的发展;修改了NMR设备,以进行升高的温度和压力测量。修改内容包括压力传感器的校准,温度测量设备的添加,与蓝宝石样品池的高压样品探针的连接以及系统的泄漏检测。修改后,该设备能够在高达6000 psia的压力下从20至60°C测量。进行了三种混合物(甲烷-正己烷,甲烷-正癸烷和甲烷-正十六烷)的NMR弛豫测量。将对数平均弛豫时间对粘度/温度作图,发现与储油罐油不同,它们在对数对数刻度上不线性地取决于粘度/温度。每种混合物在松弛时间对粘度/温度的曲线上形成不同的曲线。还对这三种混合物以及纯正己烷,癸烷和十六烷进行了扩散率测量。计算对数平均扩散系数。研究了扩散系数与弛豫时间的关系,发现纯烃的扩散系数与T 1 线性相关,而甲烷-烃混合物的扩散系数与T 1 没有线性关系。建立了传输性质与NMR弛豫时间之间的相关性。首先,通过研究核磁共振弛豫机理的理论,建立了弛豫时间混合规则。根据混合规则,发现甲烷-正构烷烃混合物的弛豫时间偏离对数对数刻度的线性相关性可以与甲烷的质子分数相关,其可以表示为气/油比。因此,建立了弛豫时间,粘度/温度和气/油比之间的相关性。还建立了弛豫时间,扩散率和气/油比之间的相关性。根据这些相关性,仅通过NMR弛豫时间和扩散系数就可以估计粘度和气/油比。

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