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Quantitative analysis method of liquid-state products of hydrocarbon generation and expulsion simulation experiment

A simulation experiment and quantitative analysis technology, applied in the field of oil and gas geochemistry, can solve the problems of high operation difficulty, uncertainty of the accuracy of quantitative results of light hydrocarbons, interference of standard sample peaks, etc., to achieve good repeatability of experimental results, accurate and reliable quantitative results. , the effect of reliable technical methods

Active Publication Date: 2015-01-21
PETROCHINA CO LTD
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Problems solved by technology

The oil-water separation and weighing method proposed by Zhang Wenzheng et al. High, light hydrocarbons are severely volatilized during the oil-water separation process and constant weight process, and it is very difficult to completely separate oil-water
A small amount of water mixed with light hydrocarbons or a small amount of light hydrocarbons left in water will cause great errors, so the experimental results are difficult to repeat, and the accuracy of the quantitative results of light hydrocarbons obtained cannot be determined
Adding organic solvents such as dichloromethane to the container for collecting light hydrocarbons can avoid the loss of light hydrocarbons during the oil-water separation process, but the presence of solvents cannot quantify light hydrocarbons by weighing methods
Zheng Lunju et al. (Zheng Lunju, Ma Zhongliang, Wang Qiang et al. Quantitative evaluation of hydrocarbon generation potential by pyrolysis of source rocks in limited space. Petroleum Experimental Geology, 2011, 33(5):452-459) used conventional gas chromatography to quantify light hydrocarbons, but Since the collected light hydrocarbon components contain colloid and other components at the same time, the peaks of saturated hydrocarbons and aromatic hydrocarbons overlap and co-distillate, which interferes with the standard sample peaks to varying degrees, and cannot obtain accurate quantitative results of light hydrocarbons.
Even with a light hydrocarbon (C 15 The following hydrocarbons) quantitative results, due to the heavy hydrocarbons containing C 15 Part of the composition of the following hydrocarbons, the amount of liquid hydrocarbons still cannot be determined
Therefore, in the actual hydrocarbon generation and expulsion simulation experiments, the collected light hydrocarbons and other liquid products are often mixed together for analysis, because C 15 The following hydrocarbon components are volatilized and lost, and the results of liquid products obtained are incomplete, which affects the estimation of resources

Method used

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  • Quantitative analysis method of liquid-state products of hydrocarbon generation and expulsion simulation experiment

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Embodiment 1

[0035] This embodiment provides a quantitative analysis method for liquid products in a simulation experiment of hydrocarbon generation and expulsion. The black shale samples in the Xiahuayuan area of ​​Zhangjiakou were taken for hydrocarbon generation and expulsion simulation experiments (the information of the samples is shown in Table 1). The liquid products of the samples subjected to hydrocarbon generation and expulsion simulation experiments were collected, processed, analyzed and Calculate and get quantitative results.

[0036] Table 1

[0037]

[0038] The method for quantitative analysis of the liquid product in the simulation experiment of hydrocarbon generation and expulsion in this embodiment includes the following steps:

[0039] A. Collection and treatment of liquid products in hydrocarbon generation and expulsion simulation experiments:

[0040] A1. Light hydrocarbon collection: connect the light hydrocarbon collection container to the still body of the hyd...

Embodiment 2

[0058] This embodiment provides a quantitative analysis method for liquid products in a simulation experiment of hydrocarbon generation and expulsion. Get the same sample as in Example 1, and use the same method as in Example 1 to carry out the hydrocarbon generation and expulsion simulation experiment, and the liquid hydrocarbon products in the hydrocarbon generation and expulsion simulation experiment will be quantified according to the liquid product in the hydrocarbon generation and expulsion simulation experiment identical to Example 1. Analytical methods were used to analyze and obtain quantitative results. The quantitative results of this example were compared with those of Example 1 to investigate the repeatability of the method for quantitative analysis of liquid products in the hydrocarbon generation and expulsion simulation experiment of the present invention.

[0059] The data of S1, F1, W1, S2, F2, W and N of this embodiment are shown in Table 3.

[0060] table 3...

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Abstract

The invention provides a quantitative analysis method of liquid-state products of a hydrocarbon generation and expulsion simulation experiment. The method comprises the following steps: collecting and treating the liquid-state products of the hydrocarbon generation and expulsion simulation experiment, wherein the step comprises light hydrocarbon collecting, heavy hydrocarbon collecting, standard sample adding, dehydrating, filtering and concentrating; carrying out quantitative analysis on the liquid-state products of the hydrocarbon generation and expulsion simulation experiment by utilizing a comprehensive two-dimensional gas chromatography-hydrogen flame ionization detector, wherein the step comprises primary comprehensive two-dimensional analysis, natural volatilization for constant weight as well as secondary comprehensive two-dimensional analysis; calculating full-component quantitative result of the liquid-state products of the hydrocarbon generation and expulsion simulation experiment. The quantitative analysis method disclosed by the invention can be used for avoiding volatilization of light hydrocarbon, has better experiment result repeatability and simple and easy-to-learn operation, and provides a reliable technical method for the quantitative analysis of the liquid-state products of the hydrocarbon generation and expulsion simulation experiment, so that estimation on basin oil and gas resource amount is more objective.

Description

technical field [0001] The invention relates to a quantitative analysis method for liquid products in a simulation experiment of hydrocarbon generation and expulsion, and belongs to the technical field of oil and gas geochemistry. Background technique [0002] The hydrocarbon-generating potential and resource evaluation of source rocks in sedimentary basins is one of the core scientific issues in oil and gas research. Hydrocarbon generation and expulsion simulation experiments are currently widely used important technical means for evaluating the hydrocarbon-generating potential of source rocks and regional oil and gas resources. The products of hydrocarbon generation and expulsion simulation experiments include gaseous products and liquid products. Gaseous products refer to components that are gases at normal temperature and pressure, including methane, ethane, propane, butane, and carbon dioxide. The liquid product refers to the carbon number distribution from C 5 to C ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N30/02
Inventor 张水昌王汇彤翁娜张斌朱光有苏劲陈瑞银
Owner PETROCHINA CO LTD
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