A Quantitative Simulation System and Method for Alkane Oxidation Process in Deep Sea Sedimentary Environment

A technology for environmental alkane and oxidation process, applied in measurement devices, design optimization/simulation, instruments, etc., can solve problems such as fidelity, difficulty in quantitative research on alkane oxidation process, difficulty in complete process of deep-sea sediment samples, etc., to achieve directional change Effect

Active Publication Date: 2022-06-24
GUANGDONG UNIV OF TECH
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Problems solved by technology

[0005] The present invention provides a quantitative simulation system and method for the alkane oxidation process in the deep-sea sedimentary environment to solve the problems that it is difficult to quantitatively study the alkane oxidation process in the deep-sea sedimentary environment and the deep-sea sediment samples are difficult to maintain the whole process.

Method used

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  • A Quantitative Simulation System and Method for Alkane Oxidation Process in Deep Sea Sedimentary Environment
  • A Quantitative Simulation System and Method for Alkane Oxidation Process in Deep Sea Sedimentary Environment
  • A Quantitative Simulation System and Method for Alkane Oxidation Process in Deep Sea Sedimentary Environment

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Embodiment 1

[0042] like Figure 1 to Figure 2 As shown, a quantitative simulation system for alkane oxidation processes in a deep-sea sedimentary environment, including deep-sea sediment samples, also includes:

[0043] A deep-sea environment high-pressure simulation chamber 1, the deep-sea environment high-pressure simulation chamber 1 is communicated with and interacts with the experimental module 4, and is used to carry out a quantitative simulation experiment of the alkane oxidation process in the deep-sea sedimentary environment;

[0044] Ambient temperature simulation module 2, the detection end of the environmental temperature simulation module 2 is set in the deep-sea environment high-pressure simulation chamber 1, and is used to obtain the temperature information in the deep-sea environment high-pressure simulation chamber 1 and transmit it to the data acquisition control module 5;

[0045] The environmental pressure simulation module 3, the detection end of the environmental pr...

Embodiment 2

[0072] like image 3 As shown, a quantitative simulation method for alkane oxidation process in a deep-sea sedimentary environment includes the following steps:

[0073] S1: The ambient high-pressure simulation chamber 1 is heated or cooled by the ambient temperature control water bath sub-module 21, so that the temperature in the ambient high-pressure simulation chamber 1 is always consistent with the temperature of the deep-sea environmental sampling point;

[0074] S2: Put the deep-sea sediment samples into the environmental high-pressure simulation chamber 1, inject the same seawater as the deep-sea environmental sampling point into the environmental high-pressure simulation chamber 1 through the liquid pressurization sub-module 33, and pressurize it to the same pressure as the deep-sea environmental sampling point, At the same time, through the constant pressure control sub-module 31, the pressure of the environmental high-pressure simulation chamber 1 is adjusted to incr...

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Abstract

The invention discloses a system and method for quantitatively simulating the alkane oxidation process in a deep-sea depositional environment, and relates to the technical fields of marine natural gas hydrate resource development and environmental ecological engineering. Pressure simulation module, experiment module, and data acquisition control module; through the cooperation of each module, the temperature and pressure in the high-pressure simulation chamber of the environment are the same as the sampling points of the deep-sea environment during the whole experiment process, so as to realize the fidelity of the whole process of deep-sea sediment samples; through Quantitative alkane-containing fluid is injected into the deep-sea environment high-pressure simulation chamber for reaction to realize the quantitative study of the alkane oxidation reaction process in the deep-sea depositional environment; by injecting directional experimental fluid into the deep-sea environment high-pressure simulation chamber for reaction, the alkane oxidation reaction process in the deep-sea depositional environment is realized. Orientation changes.

Description

technical field [0001] The invention relates to the technical field of marine natural gas hydrate resource development and environmental ecological engineering, and more particularly, to a quantitative simulation system and method for alkane oxidation process in a deep-sea sedimentary environment. Background technique [0002] The deep-sea surface sediment layer is an important carrier connecting the deep-sea water body and the deep crustal environmental medium. Studies have shown that 80% of methane and other hydrocarbon-containing gases leaked from the deep environment undergo anaerobic oxidation reactions mediated by microorganisms in the deep-sea shallow sedimentary environment, which greatly reduces the proportion of hydrocarbon fluids entering the upper water environment and reduces the Serious negative impact on the marine water environment, and avoidance of entering the atmospheric environment, aggravating the global greenhouse effect and bringing about climate disas...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/20G01D21/02
CPCG06F30/20G01D21/02
Inventor 张偲冯景春杨志峰冯星伟蔡宴朋
Owner GUANGDONG UNIV OF TECH
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