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Seawater driven photolithographic glass model microscopic experiment device for NGH (natural gas hydrate)

An experimental device and glass model technology, applied in the field of natural gas hydrate seawater flooding photolithography glass model microscopic experimental device, can solve the problems of the influence of the accuracy of the experimental results, the difficulty of achieving uniform saturation, and the difficulty of observing the growth and decomposition process of sample hydrates, etc. , to improve the experimental precision and accuracy

Inactive Publication Date: 2018-01-26
DALIAN DONGYOU RUIJIA PETROLEUM TECH CO LTD
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Problems solved by technology

However, after the natural gas hydrate sample is placed on the sample stage, the changes on the surface of the sample can only be observed through a microscope, and it is difficult to observe the growth and decomposition process of the hydrate inside the sample; and the device of its invention has only one gas inlet and coolant inlet. It is difficult to achieve uniform saturation when saturated with natural gas and coolant, which will have a certain impact on the accuracy of experimental results

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  • Seawater driven photolithographic glass model microscopic experiment device for NGH (natural gas hydrate)
  • Seawater driven photolithographic glass model microscopic experiment device for NGH (natural gas hydrate)
  • Seawater driven photolithographic glass model microscopic experiment device for NGH (natural gas hydrate)

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Embodiment Construction

[0037] The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

[0038] Such as figure 1 Shown is a structural schematic diagram of a natural gas hydrate seawater flooding photolithographic glass model microscopic experimental device of the present invention, including a gas supply system, a liquid supply system, a simulated pore model system, a seawater injection system, a production system and a monitoring system; wherein The gas supply system is connected to the simulated pore model system, the liquid suppl...

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Abstract

The invention discloses a seawater driven photolithographic glass model microscopic experiment device for NGH (natural gas hydrate) and relates to the field of NGH exploitation. The device comprises agas supply system, a liquid supply system, a simulated pore model system, a seawater injection system, a production system and a monitoring system. According to the device, photolithographic glass istaken as a main body of the simulated pore model system, natural gas and water are supplied to the simulated pore model system by the gas supply system and the liquid supply system to form NGH, seawater is injected by the seawater injection system to simulate seawater injection exploitation, NGH decomposed products are collected by the production system, and crystal growing and decomposing parameters in the experiment process of NGH are collected by the monitoring system; the photolithographic glass is prepared with a photochemical etching technology by precisely photolithographing real poresof natural core casting slices onto plain glass, so that precision of the experiment is guaranteed, and the device has certain guidance function for study of NGH physical nature.

Description

technical field [0001] The invention discloses a microscopic experimental device for a photolithographic glass model of natural gas hydrate seawater flooding, and relates to the field of natural gas hydrate development. Background technique [0002] Natural gas hydrate (NGH for short) is a non-stoichiometric clathrate compound formed by natural gas and water at a certain low temperature and high pressure, also known as "combustible ice". 1m 3 Natural gas hydrate can contain 164m 3 methane gas and 0.8m 3 of water. "Combustible ice" is a secondary product of natural gas, and its application range is roughly the same as that of natural gas. It is a typical oil substitute. "Combustible ice" is extremely flammable. Under the same conditions, the energy generated by the combustion of "combustible ice" is dozens of times higher than that of coal, oil, and natural gas. It is known as "the super energy of the future". [0003] my country is rich in combustible ice reserves. Acco...

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Application Information

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IPC IPC(8): G01N33/22
Inventor 张晓丽袁鹏飞
Owner DALIAN DONGYOU RUIJIA PETROLEUM TECH CO LTD
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