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Simulation experimental device for coupling effects of solid-liquid-gas three phase media in coal mine stope

A simulated experimental device and three-phase technology, applied in material inspection, material analysis using acoustic wave emission technology, soil testing, etc., can solve problems such as increased difficulty in mold making, easy disintegration, qualitative errors, etc., to achieve popularization and application High value, accurate monitoring results, and the effect of preventing safety accidents

Inactive Publication Date: 2014-04-09
XIAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Solid-state simulation tests usually mainly use simulation materials such as sand, gypsum, and large white powder, but these materials are easy to disintegrate when exposed to water. The simulation test must first develop non-hydrophilic simulation materials, that is, the model materials need to choose non-hydrophilic materials for mold making , the gas-bearing rock formation also needs to be molded with breathable and impermeable materials, which increases the difficulty of mold making
Moreover, many simulation results cannot well reflect the actual situation of diagenetic geological bodies in the engineering state, and some qualitative errors often occur, but there are few experimental studies

Method used

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  • Simulation experimental device for coupling effects of solid-liquid-gas three phase media in coal mine stope
  • Simulation experimental device for coupling effects of solid-liquid-gas three phase media in coal mine stope
  • Simulation experimental device for coupling effects of solid-liquid-gas three phase media in coal mine stope

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Table 1 shows the mining technical parameters related to the physical prototype of the project site. The similarity ratio used in the simulation experiment = 1:100; the thickness of the coal seam is 32.9cm, the mining height is 3.5cm, and the coal setting height is 26.5cm. The experimental design and related parameters such as Figure 4 shown.

[0019] Table 1 Basic parameters of on-site mining

[0020]

[0021] Such as figure 1 As shown, 1-1 is the front view of the simulation experiment device for the coupling action of solid-liquid-gas three-phase medium in the coal mine stope of the present invention, and 1-2 is a perspective view thereof, and the solid-liquid-gas three-phase medium in the coal mine stope of the present invention The phase-medium coupling simulation experiment device includes: a base 1, a main frame 2, a side guard plate 3, mining components, simulated material layers (20 to 29) and a monitoring device.

[0022] Base 1: The structure is a qua...

Embodiment 2

[0037] The simulation experiment of "solid-liquid-gas" three-phase medium coupling in stope includes the following steps:

[0038] Step 1. Fill the simulated material layers (20 to 29) in the main frame 2 according to the requirements in proportion, so as to be similar to the geological, structural, hydrological and mechanical characteristics of the prototype.

[0039] Step 2: Excavate stope conditions in the model to form a working environment.

[0040] Step 3: Carry out the regular operation cycle of the stope, load the preset pressure, inject the tracer liquid and gas, start the ventilation device 17 to pump air, and carry out the experimental simulation.

[0041] ①Regular operation cycle in the stope: simulate operation according to the field operation mode.

[0042] ②Adjust pressure: adjust the pressure according to the actual proportion of the prototype to ensure that the model is in the same surrounding rock pressure environment.

[0043] ③ in the aquifer. The tracer...

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Abstract

The invention discloses a simulation experimental device for the coupling effects of solid-liquid-gas three phase media in a coal mine stope. The device comprises a pedestal, a main body frame, side guard plates, a mining assembly, a simulation material layer and a monitoring instrument. With a framed structure, the main body frame is provided with a filling hole on the top, with the bottom connected to the pedestal through a bearing. The side guard plates, made of synthetic glass, are mounted on the front and back side faces of the main body frame to serve as transparent observation windows on the front and back sides. The mining assembly includes a support model in the mining face and a blast pipe and a return air pipe of a ventilation unit. With accurate monitoring results and integrated monitoring means, the device makes fully use of the systematic advantages to conduct timely, field and scientific monitoring and carry out precise prediction, thus providing reliable theoretical basis and guidance for the design and production practice.

Description

technical field [0001] The invention relates to a coal mine stope solid-liquid-gas three-phase medium coupling simulation experiment device, which involves solid mechanics, seepage mechanics, structural geology, geophysics, rock mechanics, underground engineering, petroleum engineering, and environmental engineering. - The influence of liquid-gas" three-phase medium coupling effect. Background technique [0002] In the physical simulation test, choosing the appropriate model material is one of the key links in the quantitative simulation. According to the similarity theory of simulated rocks, that is, the similarity criteria and properties that simulated rock materials should follow in the multi-phase coupling state, the materials suitable for similar model tests in underground engineering must have the characteristics of large volume, low strength and stable performance. . For research topics related to the "solid-liquid-gas" three-phase, such as mining under the conditio...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N33/24G01N29/14
Inventor 曹建涛来兴平伍永平崔峰王青松郭秉超王宁波漆涛蒋东辉
Owner XIAN UNIV OF SCI & TECH
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