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Experimental method based on thermo-motive disaster multi-parameter spatio-temporal evolution analysis experiment table

An experimental method and technology of the experimental bench, which are applied in the analysis of materials, non-electric variable control, and simultaneous control of multiple variables, etc., to achieve the effect of novel design, easy popularization and use, and reasonable design.

Active Publication Date: 2016-12-07
XIAN UNIV OF SCI & TECH +1
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Problems solved by technology

At present, it is still impossible to use experimental methods to cooperate with the experimental method of multi-parameter spatio-temporal evolution of mine thermodynamic disasters to solve the problem of multi-parameter spatio-temporal evolution of thermodynamic disasters within the mine.

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  • Experimental method based on thermo-motive disaster multi-parameter spatio-temporal evolution analysis experiment table
  • Experimental method based on thermo-motive disaster multi-parameter spatio-temporal evolution analysis experiment table
  • Experimental method based on thermo-motive disaster multi-parameter spatio-temporal evolution analysis experiment table

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Embodiment Construction

[0055] Such as Figure 1 to Figure 5 As shown, the experimental method of the present invention based on the multi-parameter spatio-temporal evolution analysis test bench for thermodynamic disasters, the test bench includes a test bench device for simulating mine thermodynamic disasters and the multi-parameter spatio-temporal analysis of the multi-parameter generated by the test bench device An experimental control terminal for evolution analysis, the test bench device includes a test bench skeleton 1, a pile cap arranged in the test bench skeleton 1 and a roadway simulation module installed on the pile cap, the roadway simulation module is set There are on-off valves 6 for simulating the degree of mine collapse and simultaneously simulating mine tunnel dampers, fans 5 for simulating mine ventilation facilities, and actuators 7 for simulating the occurrence of mine thermodynamic disasters. The disaster detection mechanism 4 of the thermodynamic disaster parameters, the disaste...

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Abstract

The invention discloses an experimental method based on a thermo-motive disaster multi-parameter spatio-temporal evolution analysis experiment table. The method comprises the steps of 1, determining a mine simulation object and establishing an experiment table device; 2, detecting the airtightness of the experiment table device; 3, initializing an experiment control terminal; 4, controlling the change of ventilation quantity in a roadway simulation module, roof caving position, roof caving degree and smoke and gas discharge position and speed, and acquiring the mine thermo-motive disaster multi-parameter spatio-temporal evolution process; 5, judging whether the concentration of gas and oxygen in the roadway simulation module reaches a critical threshold value causing gas explosion; 6, triggering secondary gas explosion in the roadway simulation module and analyzing thermo-motive disaster multi-parameter spatio-temporal change. Steps are simple, mine roadway ventilation quantity, roof caving phenomenon and the change of smoke and gas generating rates of different positions can be simulated, the position where secondary gas explosion occurs easily in the roadway simulation module can be acquired, and thermo-motive disaster multi-parameter spatio-temporal change can be analyzed.

Description

technical field [0001] The invention belongs to the technical field of mine thermodynamic disaster simulation, and in particular relates to an experimental method based on a thermodynamic disaster multi-parameter spatio-temporal evolution analysis experiment platform. Background technique [0002] The occurrence and evolution mechanism of thermal dynamic disasters in coal mines is extremely complex, with the characteristics of strong suddenness, rapid development of disasters, huge casualties and property losses, difficulties in disaster relief, and easy to cause secondary injuries. During the rescue process, a variety of secondary disasters may occur underground in coal mines. For example, the high-temperature open flames generated by the disaster may block the route for rescuers to enter and exit the disaster area at any time, and cause the ventilation disorder in the disaster area, making the environment in the disaster area extremely unstable. A gas explosion occurred. ...

Claims

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Application Information

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IPC IPC(8): G05B19/418G01N33/00G05D27/02
CPCG05B19/418G05D27/02G01N33/00Y02P90/02
Inventor 郭军郑学召金永飞邓军
Owner XIAN UNIV OF SCI & TECH
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