WO2016041389A1 - Method for evaluating filling quality at working face of solid-filling coal mining - Google Patents

Abstract

Provided is a method for evaluating the filling quality at a working face of solid-filling coal mining. Firstly, a solid-filling coal mining control object is determined by a solid-filling coal mining application purpose; secondly, corresponding evaluation indexes for different filling mining purposes are selected according to the control object; then, a theoretically required range of each evaluation index is determined from the engineering geological parameters at the working face and the control object; and finally, a comparative analysis of the theoretical value and the actual value of the evaluation index is performed to obtain a quality evaluation result of the filling working face. This method provides a reference for effective evaluation of the filling quality at a working face of solid-filling coal mining, has an important significance for ensuring successful implementation of solid-filling coal mining, and is particularly suitable for the evaluation of the filling quality at a working face of solid-filling coal mining with a solid such as gangue and pulverized coal ash.

Description

Quality evaluation method for filling surface of solid filling coal mining face Technical field

The invention relates to a quality evaluation method for filling coal mining face, in particular to a filling quality evaluation method suitable for solid filling coal mining face such as vermiculite and fly ash.

Background technique

As a kind of green mining technology independently developed by China and able to coordinate with the environment, solid-filled coal mining technology directly fills solid waste such as surface vermiculite, fly ash and aeolian sand into the underground goaf, and controls the stope. On the basis of overburden movement and surface subsidence, the purpose of replacing coal under construction (structure), under water, under railway (three times), protecting surface structures and mining areas, and effectively balancing the economics of coal mining Benefits and environmental benefits have gained wide attention and scaled up and applied. The filling quality of solid-filled coal mining face is the key to the success of filling. At present, there is no effective evaluation method for the filling quality of solid-filled coal mining face. Therefore, it is urgent to propose a filling quality for solid-filled coal mining face. The method of effective evaluation, so as to monitor the quality of the solid-filled coal face in real time, is of great significance to ensure the successful implementation of solid-filled coal mining.

Summary of the invention

Technical Problem: The object of the present invention is to provide a simple and accurate method for evaluating the filling quality of a solid-filled coal mining face in view of the problems existing in the prior art.

Technical solution: The method for evaluating the filling quality of the solid-filled coal mining face of the present invention, and comparing the theoretical value and the actual value of the evaluation index under different solid filling mining purposes to evaluate the filling quality of the filling coal mining face, the specific steps are as follows:

(1) The purpose of application of solid-filled coal mining is to determine the object controlled by solid-filled coal mining;

(2) selecting corresponding evaluation indicators for different filling and mining purposes according to the determined control objects;

(3) Determine the theoretical requirements of each evaluation index from the engineering geological parameters and control objects of the working face;

(4) Compare and analyze the theoretical and actual values of the evaluation indicators, and obtain the results of the filling quality evaluation of the filling work surface.

The purpose of the solid-filled coal mining application includes coal mining under construction structures, coal mining under water bodies, compaction and filling of strips, solid waste treatment, and room-type coal pillar recovery; the controlled objects include building deformation levels and overlays. The range of rock fissure development, coal mining volume, solid waste treatment capacity, roof stability, different application purposes correspond to different control objects; the evaluation indicators include surface deformation value, water guiding fracture zone height, recovery rate, filling amount And the enrichment rate, different control objects correspond to different evaluation indicators; the filling work surface filling quality evaluation result is to divide the working surface filling quality into two levels: up to standard and not up to standard; if all evaluation indicators meet the respective requirements of compliance, The quality of the working surface filling is up to standard, otherwise it will not meet the standard.

Advantageous Effects: Due to the adoption of the above technical solution, the present invention only needs to determine the evaluation index according to the control object under different filling purposes in actual application, and can evaluate the filling working surface by monitoring the actual value of the evaluation index of the coal mining face in real time. quality. The invention can provide reference for the effective evaluation of the filling quality of the solid filling coal mining face, and is of great significance for ensuring the successful implementation of the solid filling coal mining. It is especially suitable for evaluation of filling quality evaluation of solid-filled coal mining face such as vermiculite and fly ash. The method is simple and easy, saves time and labor, and has good effect. It has wide practicality in the technical field.

DRAWINGS

1 is a flow chart of a method for evaluating the filling quality of a solid-filled coal mining face according to the present invention.

detailed description

The embodiments of the present invention are further described below with reference to the accompanying drawings:

As shown in FIG. 1 , the method for evaluating the filling quality of the solid-filled coal mining face of the present invention evaluates the filling quality of the filling coal mining face by comparing and analyzing the theoretical and actual values of the evaluation indexes of different solid filling mining applications. Specific steps are as follows:

(1) The purpose of application of solid-filled coal mining, such as coal mining under construction structures, coal mining under water bodies, compaction of strips, solid waste treatment, or room-type coal pillar recovery, to determine solid-filled coal mining control objects, such as Deformation level of buildings, development range of overburden fractures, coal mining volume, solid waste treatment capacity, or roof stability;

(2) According to the control object, select corresponding evaluation indicators under different filling and mining purposes, such as surface deformation value, water guiding fracture zone height, recovery rate, filling amount, or filling rate;

(3) Determine the theoretical requirements of each evaluation index from the engineering geological parameters and control objects of the working face;

(4) Compare and analyze the theoretical and actual values of the evaluation indicators, and obtain the results of the filling quality evaluation of the filling work surface. If all the evaluation indicators meet the requirements of the respective standards, the quality of the working surface filling standards will be met, otherwise, the standard will not be met.

Embodiment 1 Taking a coal mining face of a coal mine CT101 as an example, the specific implementation steps are as follows:

(1) The CT101 working face of the coal mine is located under the fourth aquifer. The purpose of the application is to mine coal under water. The mining of coal seam is seriously affected by the “four-inclusive”. To ensure the safe mining of the working face, the development range of the overlying fracture is selected as the control object. Therefore, it is necessary to strictly control the development range of the overburden fractures in the stope;

(2) In order to prevent the overburden fracture and the fourth aquifer after the mining face is mined, the height of the water-conducting fracture zone is selected as the evaluation index of the filling quality of the working face;

(3) Since the fourth aquifer directly covers the bedrock stratum and there is no water-repellent layer below, the CT101 working face coal seam is 25.6m away from the fourth aquifer. Therefore, it is necessary to ensure the filling of the coal-conducting working face water-conducting fissure zone. The height is less than the minimum distance from the coal seam to the fourth aquifer, and the theoretical value of the evaluation index is determined to be 25.6 m;

(4) After the mining of CT101 working face, the height of the water-conducting fracture zone of the overburden rock is monitored by the drilling flushing method. The maximum height of the water-conducting fracture zone is 10.5m, which is less than the theoretical value of the evaluation index of the filling coal mining. The safe mining of coal seams, so the filling quality of the solid filling coal mining face is up to standard.

Example 2: Taking a coal mining face of a coal mine 1312 as an example, the specific implementation steps are as follows:

(1) The 1312 working face of the coal mine is located under the building, mainly for brick-concrete structure. The purpose of the application is to mine coal under the building. To ensure the safe mining of the working face, the deformation level of the building is selected as the control object. The deformation of the surface building must be strictly controlled;

(2) In order to prevent the surface subsidence value from being too large after mining, the surface deformation value is selected as the evaluation index of the filling quality of the working surface;

(3) According to the situation of the ground village buildings in the filling area, the fortification standards for the fortification standards of the ground building (structure) are: the mining impact control of the building (structure) such as the ground village is within the influence range of the Class I mining The maximum surface subsidence of the building area is controlled within 250mm, and the maximum horizontal deformation of the surface is controlled within 1.0mm/m. Therefore, it is necessary to ensure that the surface deformation value of the mining face after mining is within the influence range of Class I mining, and determine the theoretical value of the evaluation index: the maximum sinking amount is 250 mm, and the maximum horizontal deformation is 1.0 mm/m;

(4) After mining of 1312 working face, the maximum sinking value of the top surface is 163mm, the maximum tensile deformation of the surface is 0.4mm/m, the maximum deformation of the surface is 0.7mm/m, and the maximum inclination of the ground is 0.7mm. /m. The surface subsidence values of all village buildings are less than 250mm fortification standards; the maximum deformation value of each village surface is much smaller than the critical deformation value of general brick-concrete structure bungalows, and the impact damage on various buildings is in the I-level range. It will not affect the normal use of various types of buildings (structures) on the ground. Therefore, the actual value of the evaluation index is less than the theoretical value of the filling coal mining evaluation index to ensure the safe mining of the coal seam under the building, so the filling quality of the solid filling coal mining face is up to standard.

Claims (5)

1. A method for evaluating the filling quality of a solid-filled coal mining face is characterized in that the filling quality of the filling coal mining face is evaluated by comparing and analyzing the theoretical value and the actual value of the evaluation index under different solid filling mining purposes, and the specific steps are as follows:

   (1) The purpose of application of solid-filled coal mining is to determine the object controlled by solid-filled coal mining;

   (2) selecting corresponding evaluation indicators for different filling and mining purposes according to the determined control objects;

   (3) Determine the theoretical requirements of each evaluation index from the engineering geological parameters and control objects of the working face;

   (4) Compare and analyze the theoretical and actual values of the evaluation indicators, and obtain the results of the filling quality evaluation of the filling work surface.
2. The method for evaluating the filling quality of a solid-filled coal mining face according to claim 1, wherein the application purpose of the solid-filled coal mining comprises coal mining under a building, coal mining under water, and band compacting. Filling, solid waste treatment, or room coal column recovery.
3. The method for evaluating the filling quality of a solid-filled coal mining face according to claim 1, wherein the control object includes a deformation level of the building, a development range of the overburden fracture, a coal mining amount, and a solid waste disposal capacity. Roof stability, different application purposes correspond to different control objects.
4. The method for evaluating the filling quality of a solid-filled coal mining face according to claim 1, wherein the evaluation index comprises a surface deformation value, a water-conducting fracture zone height, a recovery rate, a filling amount, a filling rate, and the like. The control objects correspond to different evaluation indicators.
5. The filling quality evaluation method for a solid-filled coal mining face according to claim 1, characterized in that: the filling quality evaluation result of the filling working surface is to divide the filling quality of the filling working surface into two levels: up to standard and not up to standard; If all the evaluation indicators meet the requirements of the respective standards, the filling surface fill quality will be up to standard, otherwise, the standard will not be met.

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