RU2015343C1 - Method for location of seats of underground fires - Google Patents

Abstract

FIELD: control of underground fires. SUBSTANCE: introduced is additional indicating gas in control hole drilled to point under maximum concentration of fire gases. Anomaly is found by this gas in layer near surface. Line is drawn through points of introduction of indicating gas and its maximum content in layer near surface. Center of fire seat is determined on extension of line drawn from point of indicating gas introduction to side opposite from occurred anomaly at distance equal to interval between points of introduction of indicating gas and found maximum concentration of this gas in layer near surface. Used as indicating gas is sulfur hexafluoride. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the mining industry and can be used to combat underground fires.

 A known method for determining the location of foci of underground fires, including drilling wells, isolating fire sites with subsequent measurement of depression of natural and heat traction, the center of the fire is determined by the minimum total depression [1].

 The disadvantages of the method are the high complexity due to the need to isolate the site and drill many wells, as well as the danger of accumulation of combustible gases when the fan stops.

 A known method for determining the location of foci of underground fires, including drilling holes and control wells on the surface to determine the concentration of fire gases above the background value and determine the source under the borehole with the maximum content of these gases [2].

 The disadvantage of this method is the low efficiency when there are air leaks with a horizontal component in the worked out space, which lead to the displacement of gas anomalies in the surface layer from the vertical projection of the focus.

 The aim of the invention is to increase the accuracy of determining the location of foci of underground fires by determining the deviation of the gas anomaly from the vertical projection of the source.

This goal is achieved by the fact that in the method of determining the location of the centers of underground fires, including drilling holes and control wells on the surface, taking gas samples in them to determine the concentration of fire gases, an additional indicator is launched into a control well drilled to a point under the maximum concentration of fire gases gas and find the anomaly formed by this gas in the surface layer, then draw a line through the start points of the indicator gas and its maximum content in the surface th layer, focal point is on the extension of the line drawn from the start point of the tracer gas in the opposite direction from the anomaly appeared at a distance equal to the interval between the points of start of the tracer gas and the resulting maximum concentration of gas in the surface layer. As triggered indicator gas, for example, sulfur hexafluoride (FS ₆ ) is used.

Significant differences of the proposed method are
an additional indicator gas is launched into a well drilled to a point under the maximum concentration of fire gases and anomalies of this gas in the near-surface layer are determined;
determine the center of the focus on the continuation of the line drawn from the point with the maximum concentration of the supplied gas in the surface layer through the start point at a distance from the start point equal to the interval between the start points of the indicator gas and the resulting maximum concentration of this gas in the surface layer;
the use of sulfur hexafluoride (FS ₆ ) as a trigger indicator gas.

 The transfer of fire gases from the source to the surface is often accompanied by their drift by air leaks in the worked out space. Therefore, the gas anomaly of fire gases formed in the surface layer is shifted from the vertical projection of the source. Finding the location of the focus in these cases is difficult and requires additional drilling of many control wells.

 In the case of launching an additional indicator gas into the control well, it also displaces as it moves to the surface. The determination of the anomaly of the triggered gas formed in the surface layer shows the direction of gas displacement and its magnitude. Therefore, the location of the focus can be found at a distance of this displacement from the anomaly of fire gases in the surface layer, directed towards the air leakage.

 It is advisable to use gas that is non-specific for the process of spontaneous combustion of minerals as a trigger. As such a gas, sulfur hexafluoride (FS6) can be used, which is not present under normal conditions in mines and does not form when burning minerals. The advantage of the gas is that it does not decompose when heated.

 The drawing shows a flow chart of the proposed method.

 The scheme includes a fire center 1, located in a mined-out space 2 with air leaks 3, with an anomaly 5 of fire gases formed in the surface layer 4, a control well 6 for triggering an additional indicator gas, anomaly 7 formed by it in the surface layer, and a vertical projection of the hearth 8.

 The method is implemented as follows.

When determining the location of the center of the underground fire 1, located in the worked-out space 2 with the available air leaks 3, a gas survey is carried out in the surface layer 4 to determine the anomaly 5 of the fire gases. Then drill control well 6 into the mined space at a point located under the found anomaly 5 of fire gases. If the source is not found at this point, which indicates a displacement of the gas anomaly from the vertical projection of the source, an additional indicator gas, for example sulfur hexafluoride (FS ₆ ), is launched into the well 6, and a near-surface gas survey is again carried out to be located in the surface layer 4 formed by this gas anomalies 7. Then determine the distance between the gas start points and the resulting anomaly 7 and lay it on a line drawn through the indicator gas start points and its maximum content in the near-surface layer, from the gas start point in the opposite direction from the anomaly that has appeared. The found point is the vertical projection of focus 8.

 The application of the proposed method will clarify the location of the foci in the worked out space with air leaks. Increasing the effectiveness of locating foci allows you to reduce the flow of refrigerant and the extinguishing time of foci. At the same time, mining safety is enhanced.

Claims (2)

 1. METHOD FOR DETERMINING THE LOCATION OF GROUND FIRES, including drilling holes and control wells on the surface, sampling them to determine the concentration of fire gases, characterized in that, in order to improve the accuracy of determining the location of centers of underground fires, in a control well drilled to a point under the maximum concentration of fire gases, they start an additional indicator gas and find the anomaly formed by this gas in the surface layer, then draw a line through the launch points an additional indicator of gas and its maximum content in the near-surface layer, and the center of the focus is found on the extension of this line drawn from the indicator gas launch point to the side opposite from the anomaly that appeared at a distance equal to the interval between the indicator gas launch points and the maximum concentration of this gas formed in the near-surface layer.  2. The method according to claim 1, characterized in that sulfur hexafluoride is used as an additional indicator gas.

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