RU2630838C1 - Mine calorifier installation - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: mine calorifier includes blowers, a number of plate elements installed in the lower part of the heater duct adjacent to the shaft of the shaft and oriented along the flow of air. When a water or chemical substance is used as a coolant on the plate elements, a heat exchange tube system is formed that forms a closed loop for the circulation of the heat transfer fluid, including control valves and control devices for supplying the coolant. The plate elements are located in the air passage channel parallel to the walls of the lower part of the heater channel with the possibility of adjusting their angle of inclination relative to each other and the lower part of the heater duct. In this case, the fans are located in the surface building and/or in the air duct to the plate elements and/or after the plate elements.

EFFECT: reduction of energy costs for the operation of the plant with the use of various types of thermal energy and ensuring uniform warming of the air.

4 dwg

Description

The invention relates to the mining industry and can be used in the ventilation system of underground mining enterprises.

A well-known mine air heater installation including blower fans and an air heater with plate electric heating elements fixed in the lower part of the air duct adjacent to the shaft of the mine, and oriented by the air flow entering the air duct. These elements are made with the possibility of regulating the heat conduction of the air heater by changing the voltage applied to them, and the number of plates is calculated depending on the maximum negative value of the temperature of the outdoor air and its volume entering the air duct, while the walls of the lower part of the air duct adjacent to the air supply barrel, made around the perimeter with an insulating layer, and the discharge fans are made with the possibility of changing the operating mode and regulation mixing process air entering the air supply shaft (patent RU №133877 from 27/10/2013).

Signs of an analogue that coincide with the essential features of the invention are discharge fans; lamellar elements fixed in the lower part of the calorifer channel adjacent to the shaft of the mine, and oriented by the flow of air entering the calorifer channel.

The reasons that impede the achievement of the technical result indicated below when using the known installation include the fact that a vertical arrangement of plate-shaped electric heating elements is used in the well-known shaft heating installation. At the same time, heated air (lighter) will almost completely accumulate at the top of the air duct. Cold air will pass through the lower part of the air duct, after which it will enter the barrel. In this case, an emergency may occur due to cold air entering the barrel.

The closest device of the same purpose to the claimed invention in terms of features is a mine air heater, including blower fans and a number of plate elements installed in the lower part of the air duct adjacent to the shaft of the shaft, and oriented along the air flow. The installation is equipped with a system of heat exchange tubes fixed to plate elements, forming a closed loop of liquid heat or coolant circulation, which includes control valves and devices for cooling and heating the heat or coolant (patent RU No. 142085 of 06/20/2014). This installation is taken as a prototype.

Signs of the prototype, which coincides with the essential features of the invention - pressure fans; a number of plate elements installed in the lower part of the calorifer channel adjacent to the shaft of the mine, and oriented along the air flow; when water or a chemical is used as a heat carrier, a system of heat exchange tubes is fixed on the plate elements, forming a closed loop of liquid heat carrier circulation, including control valves and control devices for supplying the heat carrier.

For reasons that impede the achievement of the technical result indicated below when using the known installation adopted as a prototype, the vertical arrangement of the plates is used in the well-known mine air heater. At the same time, heated air (lighter) will almost completely accumulate at the top of the air duct. Cold air will pass through the lower part of the air duct, after which it will enter the barrel. In this case, an emergency may occur due to cold air entering the barrel.

The problem to which the invention is directed, is to increase the efficiency of a mine air heater.

The technical result consists in reducing energy costs for the installation when using various types of thermal energy, in ensuring uniform heating of the air supplied to the barrel.

The specified technical result is achieved due to the fact that in the well-known mine air heater, including discharge fans, a number of plate elements installed in the lower part of the air duct adjacent to the shaft of the mine, and oriented along the air flow, when using water or a chemical substance as a heat carrier a system of heat exchange tubes is fixed on the plate elements, forming a closed loop of circulation of the liquid coolant, including control valves and regulating According to the invention, the plate elements for supplying the heat transfer medium are arranged in the air channel parallel to the walls of the lower part of the air channel with the possibility of adjusting the angle of their inclination relative to each other and the lower part of the air channel, while the fans are located in the surface building and / or in the air channel to the air channel elements and / or after plate elements.

Signs of the proposed technical solution, distinctive from the prototype - the installation of plate elements in the air duct parallel to the walls of the lower part of the air duct; installation of plate elements in the air duct with the ability to control the angle of their inclination relative to each other and the lower part of the air duct; the location of the fans in the surface building and / or in the air duct to the plate elements and / or after the plate elements.

The location of the heating plate elements parallel to the walls of the lower part of the air duct will ensure the formation of floor sections in which the heat field is evenly distributed, which will reduce the energy costs of the installation and increase its efficiency.

By choosing the location of the fan (in a surface building, before and / or after the air heater installation in the channel), and also by adjusting the angle of inclination of the plate elements relative to each other and the lower part of the air-heating channel, better control of mixing heated in the shaft air-heating installation is provided and cold air flows sucked through the mine building, which will ensure uniform heating of the air supplied to the shaft shaft, reduce energy consumption costs for the installation and to increase the efficiency of its operation.

The applicant is not aware of the use in science and technology of the hallmarks of a mine air heater with the receipt of the specified technical result.

The invention is illustrated by the drawings shown in FIG. 1-4.

In FIG. 1 shows a diagram of the air supply through the air heater to the air supply barrel.

In FIG. 2 - a plate element into which either water or a chemical substance enters. In the drawings (Fig. 1-2) are indicated:

1 - outside air;

2 - calorifer channel;

3 - air supply barrel;

4 - mine air heater;

5 - plate elements;

6 - tubes with a coolant;

7 - heated (cooled) air;

8 - intake air;

9 - mine building;

10 - discharge fans;

11 - surface building.

In FIG. 3 shows the distribution of temperature flows in the proposed mine air heater.

In FIG. 4 shows the distribution of temperature flows in a well-known mine air heater, taken as a prototype.

Mine air heater 4 contains a pressure fan 10 and a number of plate elements 5 installed in the lower part of the air duct 2 adjacent to the air supply shaft 3 of the mine, and oriented by the air flow. Plate elements 5 are installed in the air channel 2 parallel to the walls of the lower part of the air channel 2. To control the speed of the heated air flow 7 and the degree of its heating, the plate elements 5 can be installed with the possibility of adjusting the angle of inclination of each of the plate elements 5 relative to each other and the lower part of the air heater channel 2. The number of plates 5 is calculated depending on the maximum negative value of the outdoor temperature 1, its volume and geometric dimensions of lorifer channel 2. Fans 10 may be located in the surface building 11 and / or air channel 2 to the plate elements 5 and / or after the plate elements 5.

The walls of the lower part of the calorifer channel 2 adjacent to the air supply barrel 3 can be made along the perimeter with a heat-insulating layer. When water or a chemical is used as a heat carrier, a system of heat exchange tubes 6 is fixed on the plate elements 5 (Fig. 2), which forms a closed loop of liquid heat or coolant circulation, including control valves and devices for cooling and heating the heat or coolant (not shown )

Mine air heater works as follows.

Outside air 1 is supplied to the air duct 2 adjacent to the air supply barrel 3. In the air duct 2 there is a shaft air heater 4, consisting of plate elements 5 located parallel to the walls of the lower part of the air duct 2, as a result of which floor sections are created in the air duct 2 . The distance between the plate elements 5 is determined in such a way as to ensure uniform heating of the outdoor air 1, taking into account the effect of convective rise of heated air from one plate element 5 to another. Depending on the pricing policy for heating the air 1 in the mine air heater 4 can be used electric current flowing through the plate elements 5; water or a chemical substance (for example, ethylene glycol) passing through tubes 6, for which the plate elements 5 will be ribs. Also, the coolant formed during the combustion of fossil fuels (for example, natural gas) can be supplied to the tubes 6.

In the case of using water or a chemical substance as a heat carrier, a mine air heater 4 can be used to cool air 1 in the warm season.

In addition to heated air 7, outside air 8, which has not undergone air preparation, is sucked through the mine building 9, enters the air supply barrel 3.

Outside air 1 is supplied to the air duct 2 by means of pressure fans 10 located in the surface building 11 and / or in the air duct 2 to the plate elements 5 and / or after the plate elements 5. In this case, it is possible to better control the mixing of the heated 7 in mine air heater 4 and sucked through the shaft building 9 cold air flows 8. Also, to control the speed of the heated air flow 7 and the degree of heating, plate elements 5 can be installed with possibility of adjusting the angle of inclination of each of the plate-like elements 5 relative to each other and the bottom of the channel 2 of air heater.

The perimeter channel 2 is equipped with a heat-insulating layer around the perimeter. As a heat-insulating layer can be used thermoglass (thermo glass).

To justify the effectiveness of the proposed design of the mine air heater (ШКУ) in the ANSYS CFX program, the process of heating the air in it was simulated (Fig. 3), as well as in the installation consisting of vertical plate heating elements (Fig. 4).

In the calculations, the following conditions were adopted: the temperature of the air entering the air chamber (outdoor temperature) is -36 ° C; the required value of the outlet temperature is + 5 ° С; the number of plate heating elements - 5 pcs.

The geometric dimensions of the air duct in both cases were assumed to be the same.

As a result of mathematical modeling, it was found that with a vertical arrangement of plate heating elements in the air duct, air flows with different temperatures arise (Fig. 4). The most heated air stream flows in the upper part of the air duct, and the minimum heated - in its lower part. When calculating the average value of air temperature, taking into account the volume of air flows and their temperature, the air temperature value equal to + 5 ° С is really obtained at the outlet of the air-duct. However, the presence of a negative temperature air stream in the air-duct channel (Fig. 4) indicates that in the barrel this stream may not mix with the heated air stream, as a result of which zones with a negative temperature will be present in it. This situation is unacceptable from the point of view of the Security Rules.

Modeling of the process of heating air with plate heating elements parallel to the walls of the lower part of the air-duct channel showed that in the channel air is heated to almost the same temperature in all zones (Fig. 3).

An insignificant deviation is observed near the walls of the air heater channel, where heating is carried out only due to the operation of one plate heating element. In the case of equipping the heater channel around the perimeter with insulating material or even more with thermo glass (thermo glass) in these areas, the air will heat up to a higher temperature.

At the outlet of the air-duct channel, when the plate heating elements were arranged parallel to the walls of the lower part of the air-duct channel, during the simulation, the required air temperature required by the conditions was + 5 ° С. At the same time, the heating temperature of plate-type heating elements is 28% lower than the temperature required for heating in a mine air heater, taken as a prototype.

When using electric current as a heat carrier, the heating temperature of plate-type heating elements is approximately 12% lower than the temperature required for heating in a mine air heater, consisting of vertical plate-type electric heating elements, with the same parameters of the outdoor air, the required value of the air temperature at the outlet of the installation, geometric the size of the heater channel and the number and thickness of the plate heating elements.

Thus, the proposed design of the shaft air heater will allow you to evenly warm the air supplied to the barrel. In this case, it will be necessary to heat the plate elements of the mine air heater to a lower temperature, i.e. spend less energy on its work. This indicates the effective operation of the mine air heater. In addition, the advantage of the installation is that it can be used for various types of thermal energy.

Claims (1)

A mine air heater installation including blowing fans, a number of plate elements installed in the lower part of the air channel adjacent to the shaft of the mine, and oriented along the air flow, when using water or a chemical as a heat carrier, a plate heat exchange system is fixed on the plate elements, forming a closed loop circulation of a liquid coolant, including control valves and control devices for supplying a coolant, characterized in that the plate The elements are located in the heater channel parallel to the walls of the lower part of the heater channel with the possibility of regulating the angle of their inclination relative to each other and the lower part of the heater channel, while the fans are located in the surface building and / or in the heater channel to the plate elements and / or after the plate elements.

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