RU3028U1 - INSTALLATION FOR PREPARATION OF THE HEATING MEDIA - Google Patents

Abstract

1. Installation for the preparation of a coolant containing a heat generator, characterized in that it is equipped with at least two solid fuel fired and parallel-connected periodic heat generators, each of which is independently connected to the oxidizer supply system and to the coolant consumption device. 2. Installation according to claim 1, characterized in that the oxidizing agent is fed into the lower zone of the heat generator. Installation according to claim 1, characterized in that the oxidizing agent is fed into the upper zone of the heat generator. Installation according to claim 1, characterized in that air is used as an oxidizing agent.

Description

INSTRUMENT FOR PREPARING SPRING

The invention relates to the field of drying of objects and materials and, in particular, to devices for the preparation of heat transfer fluids used for dlf drying

Heat generators are known for producing drying agents used in the production of, for example, vitamin flour from grass, as well as in grain dryers% see, for example, Chemical processing of fuel edited by V.A. Lapshin, A.V. Lozovoy, N.V. Shishakova, publishing house of the Academy of Sciences of the USSR, 1957 p. 431; Shishakov N.Z. Fundamentals of the production of combustible gases, Moscow, Rosenergoizdat, 1948, p. 479 /

Known heat generators operate on diesel fuel, which makes their use economically impractical due to the high cost of diesel fuel.

The proposed technical solution is a utility model that solves the problem of increasing the efficiency of the process by reducing its cost due to the use of solid fuel-based heat generators / coal, briquettes, including peat, firewood /.

This is achieved due to the fact that in the installation for the preparation of a coolant containing a heat generator, at least two solid-fuel fired and parallel-connected periodic heat generators are used, each of which is independently connected to the oxidizer supply system and to the coolant consumption device.

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The invention is illustrated in the drawing, which schematically shows the proposed installation.

The installation contains to ensure the continuity of operation of at least two heat generators I and 2, connected by a pipe 3 to a source 4 of the oxidizing agent. The pipeline 3 is divided into branches 5 and 6, passing, respectively, to the heat generators J and 2. In branches 5 and b, valves 7 and 8 are integrated, respectively. The heat generators from the side opposite to the oxidizer supply pipe 3 connected to them are individually connected by branches 9 and 10 pipeline II with a device for the consumption of coolant / not shown /. 3 branches 9 and 10 are also integrated valves 12 and 13.

The diagram shows a diagram in which the oxidizer supply line is connected to the heat source from below, and the drain line from the heat carrier heat generator is connected from above. For normal operation of the installation, the connection points of these lines to the heat generator can be interchanged, i.e. the oxidizer supply line can be connected from above, and the coolant drain line can be connected down the heat generator. Such a change in the connection points of the lines will not be reflected in any way on the installation workflow.

The installation works as follows.

To start the cycle of work on the preparation of the coolant, heat generators are filled with solid fuel and kindle, for example, heat generator I in the upper or lower part of the fuel layer in accordance with the accepted scheme of connecting to heat generators I and 2 of pipelines 3 and II. Preliminarily open the sliders 7 and 12 and the heat block a pair of valves 8 and 13. Ignition of the heat generator I is carried out by a special incendiary device / not shown / or, in the simplest case, by kindling with firewood.

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use air. Air is supplied by an oxidizing agent source 4, for example, by an air blower, through a pipe 3 and through an open valve 7 to a heat generator I. When it enters a heat generator, the air is filtered through excess fuel and due to the same pressure the combustible gas generated as a result of combustion, those. the coolant along the branch 9 of the pipeline II and through the open valve 12 enters the apparatus for drying materials.

By the time the solid fuel is burned in the heat generator I, the heat generator 2 is ignited, having previously opened the valves 8 and 13, after which the valves 7 and 12 are closed, the heat generator I is turned off. Ashes are removed from the heat generator I and loaded with fuel, i.e. prepare for the next cycle of work. Further operation of the installation with a working heat generator 2 is carried out similarly to the above, which allows for continuous operation of the installation.

the use of the proposed installation will achieve a significant economic effect. For example, an AVM-1.5 vitamin flour aggregate consumes 400 tons of diesel fuel during a month's work at a cost of 1 kg of diesel fuel 1000 r. The proposed installation with a monthly cycle of work will require 1000 tons of coal at a cost of the last 18 rubles. for I kg. At the same time, the euonomic effect from the use of the proposed installation will vary by region depending on the cost of coal in them. The above data apply to the Krasnoyarsk Territory.

The minimum number of heat generators in the proposed installation is two. The maximum number of heat generators in the proposed installation is not limited.

Claims (4)

1. Installation for the preparation of a coolant containing a heat generator, characterized in that it is equipped with at least two solid fuel fired and parallel-connected periodic heat generators, each of which is independently connected to the oxidizer supply system and to the coolant consumption device.  2. Installation according to claim 1, characterized in that the oxidizing agent is fed into the lower zone of the heat generator.  3. Installation according to claim 1, characterized in that the oxidizing agent is fed into the upper zone of the heat generator.  4. Installation according to claim 1, characterized in that air is used as an oxidizing agent.