SU1511535A1 - Thermal plant - Google Patents

Abstract

The invention relates to heat exchange engineering and can be used in a power system. The purpose of the invention is to improve the efficiency of the thermal installation. Air enters stage (C) 4, where it is heated in the cold period of the year from the initial temperature (T) to the intermediate T allowed to flow into the volume of the casing 7. Then the fan (B) 6 air is sucked through the casing where it is heated to the maximum allowable for the casing T, for example 30-40 ° C. The air is then supplied to C 6 in C 5, where it is heated to final T. The heating coolant is first fed to C 5, where it is partially cooled to intermediate T, and then to C 4, where it is cooled to final T. heat generation equipment 1, causing an increase in T of air in the casing above the permissible, a part of the heating coolant is bypassed through the bypass pipeline 8, covering its passage in C 4 until it is completely shut off. This solution allows you to vary the load on the C 4, which increases the efficiency of work. 1 il.

Description

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The invention relates to heat exchange engineering and can be used in a power system.

The aim of the invention is to increase the efficiency of work.

The drawing schematically shows the proposed thermal installation.

. The heat installation contains heat-generating equipment 1 and series-connected in the air path 2 and path 3 of the heating coolant and second air heating stages 4 and 5, between which in the path 2 there is a fan b. The installation contains an additional stage 7, included in the air path 2 between the stages 4 and 5, and filled in the form of a casing enclosing the heat generating equipment 1, while the first stage 4 in the air is equipped with a bypass pipe 8 of the heating coolant with a flow regulator 9, - associated with the sensor. 10 air temperatures established before the second stage 5. In path 3 of the heating coolant there is a pump 11 and an economizer 12 included in the gas stove f 13 flue gases.

Thermal installation works the following way;

The air enters stage 4, where it is heated in the cold period of the year from the initial temperature (for example, -30 ° C) to an intermediate temperature (for example, + 10) allowed to flow into the volume of the casing of stage 7. Then the fan 6 draws air through the volume of the jacket where it is heated. due to heat emissions from equipment 1 to a temperature that is maximum permissible for the volume of the casing (approximately 30-40 ° C). The air is supplied by fan b to stage 5, where it is dogged to the required temperature (approximately 70 ° C).

The heating coolant heated by economizer 12 (for example, up to 130) is served first in stage 5,

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where it is cooled to an intermediate temperature (approximately 90 ° C), after which it enters stage 4, where it is cooled to a final temperature (approximately 60 ° C), and is pumped by an It pump back to economizer 12.

With fluctuations in the initial air temperature and heat generation equipment 1, causing the air temperature in the volume of the casing to rise above the permissible (30-40 s), at the command of the sensor 10, the regulator 9 passes a portion of the coolant through the bypass

5 to pipeline 8, covering its passage to level 4 until it is completely shut off during the warm period of the year.

This solution allows using heat from the equipment 1 for heating the air and changing the heat load to stage 4 depending on the changing working conditions, which increases the efficiency of the work, since it makes it possible to use

25 saved heat, in this case flue gases, in economizer 12 for others, for example, additional heating of feedwater or heat water.

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Claims (1)

Invention Formula The heat installation containing the heat-generating equipment and the first and second air-heating stages, which are successively included in the air path and in the heating heat carrier path, between which the valve is located in the air path,. that, in order to increase the efficiency of work, it contains an additional one. step included in the airway between the aforementioned steps and made in the form of a casing enclosing the heat generating equipment, while the first main air through the stage is equipped with a bypass conduit of the heating coolant with a flow regulator.