SU1666855A1 - Boiler plant - Google Patents

Abstract

The invention relates to energy, can be used in gasified boilers and aims to increase efficiency by providing optimal conditions for radiative heat transfer. When the unit is operating in the temperature deviation mode of the blown air supplied from the contact heater 1 to the boiler 3, the optimum signal from the temperature sensor 10 is fed to the input of the regulating unit 17, which is compared with the signal from the unit 18, and then fed to the regulator 9 flow rate installed in the heating path of the surface heat exchanger 7, regulating the flow rate of the medium (hot network water from the heat network) through the latter. Combustion products after the boiler 3 enter the contact economizer 2, where water is heated. Condensate (desalinated water), separated from the combustion products after their deep cooling in contact economizer 2, is removed from the latter through calciner 14 and condensate collector 8, and then fed to the heating network. 1 il.

Description

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The invention relates to power engineering and can be used in gasified boiler houses.

The purpose of the invention is to increase efficiency by providing optimal conditions for radiative heat exchange.

The drawing shows a diagram of the boiler plant.

The boiler plant contains a boiler 3 equipped with contact heaters 1 and an economizer 2 connected in parallel with its supply and discharge lines 4 and 5, respectively, to the heating paths of the heat network 6 and the surface heat exchanger 7. The heating path of the heat exchanger 7 is connected to the contact air heater 1, and the contact economizer 2 has accumulations for 8 condensates connected to the supply line 4 of the boiler 3. The heating path of the surface heat exchanger 7 is equipped with a flow regulator 9 connected to the sensor 10 te air perature mounted on the output pin 1 of air heater.

The plant also has surface heat exchangers 11 and 12 connected in parallel by its heating paths to economizer 2. and the paths of the heated medium to air heater 1. Air heater 1 is also connected to water supply system 13 and, through a heat exchanger 12, to a hot water supply system (not shown).

The condensate collector 8 is connected to the economizer 2 via the calciner 14, and to the supply line 4 of the boiler 3 via the deaerator 15. The condensate collector is equipped with an overflow pipe 16.

The installation also includes a control unit 17 associated with the sensor 10, the flow controller 9 and the setting unit 18.

The installation works as follows.

Saturated air after the contact air preheater 1 is fed to the boiler 3, from where the products of combustion with the water vapor contained in them are directed to the contact economizer 2.

Combustion products after the boiler 3 enter the contact economizer 2, where water is heated. The heated water passes through heat exchangers 11 and 12, is cooled and returned to contact economizer 2.

The water cooled in the air preheater 1 is pumped sequentially through heat exchangers 11 and 7 where it is heated to the required temperature and returned

into the air heater 1. Water from the water supply system 13, which enters the hot water supply system, passes to the air heater 1 in advance. In this case, a part of the water supply is spent on compensation of water evaporated in the contact air heater 1, and the rest of the water supply is removed from salt 1. Then, the water of the hot water supply system is supplied to the heat exchanger 12 for heating. Condensate (desalinated water) released from the combustion products after they are deeply cooled in contact economizer 2,

5 is removed from the latter through the calciner 14 to the condensate collector 8, from where the condensate is fed to the deaerator 15 and further to feed the heat network to the supply line 4.

0When temperature deviation blows

air from the optimal signal from the temperature sensor 10 is fed to the input of the regulating unit 17, where it is compared with the signal from the setting unit 18, and then

5 is supplied to the flow controller 9, which, when the air temperature drops below the optimum, increases the flow rate of the heating coolant entering the heat exchanger 7, and when the temperature rises

0 air above the optimum - reduces consumption.

Such an embodiment of the boiler plant allows regulating the flow rate of the heating coolant supplied to the surface heat exchanger 7 based on the temperature of the blast air entering the boiler 3. Since the blast air leaves the contact heater 1 in a state close to

0 saturation, its moisture content is determined only by its temperature. Thus, with an increase in the temperature of the blast air, on the one hand, the combustion temperature in the furnace (and thermal

5), on the other hand, the degree of blackness of the furnace and the heat flux increase. At the optimum temperature of the blast air, the heat flux by the radiation in the furnace is maximum. When the temperature of the blast air deviates from the optimal one, the flow rate of the heating coolant changes and the temperature of the blast air again approaches the optimum one.

5 Providing an optimal mode of radiation heat exchange in the furnace of the boiler 3 makes it possible to increase the economy with a simultaneous decrease in the amount of harmful emissions (nitrogen oxides) contained in the combustion products.

Claims (1)

Claims of the invention A boiler plant comprising a boiler equipped with contact heaters and economizers, connected in parallel by supply and outlet lines to the heating paths of the heat network and surface heat exchanger, the heating path of which is connected to the contact heater, and its heating path is equipped with a flow regulator This contact economiser communicates through the condensate collector with the supply line of the boiler, characterized in that, in order to improve efficiency by ensuring optimal conditions of radiation heat exchange in the boiler furnace, it additionally contains an air temperature sensor installed at the outlet of the contact air preheater and connected to mentioned flow controller.