SU1652745A1 - Boiler installations - Google Patents

Abstract

The invention relates to the field of power engineering, can be used for contact heating of water with low-grade heat of exhaust flue gases while reducing the generation of harmful substances emitted into the atmosphere, and allows for greater efficiency. For this purpose, the installation is equipped with gas flow regulators 11 and 12 placed respectively in the duct 3 in front of the contact heat exchanger (T) 2 and on the bypass line (L) 4 in front of the surface T 5. and the associated temperature sensor (D) 13 leaving them gases for T 2. In the operation mode of the installation, accompanied by an increase in the temperature of flue gases leaving T 2, and when it exceeds a predetermined level, D 13 gives an impulse to regulators 11 and 12. Hot flue gases from boiler 1 partially enter T 2 through gas duct 3, and partially through L 4. Bypasser cooled in T 5 Large flue gases entering T 2 reduce the total amount of heat transferred to the heated water. At the same time, the temperature of flue gases at the outlet of T 2 decreases to the set value. The water supplied to the boiler 1 is additionally heated in T 5. 1 sludge. sl C

Description

The invention relates to a power system and can be used for contact heating of water with low-potential heat of exhaust gases with a decrease in the generation of harmful substances emitted into the atmosphere by exhaust gases.

The purpose of the invention is improving efficiency.

The drawing shows a schematic diagram of a boiler plant.

The boiler installation comprises a boiler 1 connected to a contact heat exchanger 2 by a gas duct 3 and a bypass line 4 connected to a gas duct 3 with a surface heat exchanger 5 mounted thereon, connected via a heated medium at the inlet by a pipe 6 to the cooling medium circuit 7 of the contact heat exchanger 2. The circuit 7 contains a water distribution irrigation system 8, circulation pump 9 and heat consumer 10, made in the form of a surface heater. In addition, the installation is equipped with gas flow controllers 11 and 12, respectively located in the gas duct 3 in front of the contact heat exchanger 2 and on the bypass line 4 in front of the surface heat exchanger 5, and an associated flue gas temperature sensor 13 located in the gas duct 3 behind the contact heat exchanger 2. In the circuit 7, at the outlet of the cooling medium from the contact heat exchanger 2, a temperature sensor 14 of this medium is connected, connected with the flow controllers 11 and 12, and a drainage pipe 15. The surface heat exchanger 5, according to the heated medium, has connected by a pipe 16 to the boiler 1.

Installation works as follows.

Under normal operating conditions, when the temperature of the flue gases discharged from the contact heat exchanger 2 does not exceed the set temperature, the bypass line 4 is completely closed and the hot flue gases discharged from the boiler 1 pass through the gas duct 3 to the contact heat exchanger 2, where they are cooled by the medium circulating along circuit 7 ( water) and the condensation of the water vapor contained in the flue gas is carried out. In this case, the circulating medium is heated. Part of the hot water heated in the contact heat exchanger 2 to reduce the generation of harmful emissions and increase the temperature of the wet gas thermometer through the surface heat exchanger 5 is pumped 9 to the boiler 1. Since the bypass line 4 in this case is blocked by the flow regulator 5, the water in the heat exchanger 6 is not heated.

Another part of the circulating heated water gives its heat to the consumer 10 and enters the water distribution irrigation system 8.

To maintain a certain flow rate of water entering the contact heat exchanger 2, part of the condensed moisture (condensate) is removed through the drain pipe 15.

In the case when the temperature of the flue gases leaving the contact heat exchanger 2 is higher than the set temperature, the temperature sensor 13 gives a pulse to the actuator (not shown) of the gas flow controllers 11 and 12 and the gas flow is redistributed. Hot flue gases from the boiler 1 partially enter the contact heat exchanger 2 through the gas duct 3, and partially through the bypass line 4. The bypass flue gases cooled in the surface heat exchanger 5 entering the contact heat exchanger 2 reduce the total amount of heat transferred to the heated water. In this case, the temperature of the exhaust gases at the outlet of the contact heat exchanger 2 is reduced to a predetermined one. The water supplied to the boiler 1 is additionally heated in the heat exchanger 5.

The amount of water vapor condensed from the flue gas as well as the temperature of the water heated in the contact heat exchanger 2 are constant values for the considered operating modes.

When returning to normal operating conditions of the boiler unit with a partially open bypass line 4, the water temperature at the output of the contact heat exchanger 2 will decrease. The temperature sensor 14 gives an impulse to the actuator of the gas flow regulators and, as a result of the redistribution of the gas flow, the regulator 12 is covered and the gas flow entering the contact heat exchanger 2 through the gas duct 3 increases.

Bypassing part of the flue gases through a surface heat exchanger 5 using a temperature sensor 13 allows you to utilize the heat of condensation of water vapor of the total amount of exhaust flue gases, i.e. to achieve a deeper drying of the gases leaving the contact heat exchanger.

Claims (1)

Claim A boiler installation comprising a boiler connected to a gas duct with a contact heat exchanger and a bypass line connected to the gas duct with a surface heat exchanger placed on it and connected through a heated medium at the inlet to the cooling medium circuit of contact 5 heat exchanger containing a water distribution irrigation system and a heat consumer, characterized in that, in order to increase efficiency, the installation is equipped with gas flow regulators located in the duct in front of the contact heat exchanger and associated with of flue gas temperature sensor placed in the duct for contact heat exchanger. moreover, the surface heat exchanger outlet is connected to the boiler via a heated medium.