RU2127398C1 - Boiler installation - Google Patents

Abstract

FIELD: boiler houses operating on natural gas. SUBSTANCE: boiler installation is additionally fitted with steam pipe-lines connecting inlet duct of blow fan of boiler to branch pipes that carry away flush steam of air decarbonizer and open-type deaerator part of which flush steam can be directed into leaving smoke gas conduit over pipe-line placed in gas conduit between boiler and economizer. Proposed connection circuit makes it feasible to utilize flush steam of open-type deaerator and air decarbonizer which leads to increased efficiency of boiler installation. EFFECT: increased efficiency. 1 dwg

Description

 The invention relates to energy and can be used in gasified boiler plants operating on natural gas.

 A boiler plant is known, which comprises a boiler equipped with contact air heater and an economizer, connected in parallel with its supply and exhaust lines to the heating paths of the heat network and the surface heat exchanger, the last heated path of which is connected to the contact air heater, and the contact economizer has a condensate collector connected to the boiler supply line [1].

 The disadvantage of the boiler installation is its reduced efficiency due to the increased heat consumption for heating the blast air; the unit does not utilize vapor from the deaerator and air decarbonizer.

 A known boiler installation [2] differs from the installation described in [1] in that the heating path of the surface heat exchanger is equipped with a flow regulator associated with an additional level sensor installed in the condensate collector of the contact economizer.

 The disadvantage of this installation is also the reduced efficiency, since the vapors of the deaerator and air decarbonizer are not disposed of.

 The purpose of the invention is to increase efficiency by disposing of vapor from an atmospheric deaerator and an air decarbonizer and by eliminating from the boiler plant diagram a contact air heater and an electric fan of an air decarbonizer.

 This goal is achieved by the fact that in the boiler installation there is no contact air heater and an electric fan for the air decarbonizer, and the branch pipes of the exhaust vents of the atmospheric deaerator and air decarbonizer are connected by pipelines to the suction duct of the boiler blower fan, while part of the deaerator vapor can be directed into the gas duct in front of the contact economizer.

 The drawing shows a diagram of a boiler installation.

 The boiler installation comprises a boiler 2 equipped with a contact economizer 1 and connected in parallel with its supply and outlet lines 3 and 4 to the heating circuit of the heating network 5, an atmospheric deaerator 6 and an air decarbonizer 7, the outlet pipes of the vapor outlets of which are connected by pipelines to the suction duct of the boiler blower fan 8, gas duct 9, exhaust fan 10 and heat exchanger 11. The economizer 1 has a collector 12 of irrigation water and condensate connected to the supply line 3 of the boiler 2 through the collection tank 13 of the decarbonizer 7 and deaerate op 6.

 The heat exchanger 11 is connected with its heating path to the economizer 1, and the path of the heated medium to the hot water supply system (not shown).

 The boiler installation works as follows. The exhaust flue gases after boiler 2 enter the economizer 1, where they are cooled below the dew point as a result of direct contact with the flow of irrigation water, with partial condensation of water vapor from the gases. Heated irrigation water passes through the heat exchanger 11, is cooled and returned to the contact economizer 1.

 Condensate (demineralized water) released from the combustion products during their deep cooling in the contact economizer 1 flows into the collector 12 and is removed from it through the collecting tank 13 of the decarbonizer 7, from where it is supplied to the atmospheric deaerator 6 and then fed to the heating path of the heating network 5.

 Vapors of the deaerator 6 and decarbonizer 7 are fed into the suction duct of the fan 8, heated and at the same time moisten the blast air, which is supplied to the boiler 2, from where the products of combustion with the water vapor contained in them are sent to the contact economizer 1. When the blast air is saturated with water vapor, part of the vapor deaerator 6 is sent to the gas duct 9 in front of the contact economizer 1. Heating and humidification of the blast air contributes to an increase in the production of own condensate released from the combustion products 1 in the economizer.

 Thus, the connection of the suction duct of the boiler blower fan by pipelines with the branch pipes of the vents of the atmospheric deaerator and air decarbonizer allows you to utilize the fumes of the deaerator and decarbonizer, to exclude the contact air heater and electric fan of the air decarbonizer from the circuit, while ensuring the production of its own condensate, which allows to work in some cases without chemical cleaning water, which increases the efficiency of the boiler plant.

Sources of information taken into account during the examination
1. USSR author's certificate on application N 2752874. cl. F 22 D 1/36, 1979.

 2. USSR author's certificate on application N 909413, cl. F 22 D 1/36, 1982.

Claims (1)

 A boiler installation comprising a boiler equipped with a blower fan and a smoke exhaust fan, connected in parallel with its inlet and outlet lines to the heating circuits of the heating network, an air decarbonizer, a contact economizer, the condensate collector of which is connected to the boiler supply line through a decarbonizer collecting tank and an atmospheric deaerator, characterized in that the unit is additionally equipped with pipelines connecting the suction duct of the boiler blow fan with the branch pipes of the air decarbonization evaporator branches torus and atmospheric deaerator, part of the vapor of which is directed into the flue gas channel through a pipeline connected to the gas duct between the boiler and the economizer.