SU1765611A1 - Boiler plant - Google Patents

Description

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(21) 4853146/06 (22) 05.28.90 (46) 30.09.92. Bul Number 36

(71) Ukrainian department of the All-Union State Research and Design Institute VNIPIenergoprom and Institute for Problems of Energy Saving of the Academy of Sciences of the Ukrainian SSR

(72) L.G.Semenyuk and O.A.Cherkassky

(56) 1. USSR Author's Certificate No. 1121537, cl. F22 D 1/36, 1983.

2. USSR author's certificate number 1177591, cl. F22D 1/36, 1984.

(54) BOILER INSTALLATION

(57) Usage: in industrial heating, in particular in boiler houses operating on natural gas. SUMMARY OF THE INVENTION: The installation comprises a steam boiler 1 operating on natural gas, from which the combustion products enter the contact economizer 10. The water cooled in the contact air heater 11 is circulated

The circuit is fed through the sprinkler 22 into the contact chamber of the economizer 10, where it is heated and drains into the sump 12. Next, water and condensate of water vapor from the flue gases through the heating path of the surface heat exchanger 15 flow through the main sprinkler 18 an air heater sprinkler 20 11. In the installation, an additional surface heater 16 connected through the heated medium between the surface heat exchanger 15 and the chemical cleaning unit 17 is connected about the heating medium to the circulation path of the boiler. The surface heat exchanger 15 is connected via a heating medium to the circulation circuit of the contact heaters 11 and economizer 10. The missing amount of feed water is filled with raw water supply through the surface heat exchanger 15 and additional heater 16 to the water cleaning unit 17. 1 il.

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The invention relates to energy and can be used in natural gas-fired boilers.

The known boiler installation contains a boiler equipped with a contact economizer and an air preheater with irrigators and pallets interconnected by circulation circuits, and also a water heater 1.

The disadvantages of this installation include the possibility of frosting of the air inlet pipe of the contact air heater when the outdoor air is heated with negative temperatures, which reduces the living section of the pipe and may lead to the destruction of the air heater.

The closest to the proposed boiler house in terms of technical essence is a boiler plant containing a boiler equipped with a contact economizer and an air preheater with sprinklers and pallets interconnected by a circulating circuit, a water preheater built into the contact economizer air water jacket, the output of which is connected to the additional irrigator 2.

A disadvantage of the known installation is the low efficiency of the water preheater built into the contact economizer.

In such irrigation-type heat exchangers, the creation of a developed surface of heat and mass transfer is associated with a significant increase in metal intensity. Higher efficiency is achieved in contact nozzles with a remote intermediate heat exchanger. In a nozzle contact apparatus, a contact surface between exchanging media is developed by the use of a cheap ceramic nozzle.

The increased efficiency of the remote water heat exchanger is achieved due to the high values of the heat transfer coefficient in such heat exchangers.

Connecting a water heater to low-potential consumers (for example, heating raw water before chemical purification) provides water to the built-in heat exchanger with a temperature of up to 20-30 ° C, which is higher than the water temperature of the circulation circuit after the contact air heater. the water is cooled to 8-10 ° C.

Higher temperatures of the water entering the integrated heat exchanger do not allow for deep cooling.

combustion products in contact economizer.

The aim of the invention is to improve the economy by further reducing the temperature of the cooling water at the inlet to the economizer and utilizing heat to preheat the source water.

In a boiler plant containing a source water circuit with a surface heat exchanger and a chemical water treatment unit, as well as a boiler, in the circulation path of which a heat sink is connected connected to the network circuit in a heated medium, and a contact air preheater and economizer, a pallet to the line of make-up water and communicated by the circulation circuit with the heater of the air preheater, the goal is achieved by the fact that the installation is supplied connected to the heated medium between the surface a heat exchanger and a chemical water treatment unit with an additional surface heater connected through the heating medium to the boiler circulation path, the surface heat exchanger is connected via the heating medium to the circulation circuit of the contact heat exchangers, and the source water circuit is connected to the supply water line. last connected to the network circuit.

The drawing shows the boiler plant thermal power plant.

The installation contains a steam boiler 1, in the circulation path of which heat turbine 2, equipped with a condenser 3 with a cooling tower 4, and a boiler 5, of which condensate through the deaerator 6 enters the boiler 3, are included as heat consumers.

The boiler 5 is connected via a heated medium to a network circuit including a supply 7 and an outlet 8 lines and a heat consumer 9. The gas-air duct of the boiler 1 includes contact economizer 10 and air heater 11. The pallet 12 of the economizer 10 is connected via a make-up water line, which includes a condensate collector 13 and a deaerator 14 of the feed, to the heat circuit consumer 9. To the line of make-up water is connected to the source water circuit, which includes heated paths of the surface heat exchanger 15 and additional surface heater 16, as well as the installation 17 of water cleaning.

The pallet 12 of the economizer 10 is communicated by the circulation circuit of the contact heat exchangers through the heating path of the surface heat exchanger 15 with the main

The sprinkler 18 and through the water jacket 19 with the additional sprinkler 20 of the contact air preheater 11. With the same circulation circuit, the pallet 21 of the preheater 11 is connected to the sprinkler 22 of the contact economizer 10.

Boiler installation works as follows.

The waste products of the combustion of the boiler 1, working on natural gas, enter the contact economizer 10, where they are cooled and removed into the chimney when in direct contact with the heated water in the layer of ceramic nozzle.

The cooled water of the circulation circuit of the contact heat exchangers through the sprinkler 22 of the economizer 10 is fed to the nozzle of the contact chamber, where it is heated, and flows into the sump 12. From the sump 12, this water through the heating path of the surface heat exchanger 15, where it is partially cooled, flows into two main streams the sprinkler 18 and through the water jacket 19 to the additional sprinkler 20 of the contact air heater 11. In the air heater 11, water is in direct contact in the layer of the ceramic nozzle with the heated air Home is deeply cooled and flows into the pan 21, from where it is fed to the irrigator 22 of the contact economizer 10.

Steam from boiler 1 through the circulation path of the boiler goes to the heat consumer to the cogeneration turbine 2. Part of the steam from the heat fixing selections of the turbine 2 is sent to the boiler 5 and an additional surface heater 16. The steam after the turbine 2 is directed to the condenser 3, where it condenses due to cooling the circulating circuit of the cooling tower with water. 4. Condensate from boilers 5, additional surface heater 16 and condenser 3 through the de-aerator enters boiler 1. Heated in boilers 5, water from the network circuit is directed to po- giving lines 7 to 9, the heat consumer and returns by outlet line 8 for heating boilers 5.

Excess condensate water vapor formed during deep cooling of the combustion products in the contact economizer 10 is removed from the tray 12 and sent through the supply water line to the condensate collector 13 and the make-up deaerator 14, which is fed from the network

circuit in the outlet line 8 consumer 9 heat.

The condensate obtained from the combustion products can only compensate by 20-30% for water losses in the network circuit, since a part of it is spent on humidification of the blast air in the contact air heater 11.

The missing amount of make-up water is replenished by supplying raw water along the contour of the source water through the heating paths of the surface heat exchanger 15 and an additional surface heater 16 to the chemical water treatment unit 17 and from there to the deaerator 14. The heater 16 is set to maintain the temperature of the heated water (for example, 40 ± 1 ° C) before water treatment 17.

The proposed scheme of a boiler plant allows reducing the consumption of fuel consumed by increasing the degree of heat utilization of the fired boiler combustion products in the contact economizer due to a decrease in water temperature in front of the water distributor reached in the contact air heater.

Claims (1)

Invention Formula A boiler plant containing a source water circuit with a surface heat exchanger and a chemical water treatment unit, as well as a boiler, in the circulation path of which a heat sink is connected, connected to the network circuit via a heated medium, and an air heater and economizer in the air-gas path, the sump of which is connected to a make-up line water and is communicated by a circulation loop with an air heater sprinkler, characterized in that, in order to increase efficiency by further reducing the temperature cooling water inlet to the economizer and heat recovery for preheating the source water, the installation is equipped with an additional surface heater connected by the heated medium between the surface heat exchanger and the water treatment unit connected to the circulation path of the boiler by the heating medium, the surface heat exchanger is connected to the circulating coolant contact circuit of the heat exchangers, and the aforementioned source water circuit is connected to the make-up water line, the latter being connected to the network contour.