SU1746148A1 - Boiler plant - Google Patents

Abstract

Use in boiler rooms with hot water boilers to maintain the required network water temperature. Boiler plant with main and additional heating surfaces 5 located in the boiler boiler gas duct connected by its inlet sections to the return line 1 of the network water connected to the straight line 6 of the network water by 7 pipelines of the bypass and recirculation, equipped with a throttle diaphragm 12 installed on the return line of the network water between the outlet section of the additional heating surface and connecting recovery pipeline 1 sludge

Description

The invention relates to a power system and can be used in boiler rooms with hot water boilers.

A boiler plant is known in which a part of the heating surface of the water economizer of the steam boiler is connected in series with the main one: in addition to part of the surface, an adjustable throttle washer is installed on the jumper, and the heat of this part is transferred to the blast air in the heat exchanger.

The disadvantages of this installation are the lack of regulation of the water temperature at the inlet to the economizer’s main heating surface and its air-cooled part, the lack of regulation of the water flow through the economizer’s main surface; incompatibility of the economizer control system of the steam boiler and heating surfaces of the boiler.

A boiler plant is also known that contains the main and additional heating surfaces located in the gas duct of the boiler, to which the direct and return lines of network water are installed with the mains pump installed on the last one, connected by bypass and recirculation pipelines, equipped with flow controllers, and the additional heating surface is connected to the return and the supply lines of the network water between the zones where the recirculation and bypass pipelines are connected to them. Cooled water from the return pipe of the heating network is pumped to the inlet of the boiler and to the additional heating surface in parallel flows with the inclusion of the pipeline after the additional heating surface into the pipeline after the boiler. Water flow through an additional surface is supported by a separate regulator. Regulators are installed on the recirculation pipelines to the boiler and the additional heating surface and on the jumper between the return and supply pipelines of the heating network.

The disadvantages of the known boiler installation are the inability to maintain the required temperature of the supply water in the supply pipe of the supply water in the design and close to it mode with cooling the gases leaving the boiler due to the mixing of water flows from the main heating surface of the boiler with the required temperature and from the additional heating surface with a reduced temperature ; the complication of the automatic control system due to the installation of a water flow regulator through an additional heating surface.

The aim of the invention is to increase reliability by ensuring the maintenance of the required temperature of the network water.

The goal is achieved in that in a boiler installation containing the main and additional heating surfaces located in the gas duct of the boiler, to which the supply and return pipelines of the network water are connected with the network pump installed on the return piping, connected by the bypass and recirculation pipelines with flow controllers installed behind the network pump on the go, the additional heating surface is connected at the inlet and outlet to the return pipe of the mains water in the area after connecting the piping a recirculation guide, and a throttle diaphragm is installed in the section of the return line of the network water between the inlet and outlet of the water from the additional heating surface.

The installation allows you to constantly maintain at the entrance to the additional heating surface the minimum water temperature that is acceptable under the conditions of low temperature corrosion, regardless of the temperature of the water entering the boiler. This contributes to increased efficiency due to a more complete selection of the heat of the exhaust gases while maintaining the calculated water temperature in the supply network pipe · which reduces the energy consumption for driving the network and recirculation pumps by eliminating the parallel flow of water in addition to the boiler through an additional heating surface. The proposed solution will simplify the automatic control system by eliminating the regulator of water flow through an additional heating surface.

The drawing shows a diagram of a boiler installation.

The boiler installation contains a return line 1 for network water, a network pump 2, which circulates water from the return line 1 through an additional heating surface, a flow meter 4 and a boiler 5 into a supply line 6 for network water, a recirculation pipe 7, through which water can be pumped using · 8 recirculation pump from the supply pipe 6, an additional heating surface 3 is sent to the entrance to the hot water boiler, after having beaten. Regulator 9 maintains a constant water flow rate through the boiler 5. regulator 10 maintains a predetermined temperature at the inlet to the additional heating surface 3 by changing the flow rate of water from the supply pipe 6 after boiler 5, controller 1.1 maintains a predetermined water temperature in supply pipe 6 by changing the flow rate of water from the return pipe Ί, the throttle diaphragm 12 provides a constant flow of water through the additional heating surface 3, the controller 13 supports annuyu water temperature of the boiler 5 by changing the fuel flow. fifteen

The boiler installation works as follows.

The cooled water through the return pipe 1 by the network pump 2 is supplied in parallel flows through the pipe 20 with the orifice plate 12 and through the additional heating surface 3 and then by the general flow through the flow meter 4 to the boiler 5. Through the pipe 8 recirculated by the pump 8, the heated water is supplied to the inlet a hot water boiler 5 and into an additional heating surface 3 to maintain the required water temperature in front of them (the minimum permissible under conditions of low temperature corrosion). As the temperature of the water in the return pipe 1 decreases (in accordance with the temperature schedule of the heating network) while the regulator 13 maintains the set water temperature at the outlet of the boiler 5, the regulator 35 10 increases the consumption of recirculated water through an additional heating surface 3 to maintain the inlet set temperature. Regulator 11 reduces the flow of water from the return pipe 40 and 1 network water to the supply pipe. The controller 9 maintains a constant flow rate of water through the boiler 5 by changing the flow rate of recycled water at the entrance to the boiler 5. 45

With the established new ratio, the consumption of recirculated water through the additional heating surface 3 will increase and the water consumption through the jumper and recirculated through the boiler 5 will decrease. 50 The water temperature at the inlet to the additional heating surface 3 is maintained set in all modes by changing the flow of recirculated water. When the temperature of the water in the return pipe 1 of the network water rises, the regulators 10 and 11 change the position in the opposite direction. With the established new ratio, the flow rate of recycled water through the additional heating surface 3 decreases and the flow rates of water through the jumper and recycled through the boiler 5 increase.

The return network water is supplied to the additional heating surface 3 with a constant flow rate specified by the orifice plate 12. Heated by 10-15 ° C in the additional heating surface 3, the return network water reduces the temperature of the exhaust gases, mixes with the return network water after the orifice plate 12, and enters into the boiler 5.

Heated water through the supply pipe 6 is discharged to the consumer.

Claims (1)

25 claims A boiler plant containing the main and additional heating surfaces located in the gas duct of the boiler, connected by their inlet sections to the return line of the network water with a network pump connected to the direct line of the network water bypass and recirculation pipelines equipped with flow controllers, while the recirculation pipeline is communicated by means of an additional a pipeline equipped with a flow regulator, with an input section of an additional heating surface and is connected to the return line after connecting to it the input section of the additional heating surface, characterized in that, in order to increase reliability by ensuring the required temperature of the mains water, it is equipped with a throttling diaphragm mounted on the return line of the mains water after connecting the recirculation pipe, and the output section of the additional heating surface is connected to the return line of the mains water after the orifice plate.