SU1114116A2 - Multiinlet air pre-heater for steam-turbine plant - Google Patents

Abstract

, MULTI-PASSED AIR HEATER OF THE STEAM TURBINE INSTALLATION by author. St. No. 995561, characterized in that, in order to increase efficiency by maintaining a constant flue gas temperature, a temperature sensor is connected in front of the air preheater to the air preheater, connected by a control line to the flow regulator of the exhaust pipe connecting the air duct to the latter bypass boxes (L with

Description

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The invention relates to the field of boiler building and can be used in heat and power engineering.

Multipurpose air heaters of a steam turbine installation are known, containing heat exchange cubes connected by bypass ducts, an air inlet box equipped with a device for preheating air and a system of exhaust ducts with flow regulators connecting the duct to the bypass ducts L1 J

The disadvantage of this air preheater is the low cost efficiency due to the incomplete use of heat from the steam from the turbine bleed.

The closest to the described technical solution and the achieved effect is a multi-port air preheater of a steam turbine installation according to the main bus. St. No. 995561, which contains heat exchange cubes, connected by bypass ducts, inlet air duct, equipped with a device for preheating the air and a duct system with flow regulators connecting the duct with bypass ducts, and at least a system of ducting ducts one steam heater C2j.

The disadvantage of such an air preheater is its low economy due to the lack of means to maintain a constant (constant) temperature of the flue gases when the air temperature in front of the air heater rises. When the temperature of the outside air rises, the heating of the air in the air heater increases, and as a result the flue gas temperature increases, therefore, the economy of the air preheater drops in the warm season. The flow controllers that hang in such an air heater cannot eliminate this drawback, since they are only once determined by the temperature of the walls of the heat exchange cubes.

The aim of the invention is to increase economic efficiency by maintaining a constant (unchanged) temperature of the flue gases while increasing the air temperature before the air heater.

In a multi-port air preheater of a steam turbine installation, containing heat exchange cubes connected by bypass ducts, a supply duct equipped with a device for preheating air and a system of exhaust ducts with flow regulators connecting the duct to the bypass ducts at least with one steam heater, this goal is achieved by the fact that in the duct before the device for preheating air, but a temperature sensor is installed that is connected by a control line with a regulator of the flow rate of the discharge pipe connecting the air duct to the last bypass ducts.

The drawing shows a multi-way air heater, general view.

The multi-path air preheater of a steam turbine plant contains heat exchange cubes 1–4, connected by bypass ducts 5–7, and a supply duct 8 equipped with a device 9 for preheating the air and a system for discharging pipes 10–12 with flow regulators 13–15 air duct 8 with bypass ducts 5 - 7. The exhaust duct system 10 - 12 is equipped with a steam heater 16 installed at the entrance. Air duct 8: in the area in front of the device 9 for preheating the air is equipped with a datag: 17, the temperature of the air, connected with the control line 18 through the autoregulator 19 and the actuator 20 to the regulator 15 of the discharge pipe 12.

There are also lines 21 for supplying hot air from the outlet duct 22 to the device 9 for preheating the air, a recirculation fan 23 installed on line 21, and a blower fan 24 installed on the duct 8.

Multi-way air heater of a steam turbine installation works as follows.

The flue gases sequentially pass through the cubes 4,3,2,1 and transfer heat to the air supplied to the heater through the duct 8 and preheated in the heater 16. After the heater 16, the air is divided into four streams, three of which are directed to the exhaust system piping 10, 11, 12, and one stream enters the device for preheating the air 9. in which it is heated by hot air from the outlet duct 22, and then postzgpat into the cube 1. In the transducer box 5, the weakly heated flow from the outlet pipe 10 and the duct 8 to the already warmed air in the cube 1 is mixed. In subsequent cubes 2, 3, 4, from the outgoing pipelines 11 and 12, mixing of air to the main flow occurs. Portions of weakly preheated air are mixed in order to implement the cascade heating scheme.

When the outdoor temperature rises when the heating in the heater 16 increases, the temperature

The removal of Yatih gases remains unchanged. This is achieved by using the flow controller 15 to reduce the air flow through the exhaust duct 12, depending on the air temperature behind the heater, detected by the sensor 17, which pulses the pulse (; and control 1B through the autoregulator 19 to the actuator 20,

When a certain air temperature is reached behind the heater 16, the pipe 12 is completely shut off, while the temperature of the flue gases remains unchanged.

Similarly, if it is possible to increase the steam supply to the heater. 16, having an excess surface, shutting off conduit 12 allows the flue gas temperature to remain unchanged.

The use of the described air preheater makes it possible to increase the efficiency of the steam turbine installation.

Claims (1)

MULTI-WAY AIR HEATER OF THE STEAM TURBINE INSTALLATION St. No. 995561, characterized in that, in order to increase efficiency by maintaining a constant temperature of the flue gases, a temperature sensor is additionally installed in the duct in front of the device for preheating the air, connected by a control line to the flow regulator of the outlet pipe connecting the duct to the last bypass ducts. <g ω s 11141