RU199802U1 - RECOVERY BOILER OF THE COMBINED GAS TURBINE GAS PUMPING UNIT - Google Patents

Abstract

The utility model concerns a waste heat boiler of a combined gas turbine gas compressor unit and can be used in the oil and gas, power and machine-building industries. The technical result is to increase the efficiency and service life of the waste heat boiler, ensure smooth heating and prevent the upper temperature limit of the internal elements of the waste heat boiler loaded with exhaust gases from being exceeded, the possibility of its operation with various types of gas turbine engines by bypassing part of the exhaust gases at the input to the waste heat boiler , in atmosphere. The technical result is achieved by the fact that at the inlet of the exhaust gases to the waste heat boiler, a block of waste heat boiler slide valves, a block of gas duct slide valves, a gas duct are installed, allowing part of the gas turbine engine exhaust gases to be bypassed into the atmosphere, bypassing the waste heat boiler. 2 ill.

Description

When starting up and operating a combined gas turbine gas compressor unit, it is necessary to ensure smooth heating of the internal elements of the waste heat boiler: sections of the evaporator, superheater, economizer. Do not exceed the upper temperature limit of the exhaust gas-loaded components of the waste heat boiler.

The utility model concerns a waste heat boiler of a combined gas turbine gas compressor unit and can be used in the oil and gas, energy and machine-building industries.

The purpose of the utility model is to ensure smooth heating and prevent exceeding the upper temperature limit of the internal elements of the waste heat boiler loaded with exhaust gases, the possibility of its operation with various types of gas turbine engines due to the use of the declared waste heat boiler, which will increase the efficiency of both the waste heat boiler and combined gas turbine gas compressor unit as a whole.

It is known, adopted as a prototype, (patent No. 2516068 from 20.05.2014) a method of operating a utilization steam superheater of a gas turbine plant, which can be used to solve the problem.

The gas turbine unit contains: a gas turbine, a steam turbine, a utilization steam generator, and connecting pipelines. To limit the thermal loading of the materials of the pipe walls of the utilization steam generator, a heating surface is located between the exhaust gas inlet and the first superheater in the direction of the exhaust gas flow. The invention is based on the idea of a heating surface in front of the first superheater closest to the flue gas inlet, which, if necessary, removes heat from the hot flue gases before they reach the superheater, thereby avoiding thermal stress of the superheater or excessive heating of steam in superheater.

The disadvantage of this method of operating a recycling steam generator is that it will be effective when using a gas turbine engine with certain technical

characteristics. If a gas turbine engine of a different type with a higher temperature of exhaust gases is used as part of a combined gas turbine gas compressor unit, the additional heating surface installed inside the waste heat boiler will have to be changed. Large capital investments will be required for the reconstruction of the waste heat boiler for the installation of an additional heating surface with different technical characteristics.

The technical result is to increase the efficiency and service life of the waste heat boiler, ensure smooth heating and prevent the upper temperature limit of the internal elements of the waste heat boiler loaded with exhaust gases from being exceeded, the possibility of its operation with various types of gas turbine engines by bypassing part of the exhaust gases at the inlet to the waste heat boiler in atmosphere.

The stated goal and the specified technical result are achieved by the fact that the waste heat boiler of the combined gas turbine gas compressor unit contains the first section of the evaporator, the superheater, the second section of the evaporator, the economizer; The waste heat boiler is equipped with a block of waste heat boiler slide gates, a block of gas duct slide gates, a gas duct allowing to bypass part of the exhaust gases of the gas turbine engine at the inlet of the waste heat boiler into the atmosphere, bypassing the waste heat boiler.

The essence of the utility model is illustrated by drawings, Fig. 1 shows a general diagram of a combined gas turbine gas compressor unit where

1 - waste heat boiler;

2- gas turbine engine;

Let's consider the operation of this system.

The waste heat boiler (1) receives the exhaust gases of the gas turbine engine (2). The thermal energy of the exhaust gases of the gas turbine engine is utilized in a waste heat boiler. The waste gases from the waste heat boiler are discharged into the surrounding atmosphere.

FIG. 2 shows a diagram of the revision of a waste heat boiler, a combined gas turbine gas compressor unit, by means of which a utility model is implemented in accordance with its purpose, where

1- waste heat boiler;

2 - gas turbine engine:

3 - the first section of the evaporator;

4 - superheater;

5 - the second section of the evaporator;

6 - economizer;

7 - block of waste heat boiler slide gates;

8 - block of gas duct slide gates;

9 - gas duct.

The waste heat boiler of the combined gas turbine gas compressor unit operates as follows.

Flowing through the waste heat boiler (1), the exhaust gases of the gas turbine engine (2) wash the first section of the evaporator (3), the superheater (4), the second section of the evaporator (5), the economizer (6), and then are discharged into the surrounding atmosphere.

Part of the exhaust gases of the gas turbine engine at the inlet to the waste heat boiler by closing the waste heat boiler gate valve block (7) and opening the gas flue gate valve block (8) is bypassed through the gas duct (9), bypassing the waste heat boiler, into the atmosphere.

Thus, ensuring smooth heating and preventing the upper temperature limit of the internal elements of the waste heat boiler loaded with exhaust gases from being exceeded through the use of the claimed utility model will improve the efficiency of the waste heat boiler, provide the possibility of using gas turbine engines of various types as part of a combined gas turbine gas compressor unit, increase the service life trouble-free operation, reduce the level of operating costs.

Claims (1)

Waste heat boiler of a combined gas turbine gas compressor unit containing a first evaporator section, a superheater, a second evaporator section, an economizer, characterized in that the waste heat boiler is equipped with a waste heat boiler gate valve block, a gas flue gas damper block, allowing a gas flue gas flue to be reclaimed at the entrance to the waste heat boiler into the atmosphere, bypassing the waste heat boiler.

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