SU596726A1 - Method of relieving power units - Google Patents

Description

The invention relates to an operating heat supply station during the unloading period and may find application in block and non-block type power plants. Methods are known for discharging power generating units of thermal power plants by stopping part of the steam generators and switching the turbine generators to engine mode with electric power consumption from the network to rotate the turbine rotor. At that, the turbine internal state is maintained within acceptable limits by supplying steam to the seals and to the flow part from the operating, neighboring block that has loaded the given block l. The disadvantage of this method as compared to stopping the unit is a significant power consumption from the network to ensure operation in the engine mode and own needs and additional steam consumption for cooling the flow part of the turbine. During the subsequent loading of the unit, it is necessary to melt the steam generator and type the necessary parameters to supply steam to the turbine, which requires fuel consumption commensurate with the flow to start the unit but barely stop. Therefore, despite the increase in maneuverability, this method is economically viable for hours, and with greater fuel consumption it is more economically feasible to put the unit in reserve .. f There are also known methods for unloading energy blocks with intermediate steam overheating, which consist of reducing steam generators reduced steam production when the turbine operates at constant or sliding vapor pressure 21. The disadvantage of such methods is low efficiency, since manual ultrasonic inspection unit reduces the amount of steam supplied to the turbine, which leads to a change in velocity of steam and degrees of reaction of m stages, and as a result, the relative umenyieniyu internal efficiency of the turbine sections and feedwater temperature,

b ultimately leads to an increase in fuel consumption by the generation of electricity.

The purpose of the acquisition is to increase the efficiency and maneuverability of unloading energy blocks.

This is achieved by reducing the load to less than 50% of fresh steam from steam generators, at least two blocks, to a portion of the high pressure of one of the blocks, and after a reheat, in the middle and low pressure of the other block. the first and high pressure in the upper unit is transferred to the steam-free mode.

The drawing shows a diagram of the implementation of the method.

By reducing the load of the thermal power plant to less than 50% of the nominal steam generators 1 and 2 are unloaded to the same steam capacity. Fresh steam of two steam generators is fed through a special steam line 3 to the high pressure part 4 of the turbine of one of the blocks. After the high pressure part 4, the steam was directed from the intermediate steam heaters 5 to both steam generators. The secondary superheated steam, via the optional paron pipe 6, enters part 7 of the middle section and then part 8 of the low pressure turbine of another OflHOBpeiMeHHO unit by closing the corresponding control valves at the inlet, part 9 of the high pressure of the second unit and parts 10 and 11 of the middle and low pressure: The unit is switched to the steam-free mode of operation with the maintenance of the corresponding superfluous state in them by supplying cooling steam to the flow part.

Condensate is supplied through the water path of the blocks (nutrient BopiililHa ™ heated in regenerative heaters 12 with steam of samples from parts 7 and 8 of medium and low pressure of the second. To regenerative heaters 13 fed with steam from the samples of part 4 of high pressure of the first unit. After which feed water flows into both steam generators.

The proposed method of unloading is also applicable to turbines without intermediate superheating of steam from non-block thermal power plants, which have inlet control valves in the parts of medium pressure or HHGN. This is accomplished by

a certain redistribution of the total steam flow between the parts of high, medium and LOW pressure, and the condensate (feed water) - in the regenerative system.

With control valves at the Inlet to the low pressure cylinders, the steam downstream of the medium pressure cylinder can be directed to both low pressure cylinders, which will prevent the supply of cooling steam to them.

Thus, the turbine flow parts will operate in the mode; close to nominal, and, therefore, with the same internal relative efficiencies. Nutritional temperature of Pi is close to nominal. the specific consumption of equivalent fuel for the generated electricity will remain the same as when operating one unit with a load equal to the total load of two units when working in this way

The subsequent loading of the blocks will not require a rst-stop of steam generators, and no start-up operations will be done - eliminating starting losses, which will significantly increase the efficiency and maneuverability of the units when using them and controlling the load in power systems.

0

Claims (2)

1. USSR Author's Certificate No. 378644, cl. F 01 D 25/10, 1972. 2.Changa A, B, Steam Turbines, Energie, M., Feb. 197 & p. 211.