SU429181A1 - METHOD OF REGULATING THE BOILER BLOCK — TURBINE - Google Patents

Description

one

The invention relates to a power system and can be used to regulate block installations when operating at a sliding vapor pressure.

Methods are known for regulating the boiler-turbine unit by varying the vapor pressure before the turbine by applying pressure signals to the setpoint of the turbine speed controller, to the feedability regulator of the feeding turbopump, and to the boiler power regulator.

Such methods do not provide maximum efficiency of operation of the unit at sliding pressure in a wide range of loads.

The purpose of the invention is to increase the efficiency of operation of the -block under sliding pressure. To do this, a speed signal is sent to the regulator of the speed controller after the regulating stage of the turbine, and to the performance regulator - the signal difference on the vapor pressure in front of the turbine and after the regulating stage.

In order to extend the control range, the difference in the steam pressure signals in front of the turbine and behind the control stage is applied to the power regulator.

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

Steam pressure regulator 1 receives signal

2 according to the steam pressure in the chamber behind the regulating stage and maintains the pressure set by the setting unit 3 and, consequently, the turbine power, affecting the control mechanism 4, which through the speed controller 5 and intermediate amplifier 6 controls the servomotors 7 of the turbine control valves. The regulator 8 of the capacity of the feed pipe pump, together with the system for regulating the supply of fuel and air (regulator 9), maintains a predetermined ratio of vapor pressures in the chamber of the regulating stage (signal 2) and in front of turbine control valves (signal

10), impact on the control mechanism

11 driving turbine 12 of feed pump 13. Performance controller 8 changes the rotation speed of the driving turbine

12 power pump 13, and after that, the vapor pressure in front of the turbine (signal

10) that in the unit operating modes of the unit any pressure set in controller 1 in the chamber of the regulating stage is ensured at a constant, optimum

In terms of efficiency, the position of the turbine control valves. In this case, as the vapor pressure in front of the turbine changes, the controller 1 will return the turbine control valves to the set position.

The boiler power regulator 14 dynamically changes the position of the boiler control valves by the ratio of pressure in the chamber of the control stage (signal 2) to the pressure in front of the turbine (signal 10) with feedback iij from the position of the control valves. Therefore, when in a steady-state mode of operation, the predetermined pressure ratio will be set by the capacity regulator 8, due to the presence of feedback 15 on the valve position, the boiler power regulator 14 will return the control valves to the initial position (for example, almost fully open). At low loads of the unit, when it is necessary to vary the rotational speed of the turbine 12 of the feed pump 13 below the limit, the load control of the block and the principle of sliding pressure will be produced by the boiler feed valves at a constant minimum speed of rotation of the feed pump.

The fuel regulator 9 can operate according to any of the known schemes, for example, according to the ratio of feedwater consumption (signal 16) to fuel consumption (signal 17) with the introduction of a correction signal 18, for example, but the steam temperature at the intermediate point of the boiler.

If you change the setting of regulator 1, for example, in the direction of “lower, it will close the turbine control valves so that the pressure in the chamber of the control stage is equal to the specified one. The reduced pressure in the chamber of the regulating stage (signal 2) coming from the signal multiplier 19 to the inputs of the capacity regulators 8 and power 14 will reduce the rotational speed of the feed pump 13 and will close the boiler supply control valves.

A reduction in the rotational speed of the feed pump will occur as long as

the pressure in front of the turbine (signal 10) does not fall to a value corresponding to the new pressure value in the chamber of the regulating stage (signal 2). Since in this case the algebraic sum of signals 2 and 10 arriving at the inputs of the regulators 8 and 14 will be equal to zero, the power regulator 14 will return the control supply valves of the boiler to the old, original position. As the vapor pressure in front of the turbine decreases, the control valves will return to their initial position by regulator 1, preventing the pressure in the control chamber from decreasing, due to the pressure decrease in front of the turbine, below the new setpoint. The fuel regulator 9 will match the fuel consumption and the new feed water consumption. Similarly, there will be a transition

the process when changing the setting of controller 1 in the direction of "add.

Subject invention

1. The method of regulating the boiler-turbine unit by changing the steam pressure before the turbine by applying signals to the control unit of the turbine speed controller, to the performance regulator of the turbine

turbopump and to the boiler power regulator, characterized in that, in order to increase the efficiency of the unit operation at a gliding pressure, the setpoint controller of the speed regulator gives a signal on the vapor pressure

it controls the turbine stage, and the output controller controls the difference in vapor pressure signals in front of the turbine and beyond the regulating stage. 2. The method according to claim 1, wherein

that, in order to extend the control range, the difference between the pressure and the control level signals is applied to the power controller.