SU787693A1 - Apparatus for automatic regulation of steam temperature - Google Patents

Description

The invention relates to a power system, namely to the start-up modes of steam turbine power units of thermal power plants and the automation of their control. A device is known for automatically controlling the temperature of the steam, which contains a steam temperature sensor in front of the turbine and a corrector, the outputs of which are connected to the controller of the executive unit, and the program 1 is the setpoint device connected to the integrator input. The structure of the program setting unit provides for a decrease in the rate of increase in the temperature of steam with an increase in the task of the temperature at the integrator output. This makes it possible to take into account the change in the properties of the metal with an increase in its temperature (1. The disadvantage of this device is the non-optimal conditions for turbine heating when the steam temperature in front of the turbine changes during start-ups provided by the described device, since it does not take into account changes in the process of starting the steam inlet temperature reduction The purpose of the invention is to improve the conditions for turbine warming. To achieve this goal, the devices additionally contain a turbine load sensor connected to the equalizer input. The device contains a vapor pressure sensor in front of the turbine, and the corrector is designed as a series-connected summer and multiplication unit, the first and second inputs of the adder are connected to the outputs of the fiarpysKH and pressure sensors, and the integrator's output is connected to the input of the multiplication unit, the output of which is connected with a regulator input, to the other two inputs of which load and pressure sensors are connected. The device contains a pressure sensor, and the corrector is designed as an adder and the second adder connected in series a third adder and a dividing unit, the output of the load sensor connected to the inputs of the second and third adders, the output of the pressure sensor to the inputs of the first and second sums, the integrator output to the input of the multiplication unit, and the output of the first adder, the output of which is connected to the controller input, to the other input of which the integrator output is connected.

An amendment to the temperature increase program, introduced by means of a corrector, to a decrease in steam temperatures at the turbine inlet for medium pressure cylinders as well as for a high pressure cylinder with a certain start technology can be represented as a nonlinear dependence of one turbine operating parameter, for example load or vapor pressure. In general, for a high pressure cylinder; case of a decrease in temperature. is a function of the parameters of the turbine load, the supply of fresh steam and the temperature: the steam inside the turbine, taken equal to the job at the integrator output. Depending on the start-up technology used and the required accuracy of approximation of this dependence, the corrector may have a more or less complex structure.

FIG. 1 is a schematic diagram of a device with a parallel connection of an integrator and a corrector in FIG. 2 - the same, with a serial one, on. fig.Z - the same, with a series-parallel connection of the integrator and the equalizer.

The circuit in FIG. 1 is the simplest used to control the temperature of steam supplied to a medium pressure cylinder or to a high pressure cylinder during glide pressure start-ups with a constant degree of valve opening at the steam supply to the cylinder.

The schematic diagrams in FIG. 2 and 3 refer to the general case of forming a steam temperature control program in front of the cylinder: "High pressure with random start technology." In addition, in the diagram of FIG. 3, the corrector has a more complex structure, which provides a higher accuracy in accounting for changes in the process of starting the reduction of steam temperature at the turbine inlets.

The main elements of the described device for automatic start-up temperature control of steam supplied to the turbine are software setpoint 1 for raising the temperature, connected to its output integrator 2, controller 3 connected to the actuator 4, Sensor 5 of the adjustable steam temperature and corrector b, connected to the input of the controller 3, as well as the load sensor 7, the output of which is connected to the input of the corrector 6. The integrator 2 and the setting device 1 are covered by a feedback loop. In the diagram of FIG. 1 integrator 5 sub-. Keys to the input –regulator 3: parallel-60 but with a corrector 6 output as a non-linear signal converter from the load sensor 7. In the diagram of FIG. 2 corrector b is made in the form of serially connected 65

adder 8 and block 9 multiply. The output of the integrator 2 is connected to the second input of the multiplication unit 9, and to the inputs of the adder 8 and the controller 3, the sensors 7 and 10 of the load and vapor pressure in front of the turbine.

In the diagram of FIG. 3, the corrector b is additionally, in addition to the elements shown in the diagram of FIG. 2, contains the second and third adders 11, 12 and the dividing unit 13. The second adder 11, block 9

On multiplication, the third adder 12 and the division block 13 are connected in series, with the output of the load sensor 7 connected to the inputs of the second and third adders 11 and 12, the output of the sensor 10

5 pressure to the inputs of the first and second adders 8 and 11, integrator 2 signals to the second input of multiplication unit 9, and the output of the first adder 8 to the second input of division unit 13, which is connected to the input of controller 3 together with the output of the integrator 2.

The device works as follows.

5 At the start of start-up when steam is supplied to the turbine, the controller 3, acting on the actuator (for example, start-up injection), sets the starting value for the steam temperature corresponding to the starting state of the turbine. When the program for increasing the temperature of steam is turned on, software setting device 1 is connected to the input of integrator 2, in the diagrams provided

 made in the form of a functional (linear) converter at the output of the integrator 2. A signal switch at the input of the integrator 2 and a device for generating the initial specification by the steam temperature in the circuit

0 not shown. During the start-up process, i.e. increasing turbine operation parameters (load-, temperature and vapor pressure), corrector b, performed according to one scheme or another, continuously corrects the task setting based on the steam temperature measured by sensor 5. Thus, taking into account the variable decrease in steam temperature by turbine inlet temperature increases

Claims (3)

Q pair in a turbine with a speed set by the software unit 1, which corresponds to the optimal mode of turbine heating. It is significant that it does not directly measure and control the temperature of the steam inside the turbine, which could significantly reduce the reliability of the regulation. Claim 1. A device for automatic control of steam temperature, comprising a steam temperature sensor by a turbine and a corrector, the outlets of which are connected to the regulator of the actuator, and a software setpoint connected to the integrator input, in order to improve turbine warm-up conditions, the device additionally contains a turbine load sensor connected to the equalizer input. 2. Device POP.1, characterized in that it contains a vapor pressure sensor in front of the turbine, and the equalizer is made in the form of a series-connected adder and multiplication unit, the first and second inputs of the adder connected to you; the integrator - to the input of the multiplication unit, the output of which is connected to the input of the regulator, to the two other inputs of which are connected the load and pressure sensors. 3. A popl device, characterized in that it contains a vapor pressure sensor in front of the turbine, and the equalizer is designed as an adder and serially connected second adder, multiplication unit, third adder and division unit, with the output of the load sensor connected to the input of the second and third adders, the output of the pressure sensor to the inputs of the first and second adders, the output of the integrator to the input of the multiplication unit, and the output of the first adder are connected to the input of the division unit whose output is connected to the input of the regulator to another input which is connected to the integrator output. Sources of information taken into account in the examination 1. USSR author's certificate No. 613131, cl. F 01 D 19/02, 1977. fi9l