CN113359886A - Low-load time interval heating steam pressure adjusting method, equipment, controller and medium - Google Patents

Abstract

The invention relates to a method, equipment, a controller and a medium for regulating heat supply steam pressure in a low-load period, which comprises the following steps: s1: obtaining heat supply unit data, judging whether a control loop input condition is met, if so, entering step S2, otherwise, returning to step S1 until the loop input condition is met; s2: acquiring the load of the unit in real time, adjusting the opening of the medium-pressure regulating valve to 100% when the load is greater than or equal to a set peak load, or adjusting the opening of the medium-pressure regulating valve to a medium-pressure regulating valve opening value corresponding to the load of the unit; in step S2, the heating unit data is obtained in real time, it is determined whether a loop exit condition is satisfied, and if so, adjustment of the opening value of the middle door is stopped. Compared with the prior art, the invention realizes stable and reliable external steam supply in a wide load interval and improves the flexibility of unit operation.

Description

Low-load time interval heating steam pressure adjusting method, equipment, controller and medium

Technical Field

The invention relates to the field of thermal power generation, in particular to a method, equipment, a controller and a medium for adjusting heat supply steam pressure in a low-load period.

Background

In recent years, with the gradual release of the tension condition of the electricity load of the whole society and the increase of the pressure of energy conservation and emission reduction, a heat supply pipe network is paved on a plurality of large-scale power plants to extract steam and supply heat to adjacent industrial parks. The heat supply is to extract the steam with certain temperature and pressure after expansion work from the steam turbine for the use of external heat users, and is one of the important ways of energy saving and consumption reduction of the unit. With the increasing of the power generation proportion of renewable energy sources, the operation mode of the thermal generator set is gradually changed from basic load bearing to operation at middle and peak loads, and the load changes frequently. The pressure and temperature parameters of the steam required by industrial heat users are relatively stable due to the special requirements of the production process, and the steam supply parameters of the power plant have the requirements that the industrial steam parameters are stable due to load fluctuation, and especially when a unit is in a low-load period, the steam extraction parameters of the unit are difficult to ensure the heat supply requirements of the users.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a method, equipment, a controller and a medium for regulating the pressure of heating steam in a low-load period.

The purpose of the invention can be realized by the following technical scheme:

a method for adjusting the pressure of heating steam in a low-load period comprises the following steps:

s1: obtaining heat supply unit data, judging whether a control loop input condition is met, if so, entering step S2, otherwise, returning to step S1 until the loop input condition is met;

s2: acquiring the load of the unit in real time, adjusting the opening of the medium-pressure regulating valve to 100% when the load is greater than or equal to a set peak load, or adjusting the opening of the medium-pressure regulating valve to a medium-pressure regulating valve opening value corresponding to the load of the unit;

in step S2, the heating unit data is obtained in real time, it is determined whether a loop exit condition is satisfied, and if so, adjustment of the opening value of the middle door is stopped.

Preferably, the heat supply unit data comprises a high-pressure cylinder exhaust pressure signal, an actual load signal, a load size and a related control signal.

Preferably, the step S1 specifically includes:

s11: acquiring heat supply unit data in real time;

s12: judging whether the high-pressure cylinder exhaust pressure signal is normal, if so, entering a step S13, otherwise, returning to the step S11;

s13: judging whether the actual load signal is normal or not, if so, entering the step S14, otherwise, returning to the step S11;

s14: judging whether the load is larger than the input load, if so, entering a step S15, otherwise, returning to the step S11;

s15: and judging whether the relevant control signals are received or not, if so, entering the step S2, and if not, returning to the step S11.

Preferably, the loop exit conditions are:

and if the heat supply unit data meet one or more of the abnormal high-pressure cylinder exhaust pressure signal, the abnormal actual load signal, the load smaller than the withdrawal load and the received related control signals, the heat supply unit meets the loop withdrawal condition.

Preferably, the medium-voltage governing valve opening value corresponding to the unit load is obtained through a medium-voltage governing valve adjustment test in a low-load section.

Preferably, the step of the door pressure regulation adjustment test in the low load section comprises: setting a test load area, stabilizing the high discharge pressure at a preset test pressure value, adjusting the unit load in the test load area, and obtaining the opening degree of the medium-pressure regulating valve corresponding to different unit loads.

Preferably, the test load region is 130 MW-170 MW.

A heating steam pressure regulating device in a low-load time period comprises an input module, a regulating module and an exit module,

the input module acquires heat supply unit data and judges whether the input condition of the control loop is met or not, if so, the input adjusting module adjusts the input condition, otherwise, the heat supply unit data are continuously acquired until the input condition of the loop is met;

the adjusting module acquires the unit load in real time, when the load is greater than or equal to a set peak load, the opening degree of the medium-pressure regulating valve is adjusted to 100%, otherwise, the opening degree of the medium-pressure regulating valve is adjusted to a medium-pressure regulating valve opening degree value corresponding to the unit load;

the exit module acquires heat supply unit data in real time, judges whether a loop exit condition is met or not, and stops adjusting the opening value of the middle door adjusting door when the loop exit condition is met.

A controller, comprising: the system comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the low-load period heating steam pressure adjusting method.

A computer readable storage medium having stored thereon computer executable instructions for performing the above-described low load period heating steam pressure adjustment method.

Compared with the prior art, the invention has the following advantages:

(1) according to the invention, the load section data obtained by the load section middle door pressure regulating and adjusting test is matched with the input and exit logics of the middle pressure regulating door regulation, so that the load section of the heat supply unit is effectively expanded, stable and reliable external steam supply in a wide load section is realized, and the flexibility of unit operation is improved.

(2) The medium-pressure regulating valve participates in the regulation of steam pressure, and the high exhaust pressure is improved in a medium-pressure regulating valve throttling control mode so as to guarantee the heat supply requirement, the condition that the steam extraction parameter of the unit can not guarantee the heat supply requirement when the unit is in a low-load section can be effectively improved, the economy of the unit can be improved, and the stable and reliable external heat supply of the coal-fired generator unit in a wide-load area can be realized.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. Note that the following description of the embodiments is merely a substantial example, and the present invention is not intended to be limited to the application or the use thereof, and is not limited to the following embodiments.

Examples

A method for regulating the pressure of heat supply steam in a low-load period takes an N325-16.18/535/535 subcritical parameter, one-time intermediate reheating, four-cylinder four-steam-exhaust, single-shaft and condensing steam turbine as an example, and the steam turbine is provided with 2 high-pressure main steam valves, 8 high-pressure regulating valves and 4 medium-pressure regulating valves.

When the method is implemented, firstly, the medium-voltage regulating valve opening value corresponding to the unit load is obtained through a medium-voltage regulating valve adjusting test in a low-load section. The step of the door pressure regulating adjustment test in the low-load section comprises the following steps: setting a test load area, stabilizing the high discharge pressure at a preset test pressure value, adjusting the unit load in the test load area, and obtaining the opening degree of the medium-pressure regulating valve corresponding to different unit loads. In this embodiment, the test load region is a 130 MW-170 MW section, and the preset test pressure value is 1.8MPa, so that the high discharge pressure is controlled to be stable at 1.8MPa, and the relevant test data is observed and recorded, that is, the correspondence between the unit load and the opening of the medium pressure damper is obtained on the premise that the high discharge pressure is constant at 1.8 MPa.

The steps of the present invention are shown in fig. 1, and specifically step S1 includes:

s11: and acquiring heat supply unit data in real time, wherein the heat supply unit data comprises a high-pressure cylinder exhaust pressure signal, an actual load signal, a load size and a related control signal.

S12: judging whether the high-pressure cylinder exhaust pressure signal is normal, if so, entering a step S13, otherwise, returning to the step S11;

s13: judging whether the actual load signal is normal or not, if so, entering the step S14, otherwise, returning to the step S11;

s14: and judging whether the load size is larger than the input load, if so, entering the step S15, otherwise, returning to the step S11, wherein in the embodiment, the input load is 130 MW.

S15: and judging whether the relevant control signals are received or not, if so, entering the step S2, and if not, returning to the step S11.

In this embodiment, the related control signals include a manual mode, a medium-pressure governor full-stroke test, a loosening test, OPC, and a trip signal.

S2: and acquiring the load of the unit in real time, adjusting the opening of the medium-pressure regulating valve to 100% when the load is greater than or equal to the set peak load, and otherwise, adjusting the opening of the medium-pressure regulating valve to the opening value of the medium-pressure regulating valve corresponding to the load of the unit. In this example, the peak load is 180 MW.

S2 specifically, setting the medium voltage regulator control and regulation logic based on the test data of the medium voltage regulator regulation test in the low load section: the medium pressure valve high exhaust pressure is composed of a high exhaust pressure control loop and a load feedforward loop. The load feedforward loop forms a medium-pressure regulating valve opening instruction feedforward value according to the current load, the high-exhaust pressure control loop regulates the pressure through a PID (proportion integration differentiation) regulating loop, the internal set high-exhaust pressure fixed value is 1.8MPa, the deviation correction setting of +/-0.1 MPa can be carried out on the fixed value during operation, the output range of the high-exhaust pressure control loop is +/-10%, a medium-pressure regulating valve instruction is formed by the sum of the output value of the high-exhaust pressure control loop and the medium-pressure regulating valve opening instruction feedforward value of the load feedforward loop and cannot be smaller than 30%, when the load is larger than 180MW, the medium-pressure regulating valve opening is cut to 100%, and when the load is smaller than 175MW, the medium-pressure regulating valve opening is regulated to the medium-pressure regulating valve opening value corresponding to the unit load.

In step S2, heat supply unit data is obtained in real time, it is determined whether a loop exit condition is satisfied, and when the loop exit condition is satisfied, adjustment of the opening value of the middle door is stopped, where the loop exit condition is: and if the heat supply unit data meet one or more of the abnormal high-pressure cylinder exhaust pressure signal, the abnormal actual load signal, the load smaller than the withdrawal load and the received related control signals, the heat supply unit meets the loop withdrawal condition. In this embodiment, the exit load is 120 MW.

A heating steam pressure regulating device in a low-load time period comprises an input module, a regulating module and an exit module,

the input module acquires heat supply unit data, judges whether the input condition of the control loop is met or not, if so, the input adjusting module adjusts, otherwise, the heat supply unit data are continuously acquired until the input condition of the loop is met;

the adjusting module acquires the unit load in real time, when the load is greater than or equal to a set peak load, the opening degree of the medium-pressure regulating valve is adjusted to 100%, otherwise, the opening degree of the medium-pressure regulating valve is adjusted to a medium-pressure regulating valve opening degree value corresponding to the unit load;

the exit module acquires heat supply unit data in real time, judges whether a loop exit condition is met or not, and stops adjusting the opening value of the middle door adjusting door when the loop exit condition is met.

A controller, comprising: the system comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the low-load period heating steam pressure adjusting method.

A computer readable storage medium having stored thereon computer executable instructions for performing the above-described low load period heating steam pressure adjustment method.

The above embodiments are merely examples and do not limit the scope of the present invention. These embodiments may be implemented in other various manners, and various omissions, substitutions, and changes may be made without departing from the technical spirit of the present invention.

Claims (10)

1. A method for adjusting the pressure of heating steam in a low-load period is characterized by comprising the following steps:

s1: obtaining heat supply unit data, judging whether a control loop input condition is met, if so, entering step S2, otherwise, returning to step S1 until the loop input condition is met;

s2: acquiring the load of the unit in real time, adjusting the opening of the medium-pressure regulating valve to 100% when the load is greater than or equal to a set peak load, or adjusting the opening of the medium-pressure regulating valve to a medium-pressure regulating valve opening value corresponding to the load of the unit;

in step S2, the heating unit data is obtained in real time, it is determined whether a loop exit condition is satisfied, and if so, adjustment of the opening value of the middle door is stopped.

2. The method as claimed in claim 1, wherein the heating unit group data includes high pressure cylinder exhaust pressure signal, actual load signal, load size, and related control signal.

3. The method as claimed in claim 2, wherein the step S1 specifically includes:

s11: acquiring heat supply unit data in real time;

s12: judging whether the high-pressure cylinder exhaust pressure signal is normal, if so, entering a step S13, otherwise, returning to the step S11;

s13: judging whether the actual load signal is normal or not, if so, entering the step S14, otherwise, returning to the step S11;

s14: judging whether the load is larger than the input load, if so, entering a step S15, otherwise, returning to the step S11;

s15: and judging whether the relevant control signals are received or not, if so, entering the step S2, and if not, returning to the step S11.

4. A method according to claim 2, characterized in that said loop exit conditions are:

and if the heat supply unit data meet one or more of the abnormal high-pressure cylinder exhaust pressure signal, the abnormal actual load signal, the load smaller than the withdrawal load and the received related control signals, the heat supply unit meets the loop withdrawal condition.

5. The method for adjusting the pressure of the heating steam during the low-load period as claimed in claim 1, wherein the opening value of the medium-pressure throttle valve corresponding to the unit load is obtained through a medium-pressure throttle valve adjustment test in the low-load section.

6. The method as claimed in claim 5, wherein the step of the door pressure regulation adjustment test in the low load section comprises: setting a test load area, stabilizing the high discharge pressure at a preset test pressure value, adjusting the unit load in the test load area, and obtaining the opening degree of the medium-pressure regulating valve corresponding to different unit loads.

7. A method according to claim 1, wherein the test load range is 130MW to 170 MW.

8. A heating steam pressure regulating device in a low-load period is characterized by comprising an input module, a regulating module and an exit module,

the input module acquires heat supply unit data and judges whether the input condition of the control loop is met or not, if so, the input adjusting module adjusts the input condition, otherwise, the heat supply unit data are continuously acquired until the input condition of the loop is met;

the adjusting module acquires the unit load in real time, when the load is greater than or equal to a set peak load, the opening degree of the medium-pressure regulating valve is adjusted to 100%, otherwise, the opening degree of the medium-pressure regulating valve is adjusted to a medium-pressure regulating valve opening degree value corresponding to the unit load;

the exit module acquires heat supply unit data in real time, judges whether a loop exit condition is met or not, and stops adjusting the opening value of the middle door adjusting door when the loop exit condition is met.

9. A controller, comprising: memory, processor and computer program stored on the memory and executable on the processor, the processor when executing the computer program implementing a low load period heating steam pressure regulating method as claimed in any one of claims 1 to 7.

10. A computer-readable storage medium having stored thereon computer-executable instructions for performing a method of low load interval heating steam pressure regulation as claimed in any one of claims 1 to 7.

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