KR100486473B1 - Method for managing gas supply system according the travel-rate of regulator - Google Patents

Abstract

The present invention is installed in the conventional gas supply system, the opening device for measuring the opening rate of the pressure regulator is further calculated to calculate the various data, compare these with the set value to monitor the occurrence of abnormal conditions of the gas supply system, pipe network analysis and demand The present invention relates to a method of managing the gas supply system according to the opening degree of the constant pressure regulator which can provide the data necessary for the prediction.

The management method of the gas supply system according to the constant opening degree of the pressure regulator of this invention is the pressure regulator 1 which adjusts the supply pressure of city gas, the opener 3 which measures the opening degree of the said pressure regulator 1, and an inlet pressure. Inlet pressure transmitter 4 for measuring the temperature, inlet gas temperature transmitter 5 for measuring the inlet gas temperature, outlet pressure transmitter 6 for measuring the outlet input, and external temperature transmitter 7 for measuring the external temperature And, a city gas supply system including a remote transmission device 8 for transmitting the field measurement values to the situation room, and a computer 9 for numerical operation and control, wherein the opening ratio of the pressure regulator 1, the inlet pressure P ₁ ), A first step of calculating the real-time supply amount (Q _REAL ) by measuring the outlet pressure (P ₂ ) and the inlet gas temperature (T _GAS ); And comparing the supply amount Q _REAL , the opening rate, the inlet pressure P1, and the outlet pressure P2 calculated in the first step with the set values set for the opening rate, respectively, to determine 12 operating states of the system. It includes a second step.

Description

Method for managing gas supply system according to the travel-rate of regulator

The present invention relates to a method for managing a gas supply system according to a constant pressure opening rate, and more specifically, to a gas supply system used in the related art, an opener for measuring the opening rate of a constant pressure pressure is further installed to calculate various data, The present invention relates to a method of managing the gas supply system according to the opening rate of the constant pressure regulator, which can monitor the occurrence of abnormal conditions of the gas supply system compared to the set value for the rate, and provide the data necessary for the analysis of the pipe network and the demand forecast.

The constant pressure installed in the city gas pipe is to supply gas at a constant pressure regardless of the amount of gas users used. The pressure regulator currently monitors the pressure fluctuation through the remote monitoring system, but since the manager recognizes the problem only when an abnormal condition of the supply pressure occurs, there is a problem in the follow-up management, such as failing to prevent the abnormal condition. have. In addition, it is difficult to identify the exact cause when an abnormal condition occurs.

Furthermore, in the case of a constant pressure transformer connected in a loop form, the difference in the opening rate for each of the pressure regulators is generated, which reduces the efficiency of the entire piping network.However, the current remote sensing system cannot recognize the difference in the opening rate, and the loop during the field check Since the quantity of the pressure regulator may be 15 or more, it is impossible to confirm the opening degree accurately and simultaneously.

In addition, since there is no data on the peak flow rate and supply pattern for each static pressure required for pipe network analysis and demand forecasting, accurate pipe network analysis and demand forecasting are not possible.In order to solve these problems, it is necessary to measure the fluid passing through the pipe in real time. Although installation of a flowmeter is required, there are a lot of difficulties in securing the installation space and enormous cost.

The present invention has been made to solve the above problems, and an object of the present invention is to install an opening device for measuring the opening rate of a constant pressure regulator in a gas supply system used in the prior art to calculate the overall data, and compare these with the set value gas It is to provide the management method of the gas supply system according to the opening rate of the constant pressure regulator that can monitor the occurrence of abnormal condition of the supply system and provide the necessary data for the pipe network analysis and demand forecast.

Another object of the present invention is to generate an alarm in advance according to the operation state of the gas supply system to efficiently maintain and manage the gas supply system, and to provide high quality service by preventing user complaints. The present invention provides a method of managing the gas supply system according to the opening rate of the constant pressure.

Management method of the gas supply system according to the constant pressure opening degree of the present invention for achieving the above object, the constant pressure for adjusting the supply pressure of the city gas, the opener for measuring the opening rate of the constant pressure, inlet for measuring the inlet pressure A pressure transmitter, an inlet gas temperature transmitter for measuring inlet gas temperature, an outlet pressure transmitter for measuring outlet input, an external temperature transmitter for measuring external temperature, and a remote transmitter for transmitting the field measurements to the situation room; In a city gas supply system including a numerical operation and control computer, the real-time supply amount (Q _REAL ) is measured by measuring the opening rate, inlet pressure (P ₁ ), outlet pressure (P ₂ ), and inlet gas temperature (T _GAS ) of the constant pressure regulator. Calculating a first step; And comparing the supply amount Q _REAL , the opening rate, the inlet pressure P1, and the outlet pressure P2 calculated in the first step with the set values set for the opening rate, respectively, to determine 12 operating states of the system. It includes a second step.

Hereinafter, a method of managing a gas supply system according to a constant pressure opening degree of the present invention will be described in detail with reference to the accompanying drawings.

According to the method of the present invention, the gas supply amount Q _REAL is calculated by using a calculation formula by attaching an opener which can measure the travel rate of the pressure regulator in the conventional gas supply system, and also calculates the expected supply amount Q _EST . It is to detect the occurrence of abnormal condition of gas supply system by using calculated and measured data and to provide data for pipe network analysis and demand forecast. By doing so, it is possible to easily manage the gas supply system by adding only an opener instead of installing a conventional high-cost flow meter. This is '0' and no gas flows at all, and the openness rate is '100', and the maximum flow rate of the constant pressure flower flows. On the other hand, the opener is provided with a position sensor capable of detecting the opening degree, and includes a converter for converting the sensing value of the position sensor into an electrical signal.

First, referring to FIG. 1, a schematic configuration of a city gas supply system in which the present invention is implemented is as follows.

The city gas supply system includes a constant pressure regulator (1) for adjusting a supply pressure of city gas passing through a pipe, an opener (3) for measuring and transmitting an opening rate (or an operation rate) of the constant pressure regulator (1), and an inlet pressure ( An inlet pressure transmitter 4 for measuring and transmitting P1), an inlet gas temperature transmitter 5 for measuring and transmitting an inlet gas temperature, an outlet pressure transmitter 6 for measuring and transmitting an outlet pressure P2, Numerical calculation and control using an external temperature transmitter (7) for measuring and transmitting the external temperature, a remote transmitter (8) for transmitting field measurements to the situation room, and the measured values located in the situation room and input from the transmitters. A computer 9 can be included.

The method of the present invention carried out in the gas supply system as described above, the real-time supply amount (Q _REAL ) by measuring the opening rate, inlet pressure (P ₁ ), outlet pressure (P ₂ ) and inlet gas temperature (T _GAS ) of the constant pressure regulator Calculating a first step; And comparing the supply amount Q _REAL , the opening rate, the inlet pressure P1, and the outlet pressure P2 calculated in the first step with the set values set for the opening rate, respectively, to determine 12 operating states of the system. It includes a second step, which will be described with reference to FIG.

When the constant pressure machine for maintaining the gas pressure is operated, the opener (3), the inlet pressure transmitter (4), the inlet gas temperature transmitter (5), the outlet pressure transmitter (6), which are installed at predetermined positions, respectively, and the external temperature Measurements (current values) measured from the transmitters 7 are input to the computer 9 via the remote transmission device 8. The computer 9 first calculates the gas supply amount Q _REAL using the measured values input as described above.

In detail, the first step is described in detail. The first sub-step of determining the flow coefficient according to the size and cage type of the constant pressure regulator 1, the inlet pressure transmitter receives the inlet pressure and the outlet pressure from the outlet pressure transmitter. The second sub-step converts the unit pressure, calculates the outlet pressure as the threshold pressure according to the flow coefficient, compares the calculated threshold pressure with the outlet pressure, and sets a large value as the outlet pressure. A third sub-step of calculating (Q _MAX ); and a fourth sub-step of calculating an opening rate for calculating a real-time supply amount by using a flow rate diagram according to the size and cage type of the pressure regulator using the opening rate of the pressure regulator; And a fifth sub-step of calculating a real-time supply amount by multiplying the maximum capacity of the pressure regulator calculated in the third sub-step and the opening rate of the constant-pressure regulator calculated in the fourth sub-step. It is. As described above, the supply amount Q _REAL is calculated.

3 is a diagram illustrating a formula for calculating a supply amount Q _REAL using the measured value in the first step, wherein the gas supply system has a main line and a spare line.

As shown, fixed constants and measurements such as gas specific gravity (G), inlet gas temperature (T), gas sizing constant (Cg), C1 (= Cg / Cv), inlet pressure (P1), outlet pressure (P2) Using the regulator sizing equation, the maximum capacity (Qmax) of the regulator is calculated, and the main line opening ratio (opening ratio (MAIN) and preliminary line) Using the opening rate (opening rate (SUB), etc.), the main hydrostatic pressure (Q _MAIN ) and the preliminary constant pressure (Q _SUB ) are calculated, and finally, the constant pressure supply (Q _REAL ) is calculated.

After calculating the gas supply amount Q _REAL as described above, the sizes of the openings 1 and 2 are compared, and the larger one is the main line opening rate (MAIN), and the smaller one is the reserve line opening rate (opening rate ( SUB)). After that, the computer 9 compares the opening degree of the main line with the preset upper limit set value, the normal value (between the upper limit and the lower limit), and the lower limit set value to display the operation status of the gas supply system according to each state. do.

Referring back to FIG. 2, the magnitude of the upper limit set value and the opening degree MAIN are compared, and the opening degree is 1) larger than the upper limit set value, 2) the upper limit set value and the lower limit set value, and 3 This is classified as less than the lower limit set value. Judgment of the operating status of the gas supply system according to each classification is performed as follows.

First, if the opening ratio (MAIN) is greater than the upper limit setting value, it is determined whether or not the installed constant pressure regulator is a loop pressure regulator. If the loop pressure regulator is a loop pressure regulator, the minimum opening ratio (LOOP (MIN) of the loop pressure regulator and the measured opening ratio (MAIN) is determined. When the difference value is greater than the set value, an alarm is issued if the difference value is greater than the set value.If the difference value is less than the set value, the upper limit value is compared with the supply quantity. The set value is an arbitrary value set by calculation.

If the constant pressure regulator is not a loop constant pressure regulator, the demand-temperature relationship and correlation coefficient for each constant pressure are calculated using the supply amount Q _REAL and the external temperature T calculated in the first step, and the demand-temperature relationship and correlation coefficient are used. Finally, the estimated supply quantity (Q _EST ) for each pressure and time zone according to the external temperature is calculated. 4 shows a demand-temperature correlation equation and an equation for calculating an expected supply amount using the same. The calculation of the expected supply amount is also calculated in the computer 9 using the inputted measurement data.

And then calculates the estimated quantity (Q _EST) as described above, it compares the magnitudes of the estimated quantity (Q _EST) and opening rate, less than the expected rate of supply opening generates a "supply line abnormality reporting". However, if the expected supply is greater than the opening rate, the supply upper limit set point is compared with the real-time supply. As a result of the comparison, when the real-time supply amount exceeds the supply amount upper limit set value and the outlet pressure lower limit set value is larger than the inlet pressure (secondary pressure), a "predictor lack of capacity" alarm is generated.

However, if the real-time supply exceeds the supply upper limit set value and the outlet pressure lower limit set value is smaller than the outlet pressure (secondary pressure), the preliminary regulator opening rate upper limit set value is compared with the preliminary regulator opening ratio (SUB). If the upper limit set value of the pressure regulator is less than the opening degree (SUB), a "low pressure regulator capacity" alarm is generated. If the upper limit set value of the spare pressure regulator is greater than the opening rate (SUB), a "regulator abnormality" alarm is issued. In addition, when the supply amount upper limit set value exceeds the supply amount, an "inlet pressure (primary pressure) drop" alarm is generated.

If the constant pressure opening degree MAIN exists between the opening limit upper limit and the lower limit setting value, first, in the case of the loop rectifier, the maximum opening rate (LOOP (MAX) and the difference between the opening rate and the LOOP (MAX) If it is greater than the set value, it will generate a “pressure regulator setting abnormality.” If it is small, the difference between the minimum opening rate (LOOP (MIN)) and the opening rate of the loop regulator (opening rate-LOOP (MAX) If)) is greater than the set value, and it is big, it generates an alarm of "setting pressure setting".

In the case of a loop constant pressure regulator, it is determined whether the outlet pressure (secondary pressure) is between the outlet pressure lower limit set value and the outlet pressure upper limit set value. If it is located between, (-) set value), it will generate “open fault” alarm and if it is out of the range of abnormal set value, it will be judged as “supply normal”.

However, if the outlet pressure (secondary pressure) is out of the value between the outlet pressure lower limit set value and the outlet pressure upper limit set value, a "pressure regulator abnormality" alarm is generated.

In addition, if the openness ratio (MAIN) of the regulator is less than the preset lower limit value, it is determined whether or not the loop regulator is determined.In the case of the loop regulator, the difference between the maximum opening ratio (LOOP (MAX)) and the opening ratio of the loop regulator is LOOP ( MAX) -opening rate) is compared with the set value of the open loop rate difference. If the setting value is too small, a "pressure regulator pressure setting error" alarm is generated.

If the outlet pressure (secondary pressure) is between the outlet pressure lower limit set value and the outlet pressure upper limit set value, a "supply normal" alarm is issued, and the outlet pressure (secondary pressure) is the outlet pressure lower limit set value and the outlet pressure upper limit. If it is out of the range between the setpoints, an alarm is issued.

As described above, it is possible to immediately determine whether the gas supply system is abnormal depending on the range of the measured value of the opening degree.

According to the present invention, a gas supply system is installed in the gas supply system used in the prior art, and the gas supply amount is calculated by using an opener for measuring the opening rate of the constant pressure. It has the effect of providing the necessary data.

1 is a schematic configuration diagram of a gas supply system in which the method of the present invention is implemented;

2 is a flowchart for explaining the method of the present invention;

3 is a modification diagram showing a process for calculating a gas supply amount;

4 is a formula for calculating the expected supply amount.

※ Explanation of symbols about main part of drawing ※

1: pressure regulator 3: opener

4: inlet pressure transmitter 5: inlet gas temperature transmitter

6: outlet pressure transmitter 7: external temperature transmitter

8: Remote Transmission Device 9: Computer

Claims (3)

A pressure regulator 1 for adjusting the supply pressure of the city gas, an opener 3 for measuring and transmitting the opening degree of the pressure regulator 1, an inlet pressure transmitter 4 for measuring and transmitting the inlet pressure, and an inlet Inlet gas temperature transmitter (5) for measuring and transmitting gas temperature, outlet pressure transmitter (6) for measuring and transmitting outlet input, external temperature transmitter (7) for measuring and transmitting external temperature, and field measurement In the city gas supply system comprising a remote transmission device 8 for transmitting to the operation room and a computer 9 that can be calculated and controlled in the operation room, A first step of calculating a real-time supply amount Q _REAL by measuring an opening rate, an inlet pressure P ₁ , an outlet pressure P ₂ , and an inlet gas temperature T _{GAS of the} pressure regulator 1; And comparing the supply amount Q _REAL , the opening rate, the inlet pressure P1, and the outlet pressure P2 calculated in the first step with the set values set for the opening rate, respectively, to determine 12 operating states of the system. And a second step of controlling the gas supply system according to the opening degree of the constant pressure. The method of claim 1, The first step is a first sub-step for determining the flow coefficient according to the size and cage type of the pressure regulator (1), the inlet pressure transmitter receives the inlet pressure, the outlet pressure from the outlet pressure transmitter unit conversion, the outlet pressure Is calculated as the critical pressure according to the flow coefficient, and the second sub-step of setting the large value as the outlet pressure by comparing the calculated critical pressure and the outlet pressure, and calculating the maximum capacity (Q _MAX ) of the constant pressure regulator using the flow calculation formula. A third sub-step, and a fourth sub-step of calculating an opening rate for calculating a real-time supply amount by using a flow rate diagram according to the size and type of cage of the pressure regulator using the opening rate of the constant pressure regulator, and the third sub-step And a fifth sub-step of calculating a real-time supply amount by multiplying the maximum capacity of the constant-pressure regulator calculated by and the opening rate of the constant-pressure regulator calculated by the fourth sub-step. Management of the gas supply system according to the opening degree of pressure control rate. The method of claim 1, If the determination of the second step exceeds the preset upper limit, In the case of the loop pressure regulator, comparing the difference between the minimum opening rate and the measurement opening rate of the loop pressure regulator and the set value of the difference in the opening degree of the loop pressure regulator to generate a pressure setting abnormality alarm of the constant pressure regulator, and the supply amount and the external quantity calculated in the first step Calculate the demand-temperature relationship and correlation coefficient for each pressure regulator using the temperature, and calculate the expected supply for each pressure regulator and time zone according to the external temperature using the demand-temperature relationship and correlation coefficient to supply when the real-time supply exceeds the expected supply. Generating a pipe abnormality alarm; generating a predicted low-capacity constant alarm when the real-time supply amount exceeds the supply quantity upper limit set value and the outlet pressure is greater than the outlet pressure lower limit set value; and real-time supply quantity exceeds the supply quantity upper limit set value. If the outlet pressure is less than the outlet pressure lower limit set value, the opening rate of the spare In case of exceeding the set value, generating the constant pressure capacity shortage alarm, and when the real-time supply exceeds the supply quantity upper limit set value and the outlet pressure is less than the outlet pressure lower limit set value, the opening ratio of the preliminary pressure regulator is set to the upper limit of the opening rate of the preliminary regulator. Generating a smaller constant pressure abnormality alarm, and generating an inlet pressure drop alarm when the real-time supply does not exceed the supply limit. If the constant pressure opening degree is normal which exists between the upper limit and the lower limit of the opening rate, In case of the loop regulator, when the difference between the minimum opening rate and the opening rate in the loop regulator or the difference between the maximum opening rate and the opening rate in the loop regulator exceeds the set value of the difference in the opening degree of the loop regulator, an abnormal alarm is set in the pressure setting of the regulator. And when the outlet pressure is between the outlet pressure lower limit set value and the outlet pressure upper limit set value, generating an opener abnormality alarm when the average opening rate of the entire time zone is between the opening degree or more set value, and setting the outlet pressure lower limit. If the value is out of the value between the set value and the outlet pressure upper limit, it consists of the step of generating the abnormal pressure alarm. If the constant pressure opening degree is less than the preset lower limit, In the case of the loop pressure regulator, the difference between the maximum opening rate and the opening rate of the loop pressure regulator and the difference in the opening degree of the loop pressure regulator are compared with each other to generate a pressure setting abnormality alarm of the pressure regulator, and the outlet pressure is the outlet pressure lower limit setting value and the outlet pressure. In the case of the value between the upper limit and the set value, the opening rate lower limit alarm is generated and the supply normal alarm is generated, and when the outlet pressure is out of the value between the outlet pressure lower limit set value and the outlet pressure upper limit set value, the abnormal pressure alarm is generated. Management method of the gas supply system according to the constant pressure opening rate, characterized in that configured.