RU91448U1 - MEASUREMENT SYSTEM ON THE BASIS OF THE MEASURING-COMPUTING COMPLEX I / A SERIES - Google Patents

Abstract

The system for performing commercial gas measurements includes a constant coefficient input unit, a calculation cycle control unit, a BAD-state control unit, a flag for the presence of a malfunction, a unit for monitoring negative values, a flag for negative values, a unit for checking the dimension of the compressibility factor, incorrect input flags, a unit for checking the dimensionality of the coefficient expansion of the medium, unit for checking the dimensionality of the coefficient of barometric pressure, unit for primary processing of the entered parameters, unit for calculating an element of the formula the coefficient for the change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C, the unit for calculating the internal diameter of the measuring pipe at the working temperature, the unit for calculating the diameter of the aperture at the working temperature, the unit for calculating the relative diameter of the opening of the diaphragm at the working temperature, calculation unit input velocity coefficient, unit for calculating the volumetric flow rate of natural gas reduced to standard conditions with an initial Reynolds number 10, a block for calculating the Reynolds number N cycle, a block for calculating a part of the expiration coefficient, a block for reserving results, a unit for fully processing the coefficient for the expiration with a Reynolds number 106, a unit for processing negative values, a unit for calculating a specified Reynolds number, a unit for calculating the relative deviation, a unit for checking the relative deviation, a negative result detection unit, a cycle number calculation unit, a zero result detection unit, a processing unit for a total flow rate value and an end calculation, a processing unit

Description

The utility model relates to information-measuring equipment, namely to systems for processing measurements of gas and hydrocarbons produced at enterprises of the gas processing and oil refining industries, in particular during the transportation of processed products.

A well-known design system for calculating the volume of commercial gas based on the I / A Series measuring and computing complex, in which the calculations are carried out according to the formulas that take into account the costs, expressed in m3 / h at a temperature of 20 ° C and a pressure of 1 atm., PMo and RM - density media, kg / m3 (g / mol), Po and P are the overpressure of the medium, kgf / cm2, To and T are the temperature of the media in ° C, and PM, P and T are the current characteristics of the gas whose flow rate W needs to be measured .

The calculation formula is based on the dependence of the maximum pressure drop on the maximum flow rate. At the same time, the maximum flow rate is calculated for the next year under the ST Flowmeter program, taking into account the gas component composition averaged over the previous year, working overpressure and gas temperature.

The gas density value, reduced to standard conditions, is entered into the computing unit of the information management system daily according to the results of laboratory analysis provided by the Central Plant Laboratory (CPL) for the previous day.

The calculation results are displayed on the mimic diagrams of the Y 175 (275) installations in the form of the flow rate and volume of the transported gas reduced to standard conditions for each pipeline.

Thus, the current flow rate only takes into account the correction of the current values of P, T and density. The error in the measurement results corresponds to "-1.1%" for a given "± 2.5%."

The system for performing commodity gas measurements shown in Fig. 1 includes a constant coefficient input unit 1, a calculation cycle control unit 2, a BAD state control unit 3, a malfunction check box 4, a negative value control unit 5, a negative value check box 6, a check unit the dimensions of the compressibility factor 7, the flag of the incorrect input 8, the unit for checking the dimensionality of the coefficient of expansion of the medium 9, the flag of the incorrect input 10, the unit for checking the dimension of the coefficient of barometric pressure 11, the flag of incorrect input 1 2, the primary processing unit, the entered parameters 13, the calculation unit of the formula element of the correction factor for a change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C 14, the calculation unit of the internal diameter of the measuring pipe at the operating temperature of 15, the diaphragm hole diameter calculation unit at a working temperature of 16, a unit for calculating the relative diameter of the aperture at a working temperature of 17, a unit for calculating the input velocity coefficient 18, a unit for calculating the volumetric consumption of natural gas, reduced to standard conditions at an initial Reynolds October 19, calculation unit Reynolds number N cycle 20, computation block portion coefficient expiration 21, block redundancy results 22, the block complete processing of the discharge coefficient at Reynolds number ^{6 October} 23 processing unit negative values 24, the unit for calculating the specified Reynolds number 25, the unit for calculating the relative deviation 26, the unit for checking the relative deviation 27, the unit for detecting a negative result 28, the unit for calculating the number of cycles 29, unit for detecting a zero result 30, a unit for processing the total value of the flow rate and the end of calculation 31, a unit for processing BAD states 32, a unit for transmitting data 33, an unit for transmitting information 72, an unit for entering values with FBM 75, information: flows 34-58, flows of logical information 59-74, 76, 77.

The output of the constant coefficient input block 1 by the information stream 34 is connected to the first input of the calculation cycle control unit 2, the output of the primary processing unit, entered parameters 75 by the information stream 58 is connected to the second input of the calculation cycle control unit 2, while the output of the calculation cycle control unit 2 by the information stream 35 connected to the input of the BAD-state control unit 3. The first output of the BAD-state control unit 3 by the flow of logic information 59 is connected to the input of the flag of the presence of fault 4, and the second output of the BAD-control unit State 3 by information flow 36 is connected to the negative value control unit 5. The first output of the negative value control unit 5 by the logical information flow 60 is connected to the input of the flag for negative values 6, and the second output of the negative value control unit 5 by information stream 37 is connected to the coefficient dimensionality check unit compressibility 7. The first output of the unit for checking the dimension of the compressibility coefficient 7 is connected by a flow of logical information 61 to the flag of incorrect input, and the second output of the block Errors of the dimension of the compressibility coefficient 7 by the information stream 38 are connected to the block for checking the dimension of the coefficient of expansion of the medium 9. The first output of the block for checking the dimension of the coefficient of expansion of the medium 9 by the logical information flow 62 is connected to the flag of the incorrect input 10, and the second output of the block for checking the dimension of the coefficient of expansion of the medium 9 by the information stream 39 is connected to a block for checking the dimensionality of the coefficient of barometric pressure 11. The first output of the unit for checking the dimensionality of the coefficient for barometric pressure 11 by the flow of logical information 63 is connected to the flag of the incorrect input 12, and the second output of the block for checking the dimension of the coefficient of barometric pressure 11 by the information stream 40 is connected to the block of the primary processing of the entered parameters 13. The output of the primary processing block of the entered parameters 13 by the information stream 41 is connected to the input unit for calculating an element of the formula for the correction factor for a change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C 14. Output block calculating an element of the formula for the correction factor for a change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C 14 by the information stream 42 is connected to the unit for calculating the internal diameter of the measuring pipe at a working temperature of 15, while the output of the block for calculating the internal diameter of the measuring pipe at a working temperature 15 by the information stream 43 is connected to the block for calculating the diameter of the aperture opening at the operating temperature 16. The output of the block for calculating the diameter the diaphragm aperture opening at operating temperature 16 is connected by an information stream 44 to the input of the unit for calculating the relative diameter of the diaphragm aperture at operating temperature 17, and the output of the unit for calculating the relative diameter of the diaphragm aperture at operating temperature 17 is connected by information flow 45 to the input of the input velocity coefficient calculation unit 18. Output unit for calculating the input velocity coefficient 18 by the information stream 46 with the input of the unit for calculating the volumetric flow rate of natural gas reduced to standard conditions at the initial the Reynolds number is 10 19, and the output of the natural gas volume flow calculation unit reduced to standard conditions with the initial Reynolds number 10 19 is connected to the first input of the Reynolds number calculation unit N cycle 20 by an information stream 47 and the output of the Reynolds number calculation block N cycle 20 the information stream 48 is connected to the input of the unit for calculating the part of the coefficient of expiration 21, and the output of the unit for calculating the part of the coefficient of expiration 21 by the information stream 49 is connected to the input of the block of reservation of the result 22, at m redundancy result output unit 22, an information stream 50 is connected to the input of the full processing of the discharge coefficient at Reynolds on June ¹⁰ 23. The output of the full processing of the discharge coefficient at Reynolds on June ¹⁰ information stream 51 is connected to a first input of negative values processing unit 24, and the output the negative value processing unit 24 by the information stream 52 is connected to the input of the unit for calculating the specified Reynolds number 25, while the output of the unit for calculating the specified Reynolds number 25 is informational m stream 53 is connected to the input of the unit for calculating the relative deviation 26. The output of the unit for calculating the relative deviation 26 by the information stream 54 is connected to the input of the unit for checking the relative deviation 27, and the first output of the unit for checking the relative deviation 27 is connected by the logical information flow 64 to the input of the negative detection unit 28 wherein the second output of the relative deviation check unit 27 is connected to the flow calculation unit 29 by the information flow 55. The first output of the quantity calculation unit cycles 29 by the flow of logical information 65 is connected to the input of the unit for detecting the zero result 30, and the second output of the unit for calculating the number of cycles 29 by the information stream 56 is connected to the input of the processing unit of the final value of the flow and the end of calculation 31, while the third output of the unit for calculating the number of cycles 29 is the logical flow of information 73 is connected to the second input of the block for calculating the Reynolds number N of cycle 20. The output of the processing unit of the total flow rate and the end of calculation 31 is connected to the first input of the processing unit by information stream 57 BAD-states 32. The output of the flag of the presence of a malfunction 4 by the flow of logical information 74 is connected to the first input of the data transmission unit 33. The output of the flag of the presence of negative values 6 by the flow of logical information 66 is connected to the input of the processing unit of negative values 24, and the output of the flag of the incorrect input 8 by the logical flow information 67 is connected to the second input of the data transfer unit 33, while the output of the incorrect input flag 10 by the flow of logical information 68 is connected to the third input of the data transfer unit 33, and the output of the incorrect input flag 1 2, by the flow of logical information 69 is connected to the fourth input of the data transmission unit 33, while the output of the data transfer unit 33 by the flow of logical information 75 is connected to the second input of the processing unit BAD-states 32. The output of the negative detection unit 28 by the flow of logical information 70 is connected to the first input the information transmission unit 72, and the output of the zero result detection unit 30 by the logical information flow 71 is connected to the second input of the information transmission unit 72, while the output of the information transmission unit 72 by the flow of The logical information 77 is connected to the third input of the BAD-state processing unit 32.

The proposed measuring and computing complex based on I / A Series "Foxboro" includes:

- measuring instruments for differential pressure DP, pressure P and temperature T;

- information management system I / A Series "Foxboro". The computing unit of the I / A Series Foxboro information and control system calculates the gas flow rate using the formula:

where not only the current values of the differential pressure DP, pressure P and temperature T are taken into account, but also data related to the current changes in the size of the constriction device and the pipeline depending on the gas temperature, daily changes in atmospheric pressure, as well as correction factors depending on the composition of the product gas, which are calculated according to the certified program and are entered manually daily.

The calculations are carried out in the CALCA microprocessor-based computing unit of the Foxboro I / A Series information management system in automatic mode.

The value of the correction coefficient for changing the diameter of the aperture hole is calculated, caused by the deviation of the working gas temperature from 20 ° C according to the formula:

K _CU = 1 + α _tСУ (t-20),

K _T = 1 + α _tT (t-20),

The coefficient of the inlet velocity is calculated taking into account the value of the diameter of the aperture aperture - d and the inner diameter of the IT - D and the relative diameter of the aperture aperture β

The absolute gas pressure in front of the diaphragm is calculated:

p = p _u + p _a

The expiration coefficient C is calculated

The volumetric gas flow rate q _c1 reduced to standard conditions is calculated.

Relative deviation checks are performed:

The value of the gas volume obtained in m3 / s and reduced to standard conditions for a measurement period is determined by the formula:

,

where q _ci is the flow rate calculated on one measurement cycle.

Δτ is the time interval between measurement cycles for the measurement time period (reporting period);

n is the number of measurement cycles for the measurement time period (reporting period).

The proposed utility model based on the I / A Series Foxboro measuring and computing complex allows taking into account

- daily changes in the physical properties of the gas — compressibility coefficient, expansion coefficient, and viscosity;

- current changes in the geometric characteristics of the narrowing device and the pipeline;

- barometric pressure

which leads to a more accurate measurement of the flow rate of commercial gas.

As a result of the introduction of a new form of calculation of the measuring and computing complex at all flowmeter nodes, the error in measuring the gas flow rate decreased to "± 0.2%." The final result of the current gas flow rate is displayed on the Y175 (275) units in the form of the flow rate and volume of transported gas reduced to standard conditions for each pipeline.

Claims (1)

The system for performing commercial gas measurements includes a constant coefficient input unit, a calculation cycle control unit, a BAD state control unit, a flag for the presence of a malfunction, a unit for monitoring negative values, a flag for negative values, a unit for checking the dimension of the compressibility factor, incorrect input flags, a unit for checking the dimensionality of the coefficient expansion of the medium, a unit for checking the dimension of the coefficient of barometric pressure, a unit for primary processing of the entered parameters, a unit for calculating an element of the formula the coefficient for the change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C, the unit for calculating the internal diameter of the measuring pipe at the working temperature, the unit for calculating the diameter of the aperture at the working temperature, the unit for calculating the relative diameter of the opening of the diaphragm at the working temperature, calculation unit input velocity coefficient, unit for calculating the volumetric flow rate of natural gas reduced to standard conditions with an initial Reynolds number 10, a block for calculating the Reynolds number N cycle, a block for calculating a part of the expiration coefficient, a block for reserving results, a block for completely processing the expiration coefficient with a Reynolds number 10 ⁶ , a block for processing negative values, a block for calculating a specified Reynolds number, a block for calculating the relative deviation, a unit for checking the relative deviation , block for detecting a negative result, block for calculating the number of cycles, block for detecting a zero result, block for processing the total value of the flow rate and the end of calculation, processing block BAD-states, data transfer unit, information transfer unit, FBM value input unit, information flows, logical information flows, and the output of the constant coefficient input unit by an information stream is connected to the first input of the calculation cycle control unit, the output is the primary processing unit, the input parameters are informational the flow is connected to the second input of the control unit for the control of calculation cycles, while the output of the control unit for the control of calculation cycles information flow is connected to the input of the control unit of BAD-states, and the first output of the block to The control of BAD-states by the flow of logical information is connected to the input of the flag of the presence of a malfunction, and the second output of the control unit of BAD-states by the information flow is connected to the control unit of negative values, while the first output of the control of negative values by the flow of logical information is connected to the input of the flag of the presence of negative values, and the second output of the negative value control unit is connected by an information stream to the compressibility factor dimensionality verification unit, the first output of the proving unit Errors of dimension of the compressibility factor by the flow of logical information is connected to the flag of the wrong input, and the second output of the block of checking the dimension of the coefficient of compressibility by the information stream is connected to the block of checking the dimension of the coefficient of expansion of the medium, while the first output of the block of checking the dimension of the coefficient of expansion of the medium by the flow of logical information is connected to the flag of the incorrect input and the second output of the unit for checking the dimension of the coefficient of expansion of the medium by the information flow is connected to the block ki of the barometric pressure coefficient dimension, the first output of the barometric pressure coefficient dimension verification unit being connected with an incorrect input flag by the logical information flow, and the second output of the barometric pressure coefficient dimensionality checking unit with an information stream connected to the primary processing unit, the entered parameters, while the output of the primary processing unit of the entered parameters by the information flow is connected to the input by the block of calculation of the element of the formula of the correction factor and on the change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C, and the output of the calculation unit of the element of the formula for the correction factor on the change in the internal diameter of the measuring pipeline caused by the deviation of the working temperature of the gas from 20 ° C by an information flow is connected to the block for calculating the internal diameter measuring pipeline at operating temperature, and the output of the unit for calculating the internal diameter of the measuring pipeline at operating temperature inform the flow of flow is connected to the block for calculating the diameter of the aperture at operating temperature, and the output of the block for calculating the diameter of the diaphragm at working temperature is connected to the input of the block for calculating the relative diameter of the diaphragm at operating temperature, while the output of the block for calculating the relative diameter of the diaphragm at working temperature the information flow is connected to the input of the input rate coefficient calculation unit, and the output of the input speed coefficient calculation unit is a flow with an input of a block for calculating the volumetric flow rate of natural gas reduced to standard conditions with an initial Reynolds number of 10, and the output of a block for calculating the volumetric flow rate of natural gas reduced to standard conditions for an initial number of Reynolds 10 using an information stream connected to the first input of the block for calculating the Reynolds number N cycle, and the output of the block for calculating the Reynolds number N of the cycle is connected by an information stream to the input of the block for calculating the part of the expiration coefficient, while the output of the block for calculating the part of the coefficient is the expiration of the information flow is connected to the input of the reservation result, a backup unit output result information stream is coupled to the input of the full processing of the discharge coefficient block for Reynolds on June ^10, the output of fully processed discharge coefficient block for Reynolds on June ¹⁰ information stream is coupled to a first input unit for processing negative values, and the output of the unit for processing negative values with an information stream is connected to the input of the unit for calculating the specified Rei number Nolds, while the output of the unit for calculating the specified Reynolds number is connected by an information stream to the input of the unit for calculating the relative deviation, and the output of the unit for calculating the relative deviation by the information stream is connected to the input of the unit for checking the relative deviation, and the first output of the unit for checking the relative deviation is connected with the input of the unit detecting a negative result, while the second output of the unit for checking the relative deviation of the information stream is connected to the bl the window for calculating the number of cycles, and the first output of the unit for calculating the number of cycles by a logical information flow is connected to the input of the zero result detection unit, and the second output of the unit for calculating the number of cycles by the information flow is connected to the input of the processing unit of the total flow rate and the end of the calculation, and the third output of the quantity calculation unit cycles, the flow of logical information is connected to the second input of the block for calculating the Reynolds number N cycle, while the output of the processing unit of the final flow rate and the end of the calculation by an irrigation flow is connected to the first input of the BAD-state processing unit, and the output of the flag of the presence of a malfunction by the flow of logical information is connected to the first input of the data transmission unit, and the output of the flag of negative values by the flow of logical information is connected to the input of the processing unit of negative values, and the output of the incorrect input flag the logical information flow is connected to the second input of the data transmission unit, while the output of the flag of incorrect input the logical information flow is connected to the third input of the block and the data transmission, and the output of the flag of incorrect input by the logical information flow is connected to the fourth input of the data transmission unit, and the output of the data transmission unit by the logical information flow is connected to the second input of the BAD-state processing unit, and the output of the negative detection unit by the logical information flow is connected to the first the input of the information transfer unit, while the output of the zero result detection unit is connected by a logical information stream to the second input of the information transfer unit, and the output of the information transfer logical flow information is coupled to the third input states BAD-processing unit.