RU58746U1 - INFORMATION AND MANAGEMENT SYSTEM OF STABILIZATION OF PRESSURE OF A GAS-LIQUID MIXTURE - Google Patents

Abstract

The utility model relates to computing, information-measuring equipment and can be used in gas, oil and other industries at enterprises with a continuous technological cycle in terms of maintaining optimal regulation of optimal parameters of technological processes. The technical result obtained by the implementation of the utility model consists in the application and refinement of tools configured to generate control actions by introducing blocks and connections that read the configuration parameters and distribute the optimal load at the inlet of the processing plant depending on the technological scenarios of well wells.

Description

The utility model relates to computing, information-measuring equipment and can be used in gas, oil and other industries at enterprises with a continuous technological cycle in terms of maintaining optimal regulation of optimal parameters of technological processes.

The known system for collecting and processing information "ACS TP in the oil industry of OAO" NizhnevartovskASUneft ", / SCADA / Projects / Region-2000.html. the system carries out the functions of collecting technological data from well clusters and gas-lift compressor stations according to a given schedule. The automated system does not perform the functions of optimal control of technological parameters.

A data acquisition system using a standard SCADA system is also known, for example, E.B.Andreev, N.A. Kutsevich, O.V.Sinenko "SCADA systems: an inside look" M., RTsoft, 2004, p. 44, which includes technological a database of a standard SCADA system, blocks containing configuration parameters, a control room, blocks of an information management system that records the measurements made. The disadvantage of the system is the lack of automatic control of technological parameters for the producing enterprise depending on the state of parameters of wellbores.

The problem solved by the utility model is the development of control actions to maintain a stable pressure of the gas-liquid mixture at the inlet of the processing plant, ensuring the optimal load while observing technological regulations.

The technical result obtained by the implementation of the utility model consists in the application and refinement of tools configured to generate control actions by introducing blocks and connections that read the configuration parameters and distribute the optimal load at the inlet of the processing plant depending on the technological scenarios of well wells.

For this, a control information system for reading data, a unit for analyzing changes in the fishing situation and making decisions, a unit for calculating changes in productivity, a block for distributing calculated impacts, a block for issuing control actions, a unit for recording the technological process and the history of events are introduced into the standard SCADA system. The structural diagram of the information-control system for stabilizing the pressure of a gas-liquid mixture is shown in Fig.1. It includes field objects (wells, pipelines) 1, a block of configuration parameters 2, a technological database of a full-time SCADA system 3, a control room for monitoring the technological process 4, a unit for recording changes 5, an information control system for reading data 6, an analysis unit changes in the fishing situation and decision-making 7, unit for calculating changes in productivity 8, block for distributions of calculated impacts 9, block for issuing control actions 10, unit for recording technological about the process and the history of events 11. The outputs of the sensors of the fishing objects 1 through the sensor interface 12 is connected to the first input of the technological database of the standard SCADA system 3, and the first output of the technological database of the standard SCADA system 3 is connected to the inputs of the fishing objects 1. The second output of the technological database of the standard SCADA-system 3 through the interface of the dispatcher 13 is connected to the first input of the control room for monitoring the process 4. The third output is nologicheskogo database staffing SCADA-system 3 through the information flow of the technological database 14 is connected to the first input of the information management system for reading data 6. The first output of the dispatching point for monitoring the technological process 4 through the interface of the manual dispatch control of the fishery 25 are connected to the third input of the technological base data of a standard SCADA-system 3. The second output of the control room for monitoring the technological process 4 through the interface of the control room control 24 is connected to the second input of the control unit of the data reading system 6. The output of the unit of configuration parameters 2 through the information flow of the configuration data 15 is connected to the third input of the unit of the control system of data reading 6, and the output of the control unit of the data reading system 6 through common

the data stream 16 is connected to the input of the analysis unit for changing the fishing situation and making decisions 7. The output of the analysis unit for changing the fishing situation and making decisions 7 by means of the adjusted general data stream 17 is connected to the input of the block for calculating changes in productivity 8 and the output of the block for calculating changes in productivity 8 is through the adjusted the calculated data stream 18 is connected to the input of the block of distributions of the calculated effects 9. The first output of the block of distributions of the calculated effects 9 through the common stream d data taking into account the flow rate and temperature 20 is connected to the input of the registration block of the technological process and the history of events 11, and the second output of the distribution block of the calculated impacts 9 through the information stream of the new calculated flow settings 19 is connected to the input of the block issuing control actions 10. The output of the block issuing control actions 10 through the data stream of the technological base 21 is connected to the fourth input of the technological database of the standard SCADA-system 3. The first output of the registration unit of the technological process and the history of events 11 through the data stream of the history of events and hourly scans 22 is connected to the input of the unit for recording changes 5, and the second output of the unit for recording the process and history of events 11 through the data stream of monitoring dispatching personnel 23 is connected to the second input of the dispatching point for monitoring the process four.

An example of the practical application of the information management system.

From the dispatching point for monitoring the technological process 4 through the manual control interface for field 25 through the technological database of the standard SCADA system 3 and then through the interface of settings 26, a task is issued for each pipeline that ensures the delivery of produced gas to the plant. From the sensors of the fishing objects through the interface of the sensors of the fishing objects 12, the data are transferred to the technological database of the standard SCADA system 3 and transmitted through the information flow of the technological database 14 to the block of the information-control system for reading data 6. At the same time, from the dispatching point for monitoring the technological process 4 through the interface of the dispatching control panel 24 duplicates the values of the settings in the block of the information-control system for reading data 6. In the same block by the information software the current configuration data 15 receives data for configuration from the block of configuration parameters 2. The generated result is sent to the analysis unit for changing the fishing situation and decision-making 7 and from its output, the adjusted general data stream 17 receives information in the unit for calculating the productivity change 8 and the productivity change for the adjusted the calculated data stream 18 enters the distribution block of the calculated impacts 9. From block 9 for the total data stream, taking into account the flow rate and temperatures 20 information

enters the unit for recording the technological process and the history of events 11, according to the general stream of new settlement settings 19 to the block for issuing control actions 10 and then through the data stream of the technological base 21 to the unit for recording measurements 5. From the second output of the unit for recording the technological process and event history 11 through the monitoring data stream of the dispatching personnel 23, information is displayed on the dispatching point of monitoring the technological process 4.

According to the above-described scheme of the control loop of the information management system, the pressure control mode and the load control mode are used, while the system provides for the use of hidden reserves search model, maximum wellhead pressure control model, additional pipeline control model, temperature compensation model, short-term fishing loading model .

The usefulness of the information management system provides systematic and rigorous observance of the technological regulations for the operation of wells, an increase in the overhaul cycle, the operation of the main well stock in optimal mode.

Claims (1)

An information-control system for stabilizing the pressure of a gas-liquid mixture containing oilfield objects, a block of configuration parameters, a technological database of a standard SCADA system, a control room for monitoring the technological process, a unit for recording changes made, characterized in that a block of an information-control reading system is introduced into it data, analysis block for changes in the fishing situation and decision making, block for calculating changes in productivity, block for distributions calculated a unit, a unit for issuing control actions, a unit for recording the technological process and the history of events, while the outputs of the sensors of the field objects are connected via the sensor interface to the first input of the technological database of the standard SCADA system, and the first output of the technological database of the standard SCADA system is through the interface of the executive settings mechanisms connected to the inputs of fishing facilities, and the second output of the technological database of the full-time SCADA-system through the interface of the dispatcher is connected to the first input ohm of the control room for monitoring the technological process, and the third output of the technological database of the standard SCADA system is connected via the information flow of the technological database to the first input of the information-control system for reading data, while the first output of the control room for monitoring the technological process is through the interface of the manual control room management of the field is connected to the third input of the technological database of the standard SCADA system, and the second output of the control center monitoring the technological process through the interface of the control console is connected to the second input of the information control unit of the data reading system, and the output of the configuration parameter block through the information flow of configuration data is connected to the third input of the information management unit of the data reading system, and the output of the information management system unit reading data through a common data stream is connected to the input of the analysis unit for changing the fishing situation and making decisions, what is the output of the unit for analyzing changes in the fishing situation and making decisions through the adjusted total data stream is connected to the input of the unit for calculating productivity changes, and the output of the unit for calculating productivity changes through the adjusted calculated data stream is connected to the input of the block of distributions of calculated actions, while the first output of the block of distributions of calculated effects through a common data stream, taking into account the flow rate and temperature, is connected to the input of the process unit essa and history of events, and the second output of the block of distributions of the calculated actions through the information stream of the new calculated settings of the flow is connected to the input of the block issuing control actions, and the output of the block of issuing control actions through the data stream of the technological base is connected to the fourth input of the technological database of the standard SCADA system, and the first output of the registration block of the technological process and the history of events through the data stream of the history of events and hourly scanning is connected with the input of the unit for recording changes made, while the second output of the unit for recording the technological process and the history of events through the data stream of monitoring of dispatching personnel is connected to the second input of the dispatching point for monitoring the process.