CN114630030A

CN114630030A - Oil and gas field mobile measure operation equipment monitoring system and method thereof

Info

Publication number: CN114630030A
Application number: CN202210237917.8A
Authority: CN
Inventors: 杨博文; 陈斌; 鲍兴武; 曹瑞召
Original assignee: Shaanxi Etrol Technologies Co ltd
Current assignee: Beijing Etrol Oil And Gas Technology Co ltd
Priority date: 2022-03-10
Filing date: 2022-03-10
Publication date: 2022-06-14

Abstract

The invention discloses an oil and gas field mobile measure operation equipment monitoring system and a method thereof, which relate to the field of informatization systems, are applied to oil and gas field mobile measure operation monitoring, and solve the technical problems that the conventional operation period is short, a special communication link cannot be erected for communication, the main purpose of the measure operation monitoring process is to monitor the normalization and the operation effectiveness of the operation process, and the integral operation data tracing corresponding to an operation plan is formed in the monitoring process, and comprise the data interaction between a front-end monitoring host and a monitoring server; by adopting the monitoring system, the communication state of the equipment can be timely mastered, communication visit can be continuously and frequently carried out, the effective communication occupancy rate is increased, and the working efficiency is effectively improved. The measure operation monitoring process of the application file ensures the normalization and the operation effectiveness of the operation process supervision, and can form complete operation data tracing corresponding to the operation plan in the monitoring process.

Description

Oil and gas field mobile measure operation equipment monitoring system and method thereof

Technical Field

The invention relates to the field of informatization systems, is mainly applied to monitoring of oil and gas field mobile measure operation equipment, and relates to a system and a method for monitoring the oil and gas field mobile measure operation equipment.

Background

A large amount of mobile measure operation equipment exists in an oil and gas field, and the equipment becomes a blind spot for monitoring the oil and gas field due to the characteristics of short operation period, strong operation maneuverability and the like. The following difficulties mainly exist in the monitoring of such devices:

1. the oil and gas field operation equipment is operated by a motor and has a short operation period, so that a special communication link cannot be erected for communication. In addition, the equipment is in a power-off or non-working state under most conditions, so that the conventional monitoring system cannot timely master the communication state of the equipment, and needs to frequently perform communication visit, thereby causing the problems of high invalid communication occupation ratio, low efficiency and the like;

2. the mobile measure operation has the stage characteristic, the operation process usually has a plurality of processes such as preparation, one or a plurality of operation stages, operation ending and the like, so that the data storage cannot be continuously stored like an SCADA system, and independent storage tables and files which take the operation tasks as indexes are formed according to the switching of the operation tasks;

3. the main purpose of the measure operation monitoring process is to monitor the normalization and the operation effectiveness of the operation process, so that a complete operation data tracing corresponding to an operation plan is formed in the monitoring process, and reference files such as pictures/short videos are matched for filing management. The conventional SCADA monitoring system cannot realize the storage and management of other information besides production data.

Disclosure of Invention

The invention aims to: in order to solve the technical problem, the invention provides an oil and gas field mobile measure operation equipment monitoring system.

The technical scheme adopted by the invention is as follows:

a monitoring system for oil and gas field mobile measure operation equipment comprises a front-end monitoring host and a monitoring server, wherein data interaction is carried out between the front-end monitoring host and the monitoring server; the front-end monitoring host comprises an RTU terminal, an intelligent network camera and 4G transmission equipment;

the RTU terminal is used for receiving instruction information sent by the 4G transmission equipment, sending a starting signal to the intelligent network camera, collecting arrangement field production data, position data and operation task data, and sending the collected data to the 4G transmission equipment;

the intelligent network camera is used for starting shooting and recording pictures and videos of the arrangement site after receiving a starting signal of the RTU terminal, storing data formed by shooting and recording in the memory card, and sending the stored data to the 4G transmission equipment when receiving a transmission signal sent by the 4G transmission equipment;

the 4G transmission equipment is used for carrying out data interaction with the monitoring server, receiving instruction information sent by the monitoring server, sending the instruction information to the RTU terminal, receiving data fed back by the RTU terminal and sending the feedback data into the monitoring server; and receiving transmission information sent by the monitoring server, sending the transmission information to the intelligent network camera, receiving image data sent by the intelligent network camera, and sending the image data to the monitoring server.

Furthermore, the monitoring server comprises an MQTT server, a time sequence database, a picture/short video file library and a WEB display platform;

the MQTT server is used for receiving RTU terminal feedback data uploaded by 4G transmission equipment and image data shot by an intelligent network camera, directly sending the image data to a picture/short video file library for storage, analyzing and processing the feedback data and the image data, automatically creating a historical data storage form taking a job task index as a keyword according to job task information change by analyzing and processing the data, storing the processed data into a data form, and sending the data form to a time sequence database;

the time sequence database is used for arranging the data forms according to the time sequence and storing and reading the data forms with high density and high concurrency;

the picture/short video file library is used for storing image data sent by the intelligent network camera;

and the WEB display platform calls the data form in the time sequence database and the image data of the picture/short video file library and displays the data form and the image data.

Further, the time sequence database can record and store data in the order of time labels, and can establish a separate data storage table by taking a single job task as an index.

Further, the data fed back by the RTU terminal is communicated with the monitoring server by an MQTT protocol, and the feedback data uploading format is a json format.

Furthermore, the image data uploaded by the intelligent network camera is actively transmitted into the monitoring server through the FTP protocol, and is archived, stored and displayed through the monitoring server.

A method for monitoring mobile measure operation equipment of an oil and gas field comprises the following steps:

s1: a user inputs job task planning data in a WEB client and stores the job task planning data into a job planning task data table;

s2: the operation personnel transports the measure operation equipment to an operation site through the operation content issued by the planned task data sheet, and installs the measure operation equipment and establishes communication;

s3: after the operation equipment is powered on, the monitoring server receives basic equipment information data sent by a front-end monitoring host in the operation equipment, the monitoring server checks the position of the operation equipment and information of an operation unit, and after the operation equipment is checked to be correct, a user sends operation task configuration information to the front-end monitoring host through a mobile phone APP or a web client;

s4: after receiving the operation configuration command, the front-end monitoring host starts or switches operation according to the operation stage command, simultaneously records the pictures/short videos of the operation site, and remotely transmits the recorded data to the monitoring server;

s5: the front-end monitoring host computer runs data acquisition in the process of starting to operate and transmits the data to the monitoring server through an MQTT protocol at a specified time interval;

s6: the monitoring server analyzes the production data information reported by the front-end monitoring host, checks the operation well name and the operation stage sequence number in the reported data, and selects to create new table storage data or discard the data according to whether the operation well name and the operation stage sequence number are consistent with the operation plan or not;

s7: when the front-end monitoring host reports the operation ending mark, the server finishes data storage, and forms an operation summary file with a specific format by taking the historical data and the picture as an attachment, so that the operation task is ended.

The invention has the following beneficial effects:

1. according to the monitoring system and the monitoring method for the oil and gas field mobile measure operation equipment, the communication state of the equipment can be mastered in time by adopting the monitoring system disclosed by the application document, the communication visit can be continuously and frequently carried out, the effective communication occupation ratio is improved, and the working efficiency is effectively improved.

2. The invention relates to a monitoring system and a monitoring method for oil and gas field mobile measure operation equipment.A front-end monitoring host can actively start photographing and short video recording functions at operation measure key nodes and transmit the functions to a server through a special link to form picture/video files corresponding to production data. The server can store and manage the job information by taking the job task as an index, and automatically generate a job task report, so that the completeness of the transmitted data can be effectively improved, and the possibility of manual errors can be reduced.

3. The invention relates to a monitoring system and a monitoring method for oil and gas field mobile measure operation equipment, wherein the measure operation monitoring process of the file ensures the normalization and the operation effectiveness of the supervision operation process, can form complete operation data tracing corresponding to an operation plan in the monitoring process, and is matched with quotation files such as pictures, short videos and the like for filing management, thereby perfecting a management scheme and facilitating subsequent operation.

Drawings

In order to more clearly illustrate the technical solution of the embodiment of the present invention, the drawings required to be used in the embodiment will be briefly described below, and it should be understood that the proportional relationship of each component in the drawings in this specification does not represent the proportional relationship in the actual material selection design, and it is only a schematic diagram of the structure or position, in which:

FIG. 1 is an overall constitution diagram of the system of the present invention;

FIG. 2 is a diagram of a system data interaction process of the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

The present invention will be described in detail with reference to fig. 1 to 2.

Example 1

As shown in fig. 1 and 2, the system for monitoring the mobile measure operation equipment of the oil and gas field comprises a front-end monitoring host and a monitoring server, wherein data interaction is carried out between the front-end monitoring host and the monitoring server; the front-end monitoring host comprises an RTU terminal, an intelligent network camera and 4G transmission equipment;

the intelligent network camera is used for starting to shoot and record pictures and videos of the arrangement site after receiving a starting signal of the RTU terminal, storing data formed by shooting and recording in the memory card, and sending the stored data to the 4G transmission equipment when receiving a transmission signal sent by the 4G transmission equipment;

the 4G transmission equipment is used for carrying out data interaction with the monitoring server, receiving the instruction information sent by the monitoring server, sending the instruction information to the RTU terminal, receiving data fed back by the RTU terminal and sending the feedback data into the monitoring server; and receiving transmission information sent by the monitoring server, sending the transmission information to the intelligent network camera, receiving image data sent by the intelligent network camera, and sending the image data to the monitoring server.

and the WEB display platform calls the data form in the time sequence database and the image data of the picture/short video file library and displays the data.

The time sequence database can record and store data in the order of time labels, and can establish a separate data storage table by taking a single job task as an index. And the data fed back by the RTU terminal is communicated with the monitoring server by an MQTT protocol, and the feedback data uploading format is a json format. And image data uploaded by the intelligent network camera is actively transmitted into the monitoring server through the FTP protocol, and is archived, stored and displayed through the monitoring server.

The working principle/working process of the invention is as follows:

the mobile measure front-end monitoring host is mainly composed of an RTU terminal, an intelligent network camera and 4G communication equipment. The RTU monitoring terminal completes the acquisition of field production data, position data and operation task data and communicates with the server by an MQTT protocol. In order to realize the automatic analysis of the server data and the automatic creation of the job task storage table, the data uploading format is the json format. The data reporting content is reported according to a key value pair mode, and the server can automatically explain the corresponding data content and format according to each key value and is convenient to expand. The intelligent network camera automatically triggers the RTU to shoot pictures/videos through switching of field operation stages, files in jpeg and mp4 formats are formed and stored in a camera memory card, active transmission is conducted to a server through 4G communication equipment by means of an FTP protocol when a link allows, and archiving storage and display are conducted by the server. The server end of the mobile measure monitoring system is composed of an MQTT driver, a relational database, a time sequence database and a WEB monitoring system. The drive implementation completes the analysis function of MQTT + json data, and can automatically create a historical data storage form taking the job task index as a keyword according to the information change of the job task, and store the corresponding data into the data form. The historical data is stored by adopting a time sequence database, the high-density and high-concurrency data storage and reading functions of field production data can be realized, and in order to realize the whole-stage process control of mobile measure operation, the server and the front-end monitoring host form a complete data interaction mechanism according to the measure operation flow, so that the whole-process data flow interaction mechanism of equipment task switching, data task information updating, stage data storage and report generation after operation is finished is completed.

Example 2

As shown in fig. 2, a method for monitoring mobile measure operation equipment of an oil and gas field comprises the following steps:

s6: the monitoring server analyzes the production data information reported by the front-end monitoring host, checks the name of an operation well and the serial number of an operation stage in the reported data, and selects to create a new table for storing data or discard the data according to whether the operation well name is consistent with the operation plan or not;

The working principle/working process of the invention is as follows: the client inputs a measure operation plan at the web client, forms task information with an operation well name and operation stage design, and stores the task information into an operation plan task data table. And after receiving the operation task, the operator transports the measure operation equipment to an operation site through vehicle transportation.

After the operation equipment is powered on, the monitoring platform receives basic equipment information sent by the front-end monitoring host, wherein the basic equipment information comprises position information, operation equipment unit information and equipment state information. The monitoring platform checks whether the position of the operation equipment is matched with the information of the operation unit, and after the matching, a user issues operation task configuration information to the front-end monitoring host through a mobile phone APP or a web client, wherein the operation task configuration information comprises an operation well name, an operation stage command and the like.

And after receiving the operation configuration command, the front-end monitoring host starts or switches the operation according to the corresponding operation stage command, and simultaneously records the pictures/short videos of the operation site. Pictures/short videos etc. remotely transfer the relevant jpeg or mp4 files to the server via FTP protocol. The front-end monitoring host starts to collect operation data in the operation process and transmits the operation data to the server through an MQTT protocol at specified time intervals. The server analyzes the production data information reported by the RTU, checks the operation well name and the operation stage sequence number in the reported data, and selects to create a new table for storing data or discard the data according to whether the operation well name is consistent with the operation plan or not.

The operation task can be remotely or locally controlled to enter the next stage through a mobile phone APP or a web client, the front-end monitoring host updates the stage sequence number, and the server checks whether the operation stage is consistent with the design or not according to the operation plan so as to prompt information. And meanwhile, in the phase switching process, the monitoring host also records the pictures/short videos and reports the pictures/short videos to the server along with the production data.

And when the job task is finished, the front-end monitoring host reports a job finishing mark, the server finishes data storage, and forms a job summary file with a specific format by taking the historical data and the pictures as attachments, so that the job summary file can be submitted to a user for inspection or storage.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A monitoring system for oil and gas field mobile measure operation equipment is characterized by comprising a front-end monitoring host and a monitoring server, wherein data interaction is carried out between the front-end monitoring host and the monitoring server;

the front-end monitoring host comprises an RTU terminal, an intelligent network camera and 4G transmission equipment;

2. The oil and gas field mobile measure operation equipment monitoring system of claim 1, wherein the monitoring server comprises an MQTT server, a time sequence database, a picture/short video file library and a WEB display platform;

3. The oil and gas field mobile measure operation equipment monitoring system according to claim 2, wherein the time sequence database can record and store data in a time tag sequence, and can establish a separate data storage table by using a single operation task as an index.

4. The oil and gas field mobile measure operation equipment monitoring system of claim 1, wherein the data fed back by the RTU terminal is communicated with the monitoring server by MQTT protocol, and the feedback data uploading format is json format.

5. The oil and gas field mobile measure operation equipment monitoring system as claimed in claim 1, wherein the image data uploaded by the intelligent network camera is actively transmitted into the monitoring server through FTP protocol, and is archived, stored and displayed through the monitoring server.

6. The oil and gas field mobile measure operation equipment monitoring system of claim 1, wherein the 4G transmission equipment communicates through an APN private network, and provides communication support for image data transmission through the APN private network.

7. A method for monitoring mobile measure operation equipment of an oil and gas field is characterized by comprising the following steps:

s1: a user inputs job task planning data in a WEB client and stores the job task planning data into a job plan task data table;