CN215340796U - Electrical operation management system of oil and gas production station - Google Patents

Abstract

The utility model relates to an electrical operation management system of an oil and gas production station, which comprises a server side, a client side, an operation and maintenance terminal, a gateway, a sensor, a video monitoring device, a buzzing alarm device and an automatic power-off device, wherein the server side is connected with the client side through a network; the client is connected with the server through a gateway access public network in a communication way; the operation and maintenance terminal adopts an embedded industrial personal computer, and is connected with the public network through a gateway to be in communication connection with the server; the sensors comprise an airflow flow sensor, a temperature sensor, a sulfur dioxide sensor, a humidity sensor and a combustible gas sensor; each sensor is in data communication connection with the operation and maintenance terminal; the video monitoring equipment is in communication connection with the operation and maintenance terminal; the buzzing alarm equipment is in communication connection with the operation and maintenance terminal; the automatic power-off device is arranged between the operation and maintenance terminal and a power supply of the oil and gas production station. The electric operation management system of the oil and gas production station can monitor various states of the station in real time.

Description

Electrical operation management system of oil and gas production station

Technical Field

The utility model relates to the field of intelligent electrical monitoring, in particular to an electrical operation management system of an oil and gas production station.

Background

The power distribution system in the oil and gas production station is configured for process production, the display content of the operation information of the power distribution system in the station control system and the scheduling management system of the oil and gas production enterprise is limited, and operators on duty cannot comprehensively know the states of the power distribution system and equipment in the station; because the distribution system has small scale, low attention degree, limited investment and low automatic configuration, the electrical management personnel and the maintenance electricians of the oil and gas production enterprises can not know the real-time state of the distribution system and the equipment thereof in the station yard, and only when the distribution system fails, the operators on duty can be informed to carry out fault treatment and maintenance, and the work is in a passive state.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide an electric operation management system of an oil and gas production station, which can monitor the state of the station in real time.

The technical scheme for realizing the aim of the utility model is to provide an electric operation management system of an oil-gas production station, which is characterized in that: the system comprises a server side, a client side, an operation and maintenance terminal, a gateway, a sensor, video monitoring equipment, buzzing alarm equipment and an automatic power-off device;

the client comprises a PC end provided with corresponding software, a mobile phone end provided with corresponding APP and a flat plate end provided with corresponding APP;

the client is connected with the server through a gateway access public network in a communication way;

the operation and maintenance terminal adopts an embedded industrial personal computer, and is connected with the public network through a gateway to be in communication connection with the server; the operation and maintenance terminal is provided with a data acquisition interface including RS485 and a Zigbee communication module;

the sensor comprises an airflow flow sensor, a temperature sensor, a sulfur dioxide sensor, a humidity sensor and a combustible gas sensor, and the sensor is provided with a Zigbee communication module; each sensor is in data communication connection with the operation and maintenance terminal;

the video monitoring equipment adopts a video monitoring camera and is in communication connection with the operation and maintenance terminal through a cable or a gateway; the buzzing alarm device adopts a buzzer and is in communication connection with the operation and maintenance terminal through a cable or a gateway; the video monitoring equipment and the buzzing alarm equipment are arranged at each position of the oil and gas production station;

the automatic power-off device capable of detecting the leakage of the combustible gas is arranged between the operation and maintenance terminal and a power supply of an oil and gas production station.

Furthermore, each sensor is in communication connection with the operation and maintenance terminal through a gateway supporting a Zigbee protocol, or is in communication connection with a data acquisition interface of the operation and maintenance terminal through a cable, or is in data communication connection with a Zigbee communication module of the operation and maintenance terminal directly through the Zigbee communication module; the operation and maintenance terminal positions the positions of the sensors and the position of the operation and maintenance terminal through a ZigBee positioning technology and uploads the positions to the server.

Furthermore, the operation and maintenance terminal is in data communication connection with a power distribution system of the oil and gas production station through a data acquisition interface.

Further, the server side comprises an application server and a database server, the application server is connected with the database server through an intranet, and the application server is accessed to a public network through a gateway.

Furthermore, the server integrates the application server and the database server.

The utility model has the positive effects that: (1) the operation and maintenance terminal of the electric operation management system of the oil and gas production station transmits the collected data of the power distribution system and the equipment of the oil and gas production station, the data of each sensor and the data of the video monitoring equipment to the server, the database server of the server stores the data, the electric operation management system software installed on the application server processes the data to realize corresponding functions, and the client 2 accesses the server 1 to realize the functions of data access and control. When the electrical operation management system software of the server side automatically or a worker manually sends an alarm control command through the client side, the server side sends the alarm command to the operation and maintenance terminal, and the operation and maintenance terminal controls the buzzing alarm device to send out buzzing alarm signals. During the use, relevant personnel can know the distribution system real-time status at any time with the help of instruments such as PC end, cell-phone end APP or dull and stereotyped end APP, obtain information such as fault alarm, statement, fortune dimension measure, realize the distribution system fortune dimension intellectuality. The system can be used for the construction or transformation of new and old power distribution systems, and has the characteristics of simple configuration and low investment.

(2) The electric operation management system of the oil and gas production station is designed based on the Zigbee technology, the power consumption of each sensor and the operation and maintenance terminal is low, the low-voltage long-time work can be realized by battery power supply in the occasions with higher requirements and without supplying alternating current, the safety is better, the energy consumption is lower, and meanwhile, each sensor and the operation and maintenance terminal can be directly positioned by the Zigbee positioning technology, so that the instant positioning and maintenance are convenient.

(3) The automatic power-off device of the electrical operation management system of the oil and gas production station is arranged between the operation and maintenance terminal and the power supply of the oil and gas production station, and when combustible gas leaks, the automatic power-off device can cut off the power supply of the operation and maintenance terminal so as to protect corresponding data tracing. And when the environment combustible explosive gas is higher than the threshold value, the automatic power-off device cuts off the power supply of the operation and maintenance terminal.

Drawings

Fig. 1 is a schematic structural view of an electrical operation management system of an oil and gas production site of the present invention.

The reference numbers in the above figures are as follows: the system comprises a server side 1, a client side 2, an operation and maintenance terminal 3, a gateway 4, a sensor 5, a video monitoring device 6, a buzzing alarm device 7 and an automatic power-off device 8.

Detailed Description

(example 1)

Referring to fig. 1, the electrical operation management system of the oil and gas production station of the present embodiment includes a server 1, a client 2, an operation and maintenance terminal 3, a gateway 4, a sensor 5, a video monitoring device 6, a buzzer warning device 7, and an automatic power-off device 8.

The server end 1 can adopt two forms, one form comprises an application server and a database server, the application server is connected with the database server through an internal network, the application server is accessed to a public network through a gateway 4, the other form integrates the application server and the database server, the server can adopt X86 or ARM architecture, and is based on WINDOWS or LINUX platform.

The client 2 comprises a PC end provided with corresponding software, a mobile phone end provided with corresponding APP and a flat plate end provided with corresponding APP. The client 2 is connected with the server 1 through the gateway 4.

The operation and maintenance terminal 3 is an integrated embedded industrial personal computer, and is provided with a data acquisition interface such as RS485 and a Zigbee communication module such as the model WLT2408SZ, and in this embodiment, the operation and maintenance terminal 3 is a glazed embedded industrial personal computer with the model ECU-4553, and supports a wide operating temperature of-40 ℃ to 70 ℃ by using a Cortex a8 processor, 16 RS-232/485 isolated serial ports, and 4 10/100 ethernet ports. The operation and maintenance terminal 3 is accessed to the public network through the gateway 4 and is in communication connection with the server terminal 1. The operation and maintenance terminal 3 is arranged in a high-voltage switch cabinet of the oil and gas production station, and obtains corresponding data from a power distribution system and equipment of the oil and gas production station through a data acquisition interface.

The sensor 5 comprises an airflow flow sensor, a temperature sensor, a sulfur dioxide sensor, a humidity sensor, a combustible gas sensor and the like, and the sensor 5 is provided with a Zigbee communication module. Each sensor 5 is in communication connection with the operation and maintenance terminal 3 through a gateway 4 supporting a Zigbee protocol, or in communication connection with a data acquisition interface of the operation and maintenance terminal 3 through a cable, or in data communication with a Zigbee communication module of the operation and maintenance terminal 3 directly through the Zigbee communication module, and different communication connection modes depend on the site environment of the applied oil and gas production station.

The video monitoring equipment 6 adopts a video monitoring camera and is in communication connection with the operation and maintenance terminal 3 through a cable or a gateway 4. The buzzing alarm device 7 adopts a buzzer and is in communication connection with the operation and maintenance terminal 3 through a cable or a gateway 4. The video monitoring equipment 6 and the buzzing warning equipment 7 are arranged at each position of the oil and gas production station.

The automatic power-off device 8 is arranged between the operation and maintenance terminal 3 and a power supply of an oil and gas production station, and when combustible gas leaks, the automatic power-off device 8 can cut off the power supply of the operation and maintenance terminal 3 so as to protect corresponding data tracing. The automatic power-off device 8 may be an industrial combustible gas detection alarm device of model GND manufactured by idex instruments ltd, japan or a combustible gas leakage automatic power-off device disclosed in chinese patent document CN 205141628U. When the environment combustible explosive gas is higher than the threshold value, the automatic power-off device 8 cuts off the power supply of the operation and maintenance terminal 3.

The operation and maintenance terminal 3 and the sensor 5 can realize positioning through a ZigBee positioning technology based on the arrangement of a Zigbee communication module. The video monitoring equipment 6 and the buzzing warning equipment 7 directly record the position information into the server end 1. The Zigbee technology is a two-way wireless communication technology with short distance, low complexity, low power consumption, low data rate, low cost, high reliability and high safety.

The operation and maintenance terminal 3 transmits the collected data of the power distribution system and the equipment of the oil and gas production station, the data of each sensor 5 and the data of the video monitoring equipment 6 to the server end 1, a database server of the server end 1 stores the data, the application server is provided with electric operation management system software to process the data to realize corresponding functions, and the client end 2 realizes the functions of data access and control by accessing the server end 1. When the software of the electrical operation management system of the server end 1 automatically or a worker manually sends an alarm control command through the client end 2, the server end 1 sends the alarm command to the operation and maintenance terminal 3, and the operation and maintenance terminal 3 controls the buzzing alarm device 7 to send out a buzzing alarm signal.

The electric operation management system of the oil and gas production station can realize the following functions: the electric professional related personnel of the oil and gas production enterprise can realize the following functions by means of the client 2:

firstly, panoramic map:

1) and the site panoramic map is convenient for visual indexing.

2) Clicking the site to jump directly to the site billboard.

3) Color designation site status: 1. station status 2, total number of devices 3, alarm number 4, telephone 5, address.

Secondly, site monitoring:

1) the station billboard has a flexible exclusive billboard for clients with different requirements, and supports power, energy, electricity charges, demand, event alarms, equipment states, station information and the like.

2) Monitoring a picture: and the real-time dynamic primary system diagram is used for viewing real-time dynamic pictures at any time through a browser and a mobile phone APP.

3) Equipment monitoring: running data, equipment state records, and real-time data viewing (historical curves, data reports, communication states).

4) Video monitoring: supporting video monitoring of equipment accessed to a third party;

5) historical curves and historical reports: and abundant reports, trend curve templates, browsers and APP terminals are provided for synchronous viewing, and report data supports 5-minute data storage at the lowest.

6) Monthly report: 1. safe power usage, transformer analysis (voltage, liability, temperature, power factor, three-phase imbalance, harmonics, optimization recommendations.) line analysis: (load curve, temperature, power factor, three-phase imbalance, harmonics, optimization recommendations).

2. Economic power utilization: the method comprises the following steps of electric charge analysis, annual electric charge analysis, time-sharing analysis, a demand curve, daily electricity consumption, branch electricity consumption, a loop ratio and an optimization suggestion.

3. And (5) operation and maintenance analysis.

4. And analyzing the state of the equipment.

5. And (5) alarm analysis.

Thirdly, alarm management: the user-defined alarm strategy and the alarm parameters simultaneously support APP and short message alarm message pushing. The alarm is converted into an operation and maintenance task and the operation and maintenance is automatically recorded in the life cycle of the equipment.

Fourthly, accident recall: for the event node with the fault, the curve changes of 5 minutes before and 2 minutes after the fault are recalled, and the analysis of the accident reason is effectively facilitated.

And fifthly, data analysis and energy management are achieved through data acquisition and mining, flexible and powerful functions of data query, statistics, analysis, release, report form, electric charge display and the like are provided, the traditional meter reading function is achieved, the flexible analysis and statistics function is provided, and meanwhile, energy analysis of energy management is achieved.

And (3) data analysis: branches, subentries, departments and partitions can be configured according to requirements. And carrying out same-proportion, ring-proportion, energy same-proportion analysis and energy ring-proportion analysis aiming at different energy types.

Energy management: according to the configured branches, sub-items, departments and partitions, statistics of different energy types, energy change trends of today and yesterday, and energy change trends of the month and the month can be checked.

Energy statement: the system automatically accumulates the energy consumption, and a daily energy consumption report, a monthly report, each time period and the branch energy consumption condition are clearly and visually displayed in real time.

And (3) comparing and analyzing: and randomly selecting different branches for carrying out the same-proportion analysis on the branches, the items, the departments, the subareas and the like.

And (3) electric charge analysis: the intelligent power utilization statistics and analysis are carried out according to the month, the year and the user-defined time period. And the total energy consumption and the statistics and analysis of all the feeders form an electric charge list which accords with the national network charging standard and gives intuitive demand electric charges to users.

Sixthly, electric energy quality: real-time monitoring: and the real-time scoring visually displays the power supply quality, the power factor, the three-phase unbalance, the voltage, the current load rate and the current harmonic distortion rate, and gives an alarm in real time. Single-loop monitoring: the single circuit monitors the problems of harmonic wave, three-phase unbalance and other electric energy quality and gives an alarm in real time.

Seventhly, analyzing three-phase imbalance: and (3) carrying out online analysis on the three-phase imbalance of the single loop.

Eighthly, equipment management: equipment archive: A) equipment standing book: basic information such as internal identification, name, type, manufacturer and the like of the equipment; and configuring one-to-one corresponding relation among the distribution room, the distribution cabinet, the equipment and the acquisition equipment. Management classification, usage classification, installation location, purchase time, end use time, maintenance cycle, and the like. B) Equipment failure and maintenance record management. All relevant alarms, fault information and maintenance records of the equipment are comprehensively recorded, and the equipment can be inquired at any time through scanning the two-dimensional code of the equipment. C) Digital asset management, electronic archive D) device information is associated with real-time data, operation and maintenance information, and in the device archive, the current operating parameters of the device can be consulted.

The advantages are that: the method establishes a complete equipment life cycle from maintenance to maintenance and from overhaul to replacement, and has a strong equipment management function.

Ninthly, routing inspection plan: classification of various tasks: the system comprises a polling task, a maintenance task, an emergency repair task, safety evaluation, power failure maintenance and a maintenance task.

And step ten, planning the inspection plan through the system, generating an inspection task after the inspection plan is checked, pushing the inspection task to a mobile phone of an inspector, and executing the inspection task and registering inspection contents by the inspector. The inspection items of various kinds of equipment are built in the APP, and inspection personnel can directly record each inspection result on the APP. And the APP automatically evaluates the inspection result and gives total scoring evaluation. The index of the safe operation of power distribution is realized.

And eleventh, fault alarm in the system can be directly converted into task dispatching.

And twelfth, the on-duty personnel receives the telephone call of the client to report the repair or other service personnel report the repair through the PC terminal, the relevant information of the repair is input into the platform, and the subsequent repair dispatching work can be carried out according to different authorities. The operation and maintenance personnel can rob orders. All operation and maintenance processes are recorded through the APP (supporting photographing) and can be viewed in the management system.

Thirteen, the APP supports all off-line operation and maintenance operations of the operation and maintenance workers, and mobile operation and maintenance and shared operation and maintenance are achieved.

It should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And such obvious variations or modifications which fall within the spirit of the utility model are intended to be covered by the scope of the present invention.

Claims (5)

1. An electrical operation management system of oil and gas production station, its characterized in that: the system comprises a server side (1), a client side (2), an operation and maintenance terminal (3), a gateway (4), a sensor (5), video monitoring equipment (6), buzzing alarm equipment (7) and an automatic power-off device (8);

the client (2) comprises a PC end provided with corresponding software, a mobile phone end provided with corresponding APP and a flat plate end provided with corresponding APP;

the client (2) is accessed into a public network through a gateway (4) and is in communication connection with the server (1);

the operation and maintenance terminal (3) adopts an embedded industrial personal computer, and the operation and maintenance terminal (3) is accessed to a public network through a gateway (4) and is in communication connection with the server side (1); the operation and maintenance terminal (3) is provided with a data acquisition interface including RS485 and a Zigbee communication module;

the sensor (5) comprises an airflow flow sensor, a temperature sensor, a sulfur dioxide sensor, a humidity sensor and a combustible gas sensor, and the sensor (5) is provided with a Zigbee communication module; each sensor (5) is in data communication connection with the operation and maintenance terminal (3);

the video monitoring equipment (6) adopts a video monitoring camera and is in communication connection with the operation and maintenance terminal (3) through a cable or a gateway (4); the buzzing alarm device (7) adopts a buzzer and is in communication connection with the operation and maintenance terminal (3) through a cable or a gateway (4); the video monitoring equipment (6) and the buzzing warning equipment (7) are arranged at each position of the oil and gas production station;

the automatic power-off device (8) capable of detecting the leakage of the combustible gas is arranged between the operation and maintenance terminal (3) and a power supply of an oil-gas production station.

2. The electrical operation management system for an oil and gas production site of claim 1, wherein: each sensor (5) is in communication connection with the operation and maintenance terminal (3) through a gateway (4) supporting a Zigbee protocol, or is in communication connection with a data acquisition interface of the operation and maintenance terminal (3) through a cable, or is in data communication connection with a Zigbee communication module of the operation and maintenance terminal (3) directly through the Zigbee communication module; the operation and maintenance terminal (3) positions the position of each sensor (5) and the position of the operation and maintenance terminal (3) through a ZigBee positioning technology and uploads the positions to the server side (1).

3. The electrical operation management system for an oil and gas production site of claim 1, wherein: the operation and maintenance terminal (3) is in data communication connection with a power distribution system of the oil and gas production station through a data acquisition interface.

4. The electrical operation management system for an oil and gas production site of claim 1, wherein: the server (1) comprises an application server and a database server, the application server is connected with the database server through an intranet, and the application server is accessed to a public network through a gateway (4).

5. The electrical operation management system for an oil and gas production site of claim 1, wherein: the server (1) integrates the application server and the database server.

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