CN114625826A - Petrochemical industry production facility management and control integration platform - Google Patents

Abstract

The invention discloses a petrochemical industry production equipment management and control integrated platform, which comprises the following management and control methods: A. production equipment management and control integration platform includes micro server and electron sand table, and compatible relevant subsystem, adopt unified UI interface style, unified authentication and backlog, support single-point login, compatible spring cloud, through micro server, embody this system micro server split design, technical architecture needs to support and concentrates the integration ability, intelligent analysis processing ability, visualization ability and support multiple environment and deploy the ability, it is difficult to gather and integrate the data of each information to have solved its management and control platform of petrochemical industry today, and petrochemical industry needs the emergence of constantly reserve potential safety hazard of preventing, nevertheless emergent preliminary plan can not obtain effectual rehearsal, and be difficult to satisfy the deduction of hidden danger, and then can not take the problem of effective measure to handle rapidly after leading to the hidden danger to take place.

Description

Petrochemical industry production facility management and control integration platform

Technical Field

The invention relates to the technical field of petrochemical industry, in particular to a management and control integrated platform for production equipment in the petrochemical industry.

Background

The petrochemical industry refers to the field of producing chemicals by taking petroleum as a raw material in the chemical industry, and broadly comprises natural gas chemical industry, the petrochemical industry is a new industry, is formed along with the development of the petroleum refining industry in the 20 th century, grows up during the second world war, and after war, the petrochemical industry develops at a high speed, so that the production of a large amount of chemicals is transferred from the traditional method of taking coal and agriculture and forestry products as raw materials to the method of taking petroleum and natural gas as raw materials, the petrochemical industry becomes the backbone industry in the chemical industry, plays an extremely important role in national economy, the management and control platform of the petrochemical industry cannot acquire and integrate data of each piece of information, and the petrochemical industry needs to prevent the occurrence of potential safety hazard all the time, but an emergency plan cannot be effectively worked out, and cannot be difficult to develop the satisfied potential hazard, and further, effective measures cannot be taken quickly for treatment after the hidden danger occurs.

Disclosure of Invention

The invention aims to provide a petrochemical industry production equipment management and control integrated platform, which has the advantages of information integration and convenience for emergency plan drilling, and solves the problems that the management and control platform of the petrochemical industry cannot acquire and integrate data of all information easily, potential safety hazards are prevented from happening in the petrochemical industry at any time when the petrochemical industry needs to prevent, but the emergency plan cannot be effectively drilled, the potential hazards cannot be deduced easily, and further effective measures cannot be taken quickly to process the potential hazards after the potential hazards happen.

In order to achieve the purpose, the invention provides the following technical scheme: the integrated management and control platform for the production equipment in the petrochemical industry comprises the following management and control methods:

A. the production equipment management and control integrated platform comprises a micro server and an electronic sand table, is compatible with related subsystems, adopts a unified UI interface style, unifies authentication and backlog, supports single sign-on, and is compatible with SpringCloud and Guangdong petrochemical Lingyun Paas;

a1, the technical architecture according to the step A comprises: service management, service registration and discovery are realized, and load balancing of a customer service end is performed: providing a software load balancing algorithm at a client side, wherein a circuit breaker: protection system, control fault range, prevent avalanche effect, service gateway: realizing API gateway and routing, and distributed configuration: configuration management;

a2, the step A1 system technical architecture is divided into three layers: the system comprises a support layer, a platform layer and an application layer, wherein the technical architecture also needs to embody the splitting design of the micro-service of the system, and needs to support the centralized integration capability, the intelligent analysis and processing capability, the visualization capability and the deployment capability of various environments;

B. the technology development platform selected by the production equipment management and control integrated platform and the system application development thereof is realized based on the mainstream and advanced technology in the current industry, advanced design and development ideas are integrated, the platform provides transparent and consistent information access and interaction means based on the industrial internet environment and heterogeneous distribution environment (operating system, network and database), the running application of the platform is managed, service is provided for the application, and the integration of application systems in each specific field is supported;

b1, according to the step B, a distributed micro-service technology architecture is adopted based on JavaEE, HTML5, SOA and other open technologies, design ideas such as component-oriented and field model driving are integrated, and based on the current popular cloud native technology architecture technology development, the method is suitable for continuous integration and continuous operation and maintenance in an industrial internet mode, and application interconnection and intercommunication of different manufacturers, different architectures and different protocols on the cloud and under the cloud of an enterprise are realized;

b2, the platform for developing the technology in the step B comprises: application function integration, business process set, data integration, development support, application management, BI management and GIS integration;

C. the management and control system of the production equipment management and control integrated platform needs to integrate production operation, meteorological information, fire alarm, environment monitoring and other data, data sharing is realized through an enterprise comprehensive database, a mail system, a short message platform, an information issuing system, a video monitoring system, a fusion communication system, a DCS system, an MES system, a three-dimensional digital factory, a real-time inspection system, an administrative office management system, an entrance guard and one-card system, a perimeter precaution system, a GDS system and the like, and functional requirements such as video signal access, various monitoring data access and the like are realized by matching with an emergency command center large screen;

D. the production equipment management and control integrated platform management and control system also comprises emergency management, wherein the emergency management adheres to the principle that emergency preparation is the main part and the emergency preparation and emergency rescue are combined, the responsibility of the safety production emergency main body and the responsibility of the first responsible person of the safety production emergency management of the main responsible person are implemented, the safety production emergency management implements a management mechanism of unified leadership, classified management, the principal place is the main part and the related parties coordinate and link, the function of a production safety emergency module is continuously perfected, the basic information of emergency personnel, emergency mechanisms, emergency material preparation, rescue team, emergency plans, emergency rehearsal and the like is timely input and maintained, and timely, accurate and effective information support is provided for emergency of emergency production safety accidents;

d1, wherein the emergency management in the step D is to continuously and timely input and maintain basic information of emergency personnel, emergency mechanisms, emergency material preparation, rescue teams, emergency plans, emergency drills and the like, so as to provide timely, accurate and effective information support for emergency of emergency production safety accidents, and mainly comprises the operations of monitoring and early warning, emergency plan management, emergency resource management, hazard source management, emergency drills and the like;

d2, the monitoring and early warning in the step D1 can realize the visual integrated display of the online monitoring data of the major hazard source, and the panoramic/high-point video monitoring and the national-control waste gas and waste water monitoring points of key tank areas, warehouses, ports and key devices/key parts are preferentially accessed for consulting;

d3, the emergency plan management in the step D2 realizes the functions of plan planning, plan auditing, plan issuing, plan changing, plan inquiring, plan associating, plan type maintaining and the like;

d4, and maintaining emergency resources such as an emergency resource warehouse, a fire fighting vehicle, a fire hydrant, a rescue team, an expert and the like in the step D2;

d5, the dangerous source management dangerous source module in the step D2 comprises dangerous chemicals and production site contents;

d6, the emergency drilling in the step D2 depends on a three-dimensional digital factory to realize the emergency drilling, a typical accident emergency plan is used as a blue book, and for different stages and scenes, the accident scene is constructed by combining plans, cases, knowledge, flows and the like, so that the whole flow of accident rescue disposal is simulated really from the perspective of actual combat, the deduction of emergency disposal is met, the training content of emergency disposal is also supported, and the whole flow coverage of the event disposal process from alarm receiving, disposal to summary evaluation is realized;

E. the electronic sand table dimensional image in the step A is based on the technology provided by the GIS map in the step B, and the three-dimensional electronic sand table is based on the three-dimensional technology provided by a three-dimensional digital factory, so that the integration and integrated display of data such as geographic information, key unit information, emergency materials, monitoring videos, environmental monitoring and the like are supported.

Preferably, the application function integration in step B2 is to use a non-intrusive mode to connect the adaptive enterprise inventory system and the new application widely, use the user interface as a common integration point, concentrate the original scattered system interfaces in a new interface, support functions such as integration right configuration and application integration configuration, support the PC side to support the mainstream browser, and support the mobile side to support the mainstream operating system and the hybrid development mode.

Preferably, the business process set in step B2 defines, authorizes and manages various related business processes in the platform by combing the related business lines of the service department, so as to improve operation, reduce cost, increase response speed, use workflow engine technology, and support functions of process management, process design, and the like.

Preferably, the data integration in step B2 uses ESB and other related technologies to support functions of service registration and discovery, flow control, fault-tolerant fusing, protocol conversion, providing reliable message transmission, content-based routing, black and white list, and the like, where the protocol conversion at least supports WebService to HTTP.

Preferably, in the development support in step B2, the platform provides a capability of generating a source code based on front and back end templates, reduces a research and development threshold, and improves a response capability of a business innovation, including functions of template management, code generation, and the like, and the application management platform provides a remote deployment support and an operation and maintenance monitoring capability of an application, including but not limited to functions of application configuration management, application deployment management, application log monitoring management, application operation monitoring management, distributed application link tracking management, scheduling task management, and the like.

Preferably, in the BI management in step B2, the platform provides a high-efficiency visual BI management function, should have a perfect data management policy, and include functions of data source configuration, custom data set, custom bulletin board, and the like, and the GIS integration platform can respectively provide two-dimensional and three-dimensional GIS services to the outside, and can locate an accident site based on a GIS map, mark basic accident information on the GIS map, automatically associate the basic accident information, and support compatibility with various data formats.

Preferably, the format of the GIS integration compatible data is as follows:

one, support common industry mainstream data formats such as, but not limited to, the following: *. shape, csv, zip, pdf, jpg, mpk, gpk, tpk, mmpk, vtpk, etc, data of DEM, TIN, Tertain, etc, data of IMG, TIF grid, supporting access to OGC services such as WMS, WMTS, etc;

II, BIM data: supporting Autodesk Revit and MicroStation;

three, three-dimensional model data: and the method supports the import of common three-dimensional model formats, such as formats of 3ds, wrl, obj, stl and the like.

Preferably, the two-dimensional GIS service supports basic controls such as scaling and scale; the three-dimensional GIS service supports the functions of POI point display, distance measurement, surface measurement, layer switching, three-dimensional model display and the like.

Preferably, the page response time of the management and control system in the step C is less than 1 second, the maximum number of concurrent users is not less than three hundred, the maximum write rate is greater than 100MB/s, the maximum read rate is greater than 200MB/s, the system can continuously work for 7 × 24 hours without interruption, the average time of no failure is greater than 8592 hours, a failure can be timely warned, the total availability of the system is greater than or equal to 99.9%, the load of a server CPU is not greater than 70%, and the system has modes and capabilities of data backup and data recovery, and has anti-virus capability and capability of uninterrupted work of dual-computer hot standby.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention embodies the micro-service splitting design of the system through the micro-server, the technical architecture needs to support the centralized integration capability, the intelligent analysis processing capability, the visualization capability and the capability of supporting various environment deployment, the functions of integration authority configuration, application integration configuration and the like are supported by setting the application function integration, the service process set, the data integration, the development support, the application management, the BI management and the GIS integration, the PC end supports the mainstream browser, the mobile end supports the mainstream operating system and the mixed development mode, the operation is improved, the cost is reduced, the response speed is improved, the workflow engine technology is used, the functions of process management, process design and the like are supported, the accident site can be positioned, the basic accident information is marked on a GIS map, the basic accident information is automatically associated, and the compatibility of various data formats is supported.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The integrated management and control platform for the production equipment in the petrochemical industry comprises the following management and control methods:

A. the production equipment management and control integrated platform comprises a micro server and an electronic sand table, is compatible with related subsystems, adopts a unified UI interface style, unifies authentication and backlog, supports single sign-on, and is compatible with SpringCloud and Guangdong petrochemical Lingyun Paas;

a1, the technical architecture according to step A includes: service management, service registration and discovery are realized, and load balancing of a customer service end is performed: providing a software load balancing algorithm at a client side, wherein a circuit breaker: protection system, control fault range, prevent avalanche effect, service gateway: realizing API gateway and route, and distributed configuration: configuration management;

a2 and step A1 are divided into three layers: the system comprises a support layer, a platform layer and an application layer, wherein the technical architecture also needs to embody the splitting design of the micro-service of the system, and needs to support the centralized integration capability, the intelligent analysis and processing capability, the visualization capability and the multiple environment deployment capabilities;

B. the technology development platform selected by the production equipment management and control integrated platform and the system application development thereof is realized based on the mainstream and advanced technology in the current industry, advanced design and development ideas are integrated, the platform provides transparent and consistent information access and interaction means based on the industrial internet environment and heterogeneous distribution environment (operating system, network and database), the running application of the platform is managed, service is provided for the application, and the integration of application systems in each specific field is supported;

b1, according to the open technologies of the technical platform in the step B, such as JavaEE, HTML5, SOA and the like, a distributed micro-service technical framework is adopted, design ideas such as component-oriented and field model driving are integrated, and the continuous integration and continuous operation and maintenance under the industrial internet mode are adapted based on the current popular cloud native technical framework technical development, so that the interconnection and intercommunication of the applications of different manufacturers, different frameworks and different protocols on the cloud and under the cloud of the enterprise are realized;

b2, according to the technology development platform in the step B, the method comprises the following steps: application function integration, business process set, data integration, development support, application management, BI management and GIS integration;

C. the management and control system of the production equipment management and control integrated platform needs to integrate production operation, meteorological information, fire alarm, environment monitoring and other data, data sharing is realized through an enterprise comprehensive database, a mail system, a short message platform, an information issuing system, a video monitoring system, a fusion communication system, a DCS system, an MES system, a three-dimensional digital factory, a real-time inspection system, an administrative office management system, an entrance guard and one-card system, a perimeter precaution system, a GDS system and the like, and functional requirements such as video signal access, various monitoring data access and the like are realized by matching with an emergency command center large screen;

D. the production equipment management and control integrated platform management and control system also comprises emergency management, wherein the emergency management adheres to the principle that emergency preparation is the main part and the emergency preparation and emergency rescue are combined, the responsibility of the safety production emergency main body and the responsibility of the first responsible person of the safety production emergency management of the main responsible person are implemented, the safety production emergency management implements a management mechanism of unified leadership, classified management, the principal place is the main part and the related parties coordinate and link, the function of a production safety emergency module is continuously perfected, the basic information of emergency personnel, emergency mechanisms, emergency material preparation, rescue team, emergency plans, emergency rehearsal and the like is timely input and maintained, and timely, accurate and effective information support is provided for emergency of emergency production safety accidents;

d1, in the step D, emergency management is to continuously and timely input and maintain basic information of emergency personnel, emergency mechanisms, emergency material preparation, rescue teams, emergency plans, emergency drills and the like, timely, accurate and effective information support is provided for emergency of emergency production safety accidents, and the emergency management mainly comprises monitoring and early warning, emergency plan management, emergency resource management, danger source management, emergency drills and the like;

d2, the monitoring and early warning in the step D1 can realize the visual integrated display of the online monitoring data of the major hazard source, and the panoramic/high-point video monitoring and the national-control waste gas and waste water monitoring points of key tank areas, warehouses, ports and key devices/key parts are preferentially accessed for reference;

d3, D2, wherein the emergency plan management realizes functions of plan planning, plan auditing, plan issuing, plan changing, plan inquiring, plan associating, plan type maintaining and the like;

d4, maintaining emergency resources such as an emergency resource warehouse, a fire fighting vehicle, a fire hydrant, a rescue team, an expert and the like by the emergency resource management in the step D2;

d5, the dangerous source management dangerous source module in the step D2 comprises dangerous chemicals and production sites;

d6, the emergency drilling in the step D2 depends on a three-dimensional digital factory to realize the emergency drilling, a typical accident emergency plan is used as a blue book, and the accident scene is constructed by combining plans, cases, knowledge, processes and the like according to different stages and scenes, so that the whole flow of accident rescue disposal is simulated really from the perspective of actual combat, the deduction of emergency disposal is met, the training content of emergency disposal is supported, and the whole flow coverage of the event disposal process from alarm receiving, disposal to summary evaluation is realized;

E. the electronic sand table dimensional image in the step A is based on the technology provided by the GIS map in the step B, and the three-dimensional electronic sand table is based on the three-dimensional technology provided by a three-dimensional digital factory, so that the integration and integrated display of data such as geographic information, key unit information, emergency materials, monitoring videos, environmental protection monitoring and the like are supported.

Specifically, the application function integration in step B2 is to adopt a non-intrusive mode to widely connect and adapt the enterprise stock system and the novel application, use the user interface as a public integration point, concentrate the original scattered system interfaces in a new interface, support functions such as integration authority configuration and application integration configuration, support the mainstream browser at the PC end, and support the mainstream operating system and the hybrid development mode at the mobile end.

Specifically, the business process set in step B2 defines, authorizes, and manages various related business processes in the platform by combing the related business lines of the service department, so as to improve operation, reduce cost, increase response speed, and support functions such as process management and process design by using the workflow engine technology.

Specifically, the data integration in step B2 uses the ESB and other related technologies to support functions such as service registration and discovery, flow control, fault-tolerant fusing, protocol conversion, providing reliable message transmission, content-based routing, black and white list, and the like, where the protocol conversion at least supports WebService to HTTP.

Specifically, in the development support in step B2, the platform provides the capability of generating a source code based on the front-end template and the back-end template, reduces the research and development threshold, and improves the response capability of service innovation, including functions of template management, code generation, and the like, and the application management platform provides the remote deployment support and operation and maintenance monitoring capability of the application, including but not limited to functions of application configuration management, application deployment management, application log monitoring management, application operation monitoring management, distributed application link tracking management, scheduling task management, and the like.

Specifically, in the step B2, the platform provides a high-efficiency visual BI management function, a complete data management strategy includes functions of data source configuration, a user-defined data set, a user-defined billboard, and the like, and the GIS integration platform can respectively provide two three-dimensional GIS services to the outside, can locate an accident site based on a GIS map, mark basic accident information on the GIS map, automatically correlate the basic accident information, and support compatibility with various data formats.

Specifically, the format of the GIS integrated compatible data is as follows:

one, support common industry mainstream data formats such as, but not limited to, the following: *. shape, csv, zip, pdf, jpg, mpk, gpk, tpk, mmpk, vtpk, etc, data of DEM, TIN, Tertain, etc, data of IMG, TIF grid, supporting access to OGC services such as WMS, WMTS, etc;

II, BIM data: supporting Autodesk Revit and MicroStation;

three, three-dimensional model data: and the method supports the import of common three-dimensional model formats, such as formats of 3ds, wrl, obj, stl and the like.

Specifically, the two-dimensional GIS service supports basic controls such as scaling and scale; the three-dimensional GIS service supports the functions of POI point display, distance measurement, surface measurement, layer switching, three-dimensional model display and the like.

Specifically, the page response time of the management and control system in the step C is less than 1 second, the maximum number of concurrent users is not less than three hundred, the maximum writing rate is greater than 100MB/s, the maximum reading rate is greater than 200MB/s, the system can continuously work for 7 × 24 hours without interruption, the average time of no failure is greater than 8592 hours, a fault can be timely warned, the total availability of the system is greater than or equal to 99.9%, the load of a CPU (central processing unit) of a server is not greater than 70%, the system has a data backup and data recovery mode and capability, and has an anti-virus capability and a dual-computer hot standby uninterrupted working capability.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Petrochemical industry production facility management and control integration platform, its characterized in that: the control method comprises the following steps:

A. the production equipment management and control integrated platform comprises a micro server and an electronic sand table, is compatible with related subsystems, adopts a unified UI interface style, unifies authentication and backlog, supports single sign-on, and is compatible with SpringCloud and Guangdong petrochemical Lingyun Paas;

a1, the technical architecture according to the step A comprises: service management, service registration and discovery are realized, and load balancing of a customer service end is performed: providing a software load balancing algorithm at a client side, wherein a circuit breaker: protection system, control fault range, prevent avalanche effect, service gateway: realizing API gateway and route, and distributed configuration: configuration management;

a2, the step A1 system technical architecture is divided into three layers: the system comprises a support layer, a platform layer and an application layer, wherein the technical architecture also needs to embody the splitting design of the micro-service of the system, and needs to support the centralized integration capability, the intelligent analysis and processing capability, the visualization capability and the multiple environment deployment capabilities;

B. the technology development platform selected by the production equipment management and control integrated platform and the system application development thereof is realized based on the mainstream and advanced technology in the current industry, advanced design and development ideas are integrated, the platform provides transparent and consistent information access and interaction means based on the industrial internet environment and heterogeneous distribution environment (operating system, network and database), the running application of the platform is managed, service is provided for the application, and the integration of application systems in each specific field is supported;

b1, according to the step B, a distributed micro-service technology architecture is adopted based on JavaEE, HTML5, SOA and other open technologies, design ideas such as component-oriented and field model driving are integrated, and based on the current popular cloud native technology architecture technology development, the method is suitable for continuous integration and continuous operation and maintenance in an industrial internet mode, and application interconnection and intercommunication of different manufacturers, different architectures and different protocols on the cloud and under the cloud of an enterprise are realized;

b2, the platform for developing the technology in the step B comprises: application function integration, business process set, data integration, development support, application management, BI management and GIS integration;

C. the management and control system of the integrated production equipment management and control platform needs to integrate production operation, meteorological information, fire alarm, environment monitoring and other data, data sharing is realized through an enterprise comprehensive database, a mail system, a short message platform, an information issuing system, a video monitoring system, a fusion communication system, a DCS (distributed control system), an MES (manufacturing execution system), a three-dimensional digital factory, a real-time inspection system, an administrative office management system, an entrance guard and one-card system, a perimeter precaution system, a GDS (graphics system) and the like, and functional requirements such as video signal access, various monitoring data access and the like are realized in cooperation with an emergency command center large screen;

D. the production equipment management and control integrated platform management and control system also comprises emergency management, wherein the emergency management adheres to the principle that emergency preparation is the main part and the emergency preparation and emergency rescue are combined, the responsibility of the safety production emergency main body and the responsibility of the first responsible person of the safety production emergency management of the main responsible person are implemented, the safety production emergency management implements a management mechanism of unified leadership, classified management, the principal place is the main part and the related parties coordinate and link, the function of a production safety emergency module is continuously perfected, the basic information of emergency personnel, emergency mechanisms, emergency material preparation, rescue team, emergency plans, emergency rehearsal and the like is timely input and maintained, and timely, accurate and effective information support is provided for emergency of emergency production safety accidents;

d1, wherein the emergency management in the step D is to continuously and timely input and maintain basic information such as emergency personnel, emergency mechanisms, emergency material preparation, rescue teams, emergency plans, emergency drills and the like, so as to provide timely, accurate and effective information support for emergency of emergency production safety accidents, and the emergency management method mainly comprises the operations of monitoring and early warning, emergency plan management, emergency resource management, hazard source management, emergency drills and the like;

d2, the monitoring and early warning in the step D1 can realize the visual integrated display of the online monitoring data of the major hazard sources, and the major tank areas, warehouses, ports, panoramic/high-point video monitoring of key devices/major parts and national-control waste gas and waste water monitoring points are preferentially accessed for consulting;

d3, the emergency plan management in the step D2 realizes functions of plan planning, plan auditing, plan issuing, plan changing, plan inquiring, plan associating, plan type maintaining and the like;

d4, and maintaining emergency resources such as an emergency resource warehouse, a fire fighting vehicle, a fire hydrant, a rescue team, an expert and the like in the step D2;

d5, wherein the dangerous source management dangerous source module in the step D2 comprises dangerous chemicals and production sites;

d6, the emergency drilling in the step D2 depends on a three-dimensional digital factory to realize the emergency drilling, a typical accident emergency plan is used as a blue book, and for different stages and scenes, the accident scene is constructed by combining plans, cases, knowledge, flows and the like, so that the whole flow of accident rescue disposal is simulated really from the perspective of actual combat, the deduction of emergency disposal is met, the training content of emergency disposal is also supported, and the whole flow coverage of the event disposal process from alarm receiving, disposal to summary evaluation is realized;

E. the electronic sand table dimensional image in the step A is based on the technology provided by the GIS map in the step B, and the three-dimensional electronic sand table is based on the three-dimensional technology provided by a three-dimensional digital factory, so that the integration and integrated display of data such as geographic information, key unit information, emergency materials, monitoring videos, environmental monitoring and the like are supported.

2. The petrochemical industry production equipment management and control integrated platform according to claim 1, wherein: the application function integration in the step B2 is to adopt a non-intrusive mode to widely connect the adaptive enterprise stock system and the novel application, use the user interface as a public integration point, concentrate the original scattered system interfaces in a new interface, support functions such as integrated right configuration and application integrated configuration, support the mainstream browser at the PC end, and support the mainstream operating system and the hybrid development mode at the mobile end.

3. The petrochemical industry production equipment management and control integrated platform according to claim 1, wherein: the business process set in step B2 defines, authorizes and manages various related business processes in the platform by combing the related business lines of the service department, so as to improve operation, reduce cost, increase response speed, and support functions of process management, process design, etc. by using workflow engine technology.

4. The petrochemical industry production equipment management and control integrated platform according to claim 1, wherein: the data integration in the step B2 uses the ESB and other related technologies to support the functions of service registration and discovery, flow control, fault-tolerant fusing, protocol conversion, providing reliable message transmission, content-based routing, black and white list, and the like, wherein the protocol conversion at least supports the conversion from WebService to HTTP.

5. The petrochemical industry production equipment management and control integrated platform according to claim 1, wherein: in the development support in step B2, the platform provides the capability of generating source codes based on front and back end templates, lowers the research and development threshold, and improves the response capability of service innovation, including functions of template management, code generation, and the like, and the application management platform provides the remote deployment support and operation and maintenance monitoring capability of applications, including but not limited to functions of application configuration management, application deployment management, application log monitoring management, application operation monitoring management, distributed application link tracking management, scheduling task management, and the like.

6. The petrochemical industry production equipment management and control integrated platform according to claim 1, wherein: in the step B2, the platform provides a high-efficiency visual BI management function, a complete data management strategy including functions of data source configuration, user-defined data set, user-defined bulletin board, and the like, and the GIS integration platform can respectively provide two-dimensional and three-dimensional GIS services to the outside, can locate the accident site based on a GIS map, and mark the basic information of the accident on the GIS map, automatically associate the basic information of the accident, and support compatibility with various data formats.

7. The petrochemical industry production equipment management and control integrated platform according to claim 6, wherein: the GIS integration compatible data format is as follows:

one, support common industry mainstream data formats such as, but not limited to, the following: *. shape, csv, zip, pdf, jpg, mpk, gpk, tpk, mmpk, vtpk, etc, data of DEM, TIN, Tertain, etc, data of IMG, TIF grid, supporting access to OGC services such as WMS, WMTS, etc;

II, BIM data: supporting Autodesk Revit and MicroStation;

three, three-dimensional model data: and the method supports the import of common three-dimensional model formats, such as formats of 3ds, wrl, obj, stl and the like.

8. The petrochemical industry production equipment management and control integrated platform according to claim 5, wherein: the two-dimensional GIS service supports basic controls such as scaling and scale; the three-dimensional GIS service supports the functions of POI point display, distance measurement, surface measurement, layer switching, three-dimensional model display and the like.

9. The petrochemical industry production equipment management and control integrated platform according to claim 5, wherein: and C, controlling the page response time of the system to be less than 1 second, controlling the maximum number of concurrent users to be not less than three hundred, controlling the maximum writing rate to be greater than 100MB/s, controlling the maximum reading rate to be greater than 200MB/s, controlling the system to continuously work for 7 multiplied by 24 hours without interruption, controlling the average time of no failure to be greater than 8592 hours, and timely alarming if the system fails, controlling the total availability of the system to be greater than or equal to 99.9 percent and controlling the CPU load of the server to be not greater than 70 percent, wherein the system has the modes and the capabilities of data backup and data recovery, and has the anti-virus capability and the capability of uninterrupted work of double-computer hot standby.