1 General provisions
1.0.1 This code is formulated with a view to standardizing the design of plant information system in petrochemical engineering and promoting the advanced technology, safety, reliability, economic rationality, energy conservation and environmental protection of the plant information system.
1.0.2 This code is applicable to the design of constructed, renovated and extended plant information system in petrochemical engineering.
1.0.3 The design of plant information system in petrochemical engineering shall follow the principle that the short-term construction scale is consistent with the long-term development plan.
1.0.4 The design of plant information system in petrochemical engineering shall not only meet the requirements of this code, but also comply with relevant current national standards.
2 Terms and abbreviations
2.1 Terms
2.1.1 material
abbreviation of material goods, including production goods and living goods. Materials required in the enterprise manufacturing process mainly refer to raw materials, auxiliary materials, fuels, power, accessories and tools, etc.
2.1.2 material
raw materials, auxiliary materials, semi-finished products and finished products related to product manufacturing
2.1.3 supply chain management
platform based on the demands of end customers, which manages the information resources of relevant enterprises providing a common product or service using software products based on Internet technology, thus optimizing the business process of the whole channel, i.e., platform for enterprises to optimize the business process of the whole channel
2.1.4 plant data warehouse
topic-oriented, integrated, relatively stable, and historical heterogeneous data sets that describe the plant and its components, such as related data, files and logical and physical models, to realize the management of the plant digital model
2.2 Abbreviations
2.2.1 APC advanced process control
2.2.2 CCR central control room
2.2.3 CCS compressor control system
2.2.4 CCTV central control television
2.2.5 CRM customer relationship management
2.2.6 DAS direct attached storage
2.2.7 DCS distributed control system
2.2.8 EIP enterprise information portal
2.2.9 ERP enterprise resource planning
2.2.10 FAR field auxiliary room
2.2.11 FCS fieldbus control system
2.2.12 FGS fire and gas detection system
2.2.13 KPI key performance indicator
2.2.14 LIMS laboratory information management system
2.2.15 MAS movement automation system
2.2.16 MES manufacturing execution system
2.2.17 MMS machinery monitoring system
2.2.18 NAS network attached storage
2.2.19 OA office automation
2.2.20 OBS oil blending system oil
2.2.21 OPC object linking and embedding (OLE) for process control
2.2.22 OTS operator training simulator
2.2.23 PAS process analyzers system
2.1.24 PCS process control system
2.2.25 PDA personal digital assistant
2.2.26 PLC programmable logic controller
2.2.27 RTO real-time optimization
2.2.28 SAN storage area network
2.2.29 SCADA supervisory control and data acquisition
2.2.30 SCM supply chain management
2.2.31 SIS safety instrumented system
2.2.32 AMS asset management system
3 System design
3.1 General requirement
3.1.1 The design of plant information system shall follow the principles of safety, reliability, economy, practicality, openness, extensibility, advanced technology, integration and optimization, and shall meet the following requirements:
1 Modular and standardized system structure shall be adopted to support flexible configuration, function extensibility and performance improvement as well as sustainable business process reorganization.
2 The business requirements shall be met, and attention shall be paid to practical results and reasonable investment.
3 Commercialized mature products at home and abroad with successful application cases in the industry and open commercialized systems and integration platforms shall be adopted.
3.1.2 The plant information system shall be regarded as one of the main contents of enterprise or plant planning design and engineering design, and shall be coordinated with the design of specialties such as process, instrument, and telecommunications.
3.1.3 The plant information system shall be planned comprehensively and implemented by steps.
3.1.4 The feasibility study, overall design, basic design and detailed design stages of plant information system design shall include the following contents:
1 Pre-feasibility study and feasibility study stage. Prepare a report to determine the overall objective, basic composition and basic functions; put forward investment estimation and benefit analysis conditions; complete the planning design of the system to provide the basis for decision-making.
2 Overall design stage. Prepare the overall design documents to determine the design scope, principles and standards; determine the system objectives, overall architecture, main functions and performance requirements; determine the operation and maintenance mode, organization, position and quota; put forward the preliminary budget estimate conditions; complete the overall scheme design of the system.
3 Basic design stage. Prepare basic design documents to determine design basis, standards and specifications; further determine the system objectives and overall architecture; determine the requirements such as logical structure, function, performance, protocol and interface specification and type selection principles of each system and its components (subsystems, equipment, etc.); determine the selection principle, main performance and environmental requirements of equipment and materials; determine the interface and integration method between systems; determine the organization and staffing; put forward the budget estimate conditions; complete the basic scheme design of the system and its subsystems.
Foreword i
1 General provisions
2 Terms and abbreviations
2.1 Terms
2.2 Abbreviations
3 System design
3.1 General requirement
3.2 System architecture
3.3 Design elements
3.4 Integrated design
4 Process control system
4.1 General requirement
4.2 Design elements
5 Manufacturing execution system
5.1 General requirement
5.2 Design elements
6 Operation management system
6.1 General requirement
6.2 Design elements
7 Integrated information management system
7.1 General requirement
7.2 Design elements
8 Infrastructure of information system
8.1 General requirement
8.2 Design elements of network system
8.3 Design elements of computer device
8.4 Design elements of basic software
8.5 Design elements of storage and backup system
8.6 Design elements of information system security
8.7 Design elements of safety protection system
8.8 Design elements of generic cabling system
8.9 Design elements of electronic information system room
Explanation of wording in this code
List of quoted standards
Standard
GB/T 50609-2010 Code for design of plant information system in petrochemical engineering (English Version)
Standard No.
GB/T 50609-2010
Status
valid
Language
English
File Format
PDF
Word Count
23000 words
Price(USD)
690.0
Implemented on
2011-10-1
Delivery
via email in 1 business day
Detail of GB/T 50609-2010
Standard No.
GB/T 50609-2010
English Name
Code for design of plant information system in petrochemical engineering
1 General provisions
1.0.1 This code is formulated with a view to standardizing the design of plant information system in petrochemical engineering and promoting the advanced technology, safety, reliability, economic rationality, energy conservation and environmental protection of the plant information system.
1.0.2 This code is applicable to the design of constructed, renovated and extended plant information system in petrochemical engineering.
1.0.3 The design of plant information system in petrochemical engineering shall follow the principle that the short-term construction scale is consistent with the long-term development plan.
1.0.4 The design of plant information system in petrochemical engineering shall not only meet the requirements of this code, but also comply with relevant current national standards.
2 Terms and abbreviations
2.1 Terms
2.1.1 material
abbreviation of material goods, including production goods and living goods. Materials required in the enterprise manufacturing process mainly refer to raw materials, auxiliary materials, fuels, power, accessories and tools, etc.
2.1.2 material
raw materials, auxiliary materials, semi-finished products and finished products related to product manufacturing
2.1.3 supply chain management
platform based on the demands of end customers, which manages the information resources of relevant enterprises providing a common product or service using software products based on Internet technology, thus optimizing the business process of the whole channel, i.e., platform for enterprises to optimize the business process of the whole channel
2.1.4 plant data warehouse
topic-oriented, integrated, relatively stable, and historical heterogeneous data sets that describe the plant and its components, such as related data, files and logical and physical models, to realize the management of the plant digital model
2.2 Abbreviations
2.2.1 APC advanced process control
2.2.2 CCR central control room
2.2.3 CCS compressor control system
2.2.4 CCTV central control television
2.2.5 CRM customer relationship management
2.2.6 DAS direct attached storage
2.2.7 DCS distributed control system
2.2.8 EIP enterprise information portal
2.2.9 ERP enterprise resource planning
2.2.10 FAR field auxiliary room
2.2.11 FCS fieldbus control system
2.2.12 FGS fire and gas detection system
2.2.13 KPI key performance indicator
2.2.14 LIMS laboratory information management system
2.2.15 MAS movement automation system
2.2.16 MES manufacturing execution system
2.2.17 MMS machinery monitoring system
2.2.18 NAS network attached storage
2.2.19 OA office automation
2.2.20 OBS oil blending system oil
2.2.21 OPC object linking and embedding (OLE) for process control
2.2.22 OTS operator training simulator
2.2.23 PAS process analyzers system
2.1.24 PCS process control system
2.2.25 PDA personal digital assistant
2.2.26 PLC programmable logic controller
2.2.27 RTO real-time optimization
2.2.28 SAN storage area network
2.2.29 SCADA supervisory control and data acquisition
2.2.30 SCM supply chain management
2.2.31 SIS safety instrumented system
2.2.32 AMS asset management system
3 System design
3.1 General requirement
3.1.1 The design of plant information system shall follow the principles of safety, reliability, economy, practicality, openness, extensibility, advanced technology, integration and optimization, and shall meet the following requirements:
1 Modular and standardized system structure shall be adopted to support flexible configuration, function extensibility and performance improvement as well as sustainable business process reorganization.
2 The business requirements shall be met, and attention shall be paid to practical results and reasonable investment.
3 Commercialized mature products at home and abroad with successful application cases in the industry and open commercialized systems and integration platforms shall be adopted.
3.1.2 The plant information system shall be regarded as one of the main contents of enterprise or plant planning design and engineering design, and shall be coordinated with the design of specialties such as process, instrument, and telecommunications.
3.1.3 The plant information system shall be planned comprehensively and implemented by steps.
3.1.4 The feasibility study, overall design, basic design and detailed design stages of plant information system design shall include the following contents:
1 Pre-feasibility study and feasibility study stage. Prepare a report to determine the overall objective, basic composition and basic functions; put forward investment estimation and benefit analysis conditions; complete the planning design of the system to provide the basis for decision-making.
2 Overall design stage. Prepare the overall design documents to determine the design scope, principles and standards; determine the system objectives, overall architecture, main functions and performance requirements; determine the operation and maintenance mode, organization, position and quota; put forward the preliminary budget estimate conditions; complete the overall scheme design of the system.
3 Basic design stage. Prepare basic design documents to determine design basis, standards and specifications; further determine the system objectives and overall architecture; determine the requirements such as logical structure, function, performance, protocol and interface specification and type selection principles of each system and its components (subsystems, equipment, etc.); determine the selection principle, main performance and environmental requirements of equipment and materials; determine the interface and integration method between systems; determine the organization and staffing; put forward the budget estimate conditions; complete the basic scheme design of the system and its subsystems.
Contents of GB/T 50609-2010
Foreword i
1 General provisions
2 Terms and abbreviations
2.1 Terms
2.2 Abbreviations
3 System design
3.1 General requirement
3.2 System architecture
3.3 Design elements
3.4 Integrated design
4 Process control system
4.1 General requirement
4.2 Design elements
5 Manufacturing execution system
5.1 General requirement
5.2 Design elements
6 Operation management system
6.1 General requirement
6.2 Design elements
7 Integrated information management system
7.1 General requirement
7.2 Design elements
8 Infrastructure of information system
8.1 General requirement
8.2 Design elements of network system
8.3 Design elements of computer device
8.4 Design elements of basic software
8.5 Design elements of storage and backup system
8.6 Design elements of information system security
8.7 Design elements of safety protection system
8.8 Design elements of generic cabling system
8.9 Design elements of electronic information system room
Explanation of wording in this code
List of quoted standards
