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GB/T 18975.13-2023 English PDF

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GB/T 18975.13-2023: Industrial automation systems and integration - Integration of life-cycle data for process plants including oil and gas production facilities - Part 13: Integrated asset planning life-cycle
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GB/T 18975.13-2023English1719 Add to Cart 9 days [Need to translate] Industrial automation systems and integration - Integration of life-cycle data for process plants including oil and gas production facilities - Part 13: Integrated asset planning life-cycle Valid GB/T 18975.13-2023

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Standard similar to GB/T 18975.13-2023

SY/T 6430   SH 0164   GB/Z 18975.12   GB/Z 18975.4   GB/T 18975.10   

Basic data

Standard ID GB/T 18975.13-2023 (GB/T18975.13-2023)
Description (Translated English) Industrial automation systems and integration - Integration of life-cycle data for process plants including oil and gas production facilities - Part 13: Integrated asset planning life-cycle
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard E07,N10
Classification of International Standard 75.020, 25.040.40
Word Count Estimation 86,869
Date of Issue 2023-09-07
Date of Implementation 2024-04-01
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 18975.13-2023: Industrial automation systems and integration - Integration of life-cycle data for process plants including oil and gas production facilities - Part 13: Integrated asset planning life-cycle



---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 75.020;25.040.40 CCSE07;N10 National Standards of People's Republic of China Industrial automation systems and integrated process plants (including Oil and gas production facilities) life cycle data integration Part 13.Integrated Asset Planning Life Cycle (ISO 15926-13.2018,IDT) Published on 2023-09-07 2024-04-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration Committee

Table of contents

Preface III Introduction IV 1 Scope 1 2 Normative reference documents 1 3 Terms, definitions, symbols and abbreviations2 3.1 Terms and Definitions 2 3.2 Abbreviations 5 3.3 Symbol 6 4 Hierarchies and extensions of integrated asset planning lifecycle data 7 4.1 Levels of integrated asset planning lifecycle data 7 4.2 Documents at each level8 4.3 Use of each level 8 4.4 Extensions for specific engineering applications 8 4.5 Simplification of progress application view 8 5 Representation of planning data10 5.1 Basis for the method 10 5.2 Basic plan objects 11 5.3 Progress 15 5.4 Planning activities 17 5.5 Actual activities to meet needs18 5.6 Activity decomposition 19 5.7 Activity classification 21 5.8 Activity Resources 25 5.9 Participants in the event35 5.10 Suspension38 5.11 Event date and time40 5.12 Activity duration 43 5.13 Progress Metrics 45 5.14 Events and Milestones 46 5.15 Temporal relationships between activities and events 48 5.16 Calendar 52 5.17 Object identification 55 5.18 Work Order 56 5.19 Facility areas and grounds56 6 Progress application view 56 6.1 Use of progress application view model 56 6.2 Simplification of ISO 15926 ontology 56 6.3 Actual activities in the progress application view model 57 6.4 Data plan for progress application view 59 6.5 User-defined attributes in progress application views 64 Appendix A (Normative) Ontology of Integrated Asset Planning Life Cycle 66 A.1 Levels 66 in the ontology A.2 Plan body 67 A.3 Progress application view ontology 68 A.4 Body collector 68 Appendix B (Normative) XMLschema for exchange between progress applications 69 Appendix C (informative) The relationship between plan ontology and schedule application interface 70 Appendix D (Informative) Progress and Activity Levels 71 D.1 Progress Level 71 D.2 Activity level 72 Appendix E (informative) Reference data class library interface 73 Appendix F (Informative) Usage Scenario 76 Appendix G (informative) Using UN/CEFACTXMLschema to report the relationship between project progress and cost performance 78 Reference 79

Foreword

This document complies with the provisions of GB/T 1.1-2020 "Standardization Work Guidelines Part 1.Structure and Drafting Rules of Standardization Documents" Drafting. This document is GB/T (Z) 18975 "Industrial automation systems and integrated process plants (including oil and gas production facilities) Life Part 13 of Periodic Data Integration. GB/T (Z)18975 has released the following parts. ---Part 1.Overview and basic principles; ---Part 2.Data Model; ---Part 4.Initial reference data; ---Part 10.Compliance testing; ---Part 12.Lifecycle integration ontology represented by Web Ontology Language (OWL); ---Part 13.Integrated asset planning life cycle. This document is equivalent to ISO 15926-13.2018 "Industrial automation systems and integrated process plants (including oil and gas production) Facilities) Lifecycle Data Integration Part 13.Integrating the Asset Planning Lifecycle. Please note that some content in this document may be subject to patents. The publisher of this document assumes no responsibility for identifying patents. This document is proposed by China Machinery Industry Federation. This document is under the jurisdiction of the National Automation System and Integration Standardization Technical Committee (SAC/TC159). This document was drafted by. China National Chemical Engineering Group Co., Ltd., Donghua Engineering Technology Co., Ltd., China Institute of Standardization, China National Chemical Engineering Group Co., Ltd. Lu Engineering Technology Co., Ltd., China Tianchen Engineering Co., Ltd., China Wuhuan Engineering Co., Ltd., China Chengda Engineering Co., Ltd., China Chemical Second Construction Group Co., Ltd., China Chemical Engineering No.11 Construction Co., Ltd., Hefei University of Technology, MCC Huatian Nanjing Engineering Technology Co., Ltd. Company, Zhejiang Zhongkong Technology Co., Ltd., Shengbang Technology Co., Ltd., China Haicheng Engineering Technology Co., Ltd., Jiangsu Qi'an Construction Group Co., Ltd., Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Nanjing University of Technology, China Petroleum and Natural Gas Pipeline Engineering Co., Ltd. Company, Shenzhen Pengrui Information Technology Co., Ltd., Beijing Damei Sheng Software Co., Ltd. The main drafters of this document. Zhou Wei, Zhang Gongming, Wu Yuefeng, Cai Guobin, Cheng Huimin, Yao Yijun, Yang Qinghai, Liu Shouhua, Wang Zhiqiang, Hong Yan, Mu Rongzhe, Lin Mingli, Ye Shengli, Xia Yuhuan, Li Chen, Zhou Kai, Fu Rongshen, Luo Qian, Wang Xiaozhong, Duan Gaofei, Xue Sheng, Wang Bingqiang, Wang Jingfeng, Liu Yong, Fang Tian, Sun Dongmei, Peng Guoping, Wang Jian, Wu Donghui, Yang Zhile, Chen Wei, Bo Cuimei, Zhang Quanling, Xi Zhihua, Li Cuiyun, Zhang Weiqun, Luo Renhu, Chen Jinsong.

Introduction

GB/T (Z) 18975 is the process industry life cycle data integration standard. Its purpose is to provide a common language for computer systems to Achieve interoperability. Integration consists of the following parts. ---Part 1.Overview and basic principles. The purpose is to describe the scope and functions of GB/T (Z) 18975 and its basic principles. ---Part 2.Data Model. The purpose is to define a conceptual number for computer representation of process plant life cycle technical information. data model. ---Part 3.Geometric and topological reference data. The purpose is to specify the geometry and topology data that can be recorded using Part 2. Ho and topology concepts. ---Part 4.Initial reference data. The purpose is to provide an initial set of core reference data items for a process factory. ---Part 6.Reference data development and verification methods. The purpose is to provide a method for managing process plant reference data. ---Part 7.Distributed system integration implementation method. template method. The purpose is to provide a method based on the data model in Part 2 Template method for row data integration. ---Part 8.Distributed system integration implementation method. Network Ontology Language (OWL) implementation. The purpose is to provide for the use of Part 7 It includes specifications for data integration using RDF (Resource Description Framework) and OWL (Web Ontology Language). ---Part 10.Compliance testing. The purpose is to describe the compliance with each part of GB/T (Z) 18975. ---Part 11.Simplified industrial use of reference data. The purpose is to use RDFS (Resource Description Framework schema, RDF Schema) defines a simplified approach to process industry usage of reference data. ---Part 12.Lifecycle integration ontology represented by Web Ontology Language (OWL). The purpose is to specify the use of OWL representation An ontology that integrates process plant industrial data throughout its entire life cycle. ---Part 13.Integrated asset planning life cycle. The purpose is to provide a process plant asset planning ontology and derivatives from this ontology An XMLschema (XML schema) for asset planning data exchange. The representation of process industry facility life cycle information expressed in GB/T (Z) 18975 is specified by a general, conceptual ontology, and the ontology is suitable for Suitable as the basis for a shared database or data warehouse. GB/T 18975.2 defines this ontology, while GB /Z 18975.12 defines The OWL representation of this ontology. GB/T 18975.2 and GB /Z 18975.12 are intended to be used as definitions for other parts of GB/T (Z) 18975 domain-specific extensions. This ontology is designed for use with reference data, that is, a representation of information common to many users, production facilities, or both. Standard instance. Support for specific lifecycle activities depends on using appropriate reference data in conjunction with the ontology. This document specifies a generic, conceptual ontology extension to support asset integration initiatives throughout the asset lifecycle. This book Physical fitness integrates planning data from disparate sources into a database. This document uses OWL to represent this ontology, and also specifies the XSD required for machine-readable asset planning data exchange. This document uses the following methods to deal with English technical words. ---In order to maintain the original meaning of English and facilitate understanding of the meaning of the word, each word with the meaning of entity in ISO 15926-13.2018 When English words appear as titles in this document, the Chinese translations are used. In the text, English is the main word. When doing so, bracket the Chinese translation and place it after the English translation; ---For the computer language vocabulary such as OWL and RDF that this document matches, this document does not list Chinese translations; ---When each part of the international standard ISO 15926 is modified and adopted as my country's national standard, its number is GB/T (Z) 18975, corresponding to All parts are technically and functionally equivalent. However, considering the OWL description matching GB/T (Z) 18975, and the application Use the expression needs of various modes, entities, characteristics, attributes, functions, etc. in the software, in order to make the supporting application software easy to use in practical applications. Various problems caused by standard conversion occur. All OWL descriptions in this document and automatic The international standard numbers in the generated files remain unchanged. Industrial automation systems and integrated process plants (including Oil and gas production facilities) life cycle data integration Part 13.Integrated Asset Planning Life Cycle

1 Scope

This document specifies an asset planning ontology for process plants, including oil and gas production facilities, and the tools derived from this ontology for asset planning. An XMLschema (XML schema) for production planning data exchange. The following content falls within the scope of this document. ---Planning and scheduling of portfolios, programs and projects; ---Modification and maintenance of progress; ---Plan execution calendar; ---The time relationship between various matters in the plan and schedule, including immediate relationships, lags, free time differences and total time differences; ---Activity breakdown structure; ---Event Location; ---Resource requirements, including materials, equipment, manpower and costs; ---Interfaces between various work orders and order processing systems; ---Responsible organization and responsible person; ---Progress tracking and resource consumption; ---Standard reference for facilities, activities and resources. Example. ISO 19008 defines several standard classes. This document does not contain the following content. ---Standard categories of facilities, activities and resources; Note. ISO 19008 contains these standard classes. ---Production Plan; ---Plan simulation and optimization; ---Hazard identification and risk analysis; ---Staffing and training; ---Budget and cost allocation.

2 Normative reference documents

The contents of the following documents constitute essential provisions of this document through normative references in the text. Among them, the dated quotations For undated referenced documents, only the version corresponding to that date applies to this document; for undated referenced documents, the latest version (including all amendments) applies to this document. ISO /T S15926-12 Industrial automation systems and integrated process plants (including oil and gas production facilities) life cycle number Note. GB /Z 18975.12-2023 Industrial automation systems and integrated process plants (including oil and gas production facilities) life cycle data set Part 12.Lifecycle integrated ontology expressed in Web Ontology Language (OWL) (ISO /T S15926-12.2018, IDT)

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