GB/T 37190-2023 English PDF

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GB/T 37190-2023: Pipeline corrosion control engineering life cycle - General requirements
Status: Valid

GB/T 37190: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 37190-2023	264	Add to Cart	3 days	Pipeline corrosion control engineering life cycle - General requirements	Valid
GB/T 37190-2018	559	Add to Cart	3 days	Pipeline corrosion control engineering life cycle -- General requirements	Obsolete

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Basic data

Standard ID: GB/T 37190-2023 (GB/T37190-2023)
Description (Translated English): Pipeline corrosion control engineering life cycle - General requirements
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: A01
Classification of International Standard: 03.100.99
Word Count Estimation: 14,160
Date of Issue: 2023-12-28
Date of Implementation: 2024-07-01
Older Standard (superseded by this standard): GB/T 37190-2018
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 37190-2023: Pipeline corrosion control engineering life cycle - General requirements

---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 03:100:99 CCSA01 National Standards of People's Republic of China Replace GB/T 37190-2018 General requirements for the entire life cycle of pipeline corrosion control projects (ISO 23221:2020,IDT) Published on 2023-12-28 2024-07-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration Committee

Table of contents

Preface III 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 General 1 5 goals 1 6 Corrosion Source 2 7 Pipe Materials 2 8 Technology 2 9 design 3 10 R&D 3 11 manufacturing 4 12 Construction and installation 4 13 Handling, storage and transportation 4 14 Debugging 4 15 Acceptance 5 16 runs 5 17 Maintenance 6 18 fix 6 19 Decommissioning, scrapping and disposal 7 20 Documents and Records 7 21 Resource Management 8 22 Comprehensive evaluation 8 Reference 9

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 replaces GB/T 37190-2018 "General Requirements for the Whole Life Cycle of Pipeline Corrosion Control Engineering" and is consistent with GB/T 37190- Compared with:2018, in addition to structural adjustments and editorial changes, the main technical changes are as follows: a) Changed the scope of application (see Chapter 1, Chapter 1 of the:2018 edition); b) Added the terms and definitions of “pipeline corrosion testing and monitoring system”, “temporary outage” and “permanent outage”, and deleted “pipeline corrosion control”: Terms and definitions of "corrosion sources" throughout the project life cycle (see Chapter 3, Chapter 3 of the:2018 edition); c) Changed some technical contents in the "General Provisions" (see 4:1, 4:2, 4:1, 4:2 of the:2018 version); d) Added a chapter on "Objectives" (see Chapter 5); e) Changed some technical contents of “corrosion sources” (see Chapter 6, Chapter 5 of the:2018 edition); f) The "Materials" chapter has been deleted (see Chapter 6 of the:2018 edition); g) Added a chapter on "Pipeline Materials" (see Chapter 7); h) Changed some technical content of “Technology” (see Chapter 8, Chapter 7 of the:2018 edition); i) The "Development" chapter has been deleted (see Chapter 8 of the:2018 edition); j) Changed some technical content of “Design” (see Chapter 9, Chapter 9 of the:2018 edition); k) Added a "R&D" chapter (see Chapter 10); l) Changed some technical content of “manufacturing” (see Chapter 11, Chapter 10 of the:2018 edition); m) Changed some technical content of "Construction and Installation" (see Chapter 12, Chapter 12 of the:2018 edition); n) Changed some technical contents of "Loading, Unloading, Storage and Transportation" (see Chapter 13, Chapter 11 of the:2018 edition); o) Changed some technical content of "Debugging" (see Chapter 14, Chapter 13 of the:2018 edition); p) Changed part of the technical content of "Acceptance" (see Chapter 15, Chapter 14 of the:2018 edition); q) Changed some technical content of "operation" (see Chapter 16, Chapter 15 of the:2018 edition); r) Changed some technical contents of "Maintenance" (see Chapter 17, Chapter 16 of the:2018 edition); s) The chapter "Investigation and Assessment" has been deleted (see Chapter 17 of the:2018 edition); t) The "Maintenance" chapter has been deleted (see Chapter 18 of the:2018 edition); u) Added a "Repair" chapter (see Chapter 18); v) The chapter "Scrap and Disposal" has been deleted (see Chapter 19 of the:2018 edition); w) Added a chapter on "Outage, Scraping and Disposal" (see Chapter 19); x) Changed some technical content of “Documents and Records” (see Chapter 20, Chapter 20 of the:2018 edition); y) Deleted the "Resources" chapter (see Chapter 21 of the:2018 edition); z) Added a "Resource Management" chapter (see Chapter 21); aa) Added a "Comprehensive Assessment" chapter (see Chapter 22): This document is equivalent to ISO 23221:2020 "General Requirements for the Whole Life Cycle of Pipeline Corrosion Control Engineering": 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 Petroleum and Chemical Industry Federation: This document is under the jurisdiction of the National Corrosion Control Standardization Technical Committee (SAC/TC381): This document was drafted by: China Southern Power Grid Co:, Ltd: Ultra-High Voltage Transmission Company Liuzhou Bureau, Fujian Chuangkang Construction Development Co:, Ltd: Division, Huadian Electric Power Research Institute Co:, Ltd:, Sinochem Second Construction Group Co:, Ltd:, Nantong Shanjian Anti-corrosion Technology Co:, Ltd:, North China Electric Power Science Research Institute Co:, Ltd:, Nanjing Boiler and Pressure Vessel Inspection Research Institute, Guangdong Corrosion Science and Technology Innovation Research Institute, National Inspection and Test Control Xiongan Group Co:, Ltd:, Ningbo Lianda Plastic Pipe Fittings Co:, Ltd:, China Corrosion Control Technology Association, Datang Yangcheng Power Generation Co:, Ltd: Division, Suzhou Thermal Engineering Research Institute Co:, Ltd:, Mingyang Smart Energy Group Co:, Ltd:, Beijing Dingxin New Technology Co:, Ltd:, Shandong Shanghe Electric Power Technology Co:, Ltd:, China Southern Power Grid Industrial Investment Group Co:, Ltd:, Guangdong Provincial Special Equipment Testing Research Institute, Guangdong Provincial Special Equipment Equipment Inspection Institute Maoming Inspection Institute, Guangdong Special Equipment Inspection Institute Foshan Inspection Institute, Dongguan Qizhao Technology Service Co:, Ltd:, Nan Fang Power Grid Supply Chain Group Co:, Ltd:, China Corrosion International Corrosion Control Engineering Technology Research Institute (Beijing) Co:, Ltd:, Beijing Tianyichang Technology Development Co:, Ltd:, Qingdao Haodebol Industrial Co:, Ltd:, Fluorine Tight Pipe Valve Group Co:, Ltd:, Hubei Century Weiye Anti-Corrosion Technology Co:, Ltd:, He Beihuizhong Pipeline Equipment Co:, Ltd:, Haotian Energy Saving Equipment Co:, Ltd:, Yanshan County Dongrui Thermal Energy Saving Pipeline Research Center, Zhejiang Yuxi Corrosion Control Co:, Ltd:, Henan Puxin Anti-corrosion Construction Engineering Co:, Ltd:, Haotian Co:, Ltd:, Cangzhou Junrui Energy Saving Technology Co:, Ltd: Ltd: The main drafters of this document: Huang Songqiang, Liu Yaqiong, Yu Xin, Dong Jun, Fang Xuefeng, Yao Songnian, Zhou Weiqing, Shi Wei, Wang Xiaolu, Liu Xiangqiang, Lai Guangsen, Tong Senrong, Li Xia, Zhang Wenlong, Feng Wei, Chen Yuancheng, He Xuemin, Liao Yonghao, Han Chunguang, Gao Yuzhu, Xiao Jie, Zhang Hongjiang, Liang Bin, Zhong Benwang, Yin Zhibiao, Zhou Jingzhong, Huang Yu, Zhang Ran, Zhang Xiuli, Liu Hongqun, Tan Simin, Yang Yongbin, Gao Jiawei, Zhu Xiaoyou, Cao Yanchao, Hu Huasheng, Cao Fuxiang, Xie Peng, Ma Rong, Zou Jian, Tian Juan, Chen Jian, Zhu Weijian, Fu Ruwen, Zhou Jianguo, Liu Haidong, Luo Junping, Xue Jiawei, Li Mingfei, Deng Yongchang, Chen Zhangquan, Gu Yu, Liu Xiaoxin, Wang Guiming, Zheng Zhongsheng, Meng Jiantao, Zhang Xisheng, Wu Rongbin, Zhang Guoyu, Ou Rujie, Liu Yanqiang, Liu Tongtong, Zhao Xiangyue, Zheng Ruina: This document was first published in:2018, and this is the first revision: General requirements for the entire life cycle of pipeline corrosion control projects

1 Scope

This document specifies the general requirements for various factors in the entire life cycle of pipeline corrosion control projects: This document is applicable to various pipeline corrosion control projects:

2 Normative reference documents

This document has no normative references:

3 Terms and definitions

The following terms and definitions apply to this document: 3:1 Technology for online real-time testing and feedback of internal and external corrosion conditions of pipelines: 3:2 System outage due to emergencies (such as natural disasters, corrosion leaks, etc:): Note: After the emergency is handled, the pipeline can resume normal operations: 3:3 Permanent shutdown of the system: Note: Systems that are found to have significant technical and economic risks after rigorous program evaluation will no longer be used:

4 General principles

4:1 This document targets various factors in the entire life cycle of pipeline corrosion control projects, and proposes an overall guide for the selection of technical standards and management standards: Require: This document does not stipulate specific technical and management procedures for pipeline corrosion control: 4:2 A traceable and supportive management system should be established for all factors in the entire life cycle of pipeline corrosion control projects to achieve overall control and keep improve:

5 goals

5:1 Optimize and coordinate various factors in the life cycle of pipeline corrosion control projects, so that the life cycle of pipeline corrosion control projects should be consistent with the life cycle of the protected pipes: Compatible with the entire life cycle of Tao: 5:2 Pipeline corrosion control engineering goals should be communicated, implemented and maintained in all aspects of the pipeline life cycle, and should be reviewed regularly and improvements to ensure its suitability: ......

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