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GB/T 37551.10-2024: Marine energy - Wave, tidal and other water current converters - Part 10: Assessment of mooring system for energy converters
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Marine energy - Wave, tidal and other water current converters - Part 10: Assessment of mooring system for energy converters
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GB/T 37551.10-2024
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Basic data | Standard ID | GB/T 37551.10-2024 (GB/T37551.10-2024) | | Description (Translated English) | Marine energy - Wave, tidal and other water current converters - Part 10: Assessment of mooring system for energy converters | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | F14 | | Classification of International Standard | 27.140 | | Word Count Estimation | 55,551 | | Date of Issue | 2024-08-23 | | Date of Implementation | 2024-08-23 | | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration | GB/T 37551.10-2024: Marine energy - Wave, tidal and other water current converters - Part 10: Assessment of mooring system for energy converters
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ICS 27.140
CCSF14
National Standard of the People's Republic of China
Ocean energy wave energy, tidal energy and other water flow energy
Conversion devices. Part 10.Ocean energy conversion devices
Mooring system evaluation
(IEC TS62600-10.2021, IDT)
Released on 2024-08-23
2025-03-01 Implementation
State Administration for Market Regulation
The National Standardization Administration issued
Table of Contents
Preface III
Introduction IV
1 Scope 1
2 Normative references 1
3 Terms and Definitions 1
4 Abbreviations 1
5 General Principles 2
5.1 General 2
5.2 Technical Requirements 2
5.3 Security and risk requirements 2
5.4 Security Level Requirements 2
5.5 Design process requirements 3
5.6 Inspection and maintenance requirements 3
6 Environmental and site conditions 3
6.1 Overview 3
6.2 Main environmental conditions 3
6.3 Secondary environmental conditions 3
6.4 Site conditions 4
7 Design load case 4
7.1 Overview 4
7.2 Analytical procedures 5
7.3 Load type 5
7.4 Interactions with waves, currents, wind, water level, and ice 7
7.5 Mooring cable assembly 8
7.6 Umbilical cable 9
7.7 Limit state 9
8 In-service inspection, monitoring, testing and maintenance19
8.1 General 19
8.2 Anchor load 20
8.3 Component Replacement 20
8.4 Overwater and splash zone mooring segments 21
8.5 Underwater mooring line segment 21
8.6 Debugging and scrapping process 21
Appendix A (Informative) Anchoring and anchoring systems 22
A.1 Types of mooring and anchoring systems 22
A.2 Mooring cable assembly 24
A.3 Anchor 32
Appendix B (Normative) Safety and risk assessment 39
B.1 Overview 39
B.2 Risks 39
B.3 Risk Assessment Methods40
B.4 Effects of mooring failure 42
B.5 Type of consequence 42
Appendix C (Informative) Notes on Numerical Modeling 45
C.1 Overview 45
C.2 Mooring, umbilical and dynamic cable models 45
Reference 47
Foreword
This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents"
Drafting.
This document is Part 10 of the "Ocean Energy Wave Energy, Tidal Current Energy and Other Water Flow Energy Conversion Devices".
The following parts have been published.
---Terms for devices for converting ocean energy into wave energy, tidal energy and other water flow energy (GB /Z 37551);
--- Design requirements for marine energy systems (GB/T 41088);
--- General Guidelines for Design and Analysis of Ocean Thermal Energy Conversion Power Plants (GB /Z 43521);
--- Power quality requirements for ocean energy conversion devices (GB /Z 43464);
--- Evaluation of power generation performance of wave energy conversion devices (GB /Z 40295);
--- Assessment and characterization of wave energy resources (GB/T 39571);
--- Tidal current energy resource assessment and characterization (GB/T 39569);
--- Evaluation and characterization of river energy resources (GB /Z 43465);
---Ocean energy - Wave energy, tidal energy and other water flow energy conversion devices - Part 3.Mechanical load measurement (GB /Z 37551.3);
---Ocean energy wave energy, tidal energy and other water flow energy conversion devices Part 10.Evaluation of mooring systems for ocean energy conversion devices
(GB /Z 37551.10);
---Ocean energy wave energy, tidal energy and other water flow energy conversion devices Part 102.Evaluation of wave energy using existing operational measurement data
The power generation performance of the energy conversion device at another deployment location (GB /Z 37551.102).
This document is equivalent to IEC TS62600-10.2021 "Ocean energy wave energy, tidal energy and other water flow energy conversion devices Part 10
Part 1.Evaluation of anchoring systems for ocean energy conversion devices. The document type was adjusted from IEC technical specifications to my country's national standardization guidance technical specifications.
Technical documents.
The following minimal editorial changes were made to this document.
--- In Chapter 4, three abbreviations not used in the text, namely "DP", "MEP" and "UV", as well as two common abbreviations of ISO and IEC were deleted.
abbreviation;
--- Chapter 4 adds two terms, “DLC design load condition” and “NWLR normal water level range”, which are frequently cited in the text but the original English
Abbreviations not mentioned in the edition;
--- Chinese descriptions of three uncommon units, g/cc, g/den and cN/T ex, are added to Table A.2;
Stop, delete the reference in the references and delete the description of the reference in A.2.4.3.7 of Appendix A.
Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents.
This document was proposed and coordinated by the National Technical Committee for Standardization of Ocean Energy Conversion Equipment (SAC/TC546).
This document was drafted by. National Marine Standards and Metrology Center, Guangzhou Institute of Energy, Chinese Academy of Sciences, Harbin Large Electric Machinery Research Institute Co., Ltd.
Company, National Marine Technology Center, CNOOC (China) Co., Ltd., North China University of Technology, Harbin Engineering University, Zhejiang University, State Grid
Beisheng Energy Technology Service Co., Ltd., Hohai University, Guodian United Power Technology Co., Ltd., Northwest Agriculture and Forestry University, Dongfang Electric
(Fujian) Innovation Research Institute Co., Ltd.
The main drafters of this document are. Wang Wensheng, Xu Chunhong, Huang Zhenxin, Sheng Songwei, You Yago, Huang Hailong, Hu Changbin, Wang Xiaoyong, Sheng Qihu, Liu Hongwei,
Lian Yushun, Ma Rui, Jiang Bo, Chai Borong, Li Yingchang, Dong Wei, Mo Kun, Fang Fang, Zhou Hongli.
Introduction
As a marine energy conversion device widely used in public utilities and social power supply, the mooring system is an important prerequisite for its safe and reliable operation.
This document is based on the above requirements and provides developers, manufacturers and users with
Ocean energy - Guidance on the evaluation of mooring systems for wave energy, tidal energy and other water flow energy conversion devices.
Conceptually, many ocean energy conversion devices, with the exception of wave energy converters, work similarly to wind turbines.
There are few standards or technical specifications for the evaluation of mooring systems for energy conversion devices (including wave energy, tidal energy and other water flow energy).
The two sides are working together to develop detailed standards to address this issue.
In the structural design process of ocean energy conversion devices, it is extremely important to evaluate the performance of the mooring system itself and the coupling effect between it and the device.
During the design phase, the performance of the mooring system should be evaluated using relevant standards.
This document aims to.
--- Issues and reference indicators for the evaluation of mooring systems for wave energy, tidal energy and other water flow energy conversion devices;
---Establish assessment methods and application technical guidelines.
---Develop assessment procedures related to the design, installation and maintenance of mooring systems for ocean energy conversion devices.
This document will provide evaluation guidance for researchers designing and applying mooring systems for ocean energy conversion devices.
The "Ocean Energy Wave Energy, Tidal Energy and Other Water Flow Energy Conversion Device" is planned to consist of the following parts.
--- Part 1.Terminology. The purpose is to define the common terms in the three aspects of ocean energy conversion devices, namely, environment, technology and conversion devices.
Terms for wave energy, tidal energy and other water current energy.
--- Part 2.Design requirements for marine energy systems. The purpose is to specify wave energy, tidal energy and other water flow energy conversion device systems
design requirements to ensure its engineering integrity.
--- Part 3.Mechanical load measurement. The purpose is to describe the marine energy conversion device (MEC) (including wave energy, tidal energy and other
Method for measuring mechanical loads of water flow energy, specifying requirements for mechanical load measurements and full-scale structural testing of subsystems or components
Require.
--- Part 4.New Technology Appraisal. The purpose is to provide the necessary practical and technical requirements for technology appraisal methods to support
Requirements for the IEC RE certification process for marine renewable energy systems.
--- Part 10.Evaluation of mooring systems for marine energy conversion devices. The purpose is to specify the mooring system of floating marine energy conversion devices (MECs).
Design, installation, operation, maintenance and evaluation methods of mooring systems.
--- Part 20.General guidelines for the design and analysis of ocean thermal energy conversion power plants. The purpose is to establish
The general principles of pricing are presented to illustrate the design and evaluation requirements of OTEC power plants that generate stable power under various conditions.
--- Part 30.Power quality requirements. The purpose is to specify the power quality requirements of ocean energy (wave energy, tidal energy and other water flow energy) conversion devices.
Definitions, measurement procedures and evaluation methods of energy quality characteristic parameters.
--- Part 100.Evaluation of power generation performance of wave energy conversion devices. The purpose is to provide the power generation performance of wave energy conversion devices in the test field.
Experimental method for evaluating power generation performance.
--- Part 101.Wave energy resource assessment and characterization. The purpose is to specify the wave energy resource assessment level and process, data collection
data collection, numerical modeling, measurement-correlation-prediction methods, data analysis and preparation of technical reports for resource assessment.
--- Part 102.Evaluation of the power generation performance of a wave energy conversion device at another deployment location using existing operational measurement data.
The present invention provides a method for evaluating the power generation performance of a wave energy conversion device at another deployment site using operational measurement data from an existing site.
--- Part 103.Wave energy conversion device prototype test procedures. The purpose is to describe the wave energy conversion device prototype test procedures.
Basic test procedures and their prerequisites, test objectives, definitions, methods for processing test raw data, providing measurement sensors and
Recommendations for selecting a data acquisition software package.
--- Part.200.Evaluation of the power generation performance of tidal energy conversion devices. The purpose is to provide power supply to public utilities and regional networks.
Systematic method for evaluating the power performance of tidal energy conversion equipment, definition of rated power and rated water rate of tidal energy conversion equipment, tidal
Specifications for methods of drawing power performance curves for energy conversion equipment and related result reporting frameworks.
--- Part.201.Tidal energy resource assessment and characterization. The purpose is to provide analysis and description based on estimates or direct measurements.
Methods for theoretical tidal current energy resources.
--- Part 202.Tidal current energy conversion device pre-prototype test procedures. The purpose is to specify the maximum
Basic testing procedures and their prerequisites, test objectives, definitions, methods of processing test raw data.
--- Part 300.Evaluation of power generation performance of river energy conversion devices. The purpose is to propose a system for evaluating the power generation performance of river energy conversion devices.
The evaluation method provides a scientific method and basis for the evaluation of the power generation performance of river energy conversion devices.
--- Part 301.River energy resource assessment and characterization. The purpose is to describe the method of determining theoretical river energy resources to ensure
To ensure consistency and accuracy of resource assessments. To define feasible data collection methods and/or modeling techniques for river energy resource assessments.
and a framework for reporting results.
Ocean energy wave energy, tidal energy and other water flow energy
Conversion devices. Part 10.Ocean energy conversion devices
Mooring system evaluation
1 Scope
This document specifies the design, installation, operation, maintenance and evaluation methods of mooring systems for floating marine energy converters (MECs).
This document applies to mooring systems for floating ocean energy conversion devices of any size or type in all open water conditions.
For more detailed information on the various aspects of the mooring system design process, please refer to the existing mooring standards. This document focuses on different
This document proposes special requirements for ocean energy conversion devices, rather than duplication of existing standards or related procedures.
However, detailed analysis of the soil and rock subsoil and design of anchors are beyond the scope of this document.
2 Normative references
The contents of the following documents constitute essential clauses of this document through normative references in this document.
For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to
This document.
GB/T 41088-2021 Design requirements for marine energy systems (IEC TS62600-2.2019, IDT)
IEC TS62600-1.2020 Marine energy wave energy and other water flow energy conversion devices Part 1.Terminology (Marineenergy-
Note. GB/T 37551-2019 Terminology of devices for converting ocean energy into wave energy, tidal energy and other water flow energy (IEC /T S62600-1.2011, MOD)
IEC TS62600-4.2020 Ocean energy wave energy, tidal energy and other water flow energy conversion devices Part 4.New technology identification
3 Terms and definitions
The terms and definitions defined in IEC TS62600-1.2020 apply to this document.
The terminology databases used for standardization maintained by ISO and IEC are located at.
4 Abbreviations
The following abbreviations apply to this document.
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