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GB/T 28563-2012 English PDF

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GB/T 28563-2012EnglishRFQ ASK 6 days [Need to translate] Electrical testing of thyristor valves for ±800kV ultra high voltage direct current (UHVDC) power transmission Obsolete GB/T 28563-2012

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Standard similar to GB/T 28563-2012

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Basic data

Standard ID GB/T 28563-2012 (GB/T28563-2012)
Description (Translated English) Electrical testing of thyristor valves for ��800kV ultra high voltage direct current (UHVDC) power transmission
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K46
Classification of International Standard 29.200; 31.080.20
Word Count Estimation 37,386
Quoted Standard GB 311.1; GB/T 7354-2003; GB 11032; GB/T 13498-2007; GB/T 16927.1; GB/T 20989-2007; GB/T 27025
Adopted Standard IEC 60700-1-2008, MOD
Regulation (derived from) National Standards Bulletin No. 13 of 2012
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary This standard applies to persons 800 kV HVDC line-commutated inverter and the ends of the valve metal oxide surge arresters are connected directly to the thyristor valve. This standard is limited to electrical type test and product testing. This standard

GB/T 28563-2012: Electrical testing of thyristor valves for ±800kV ultra high voltage direct current (UHVDC) power transmission


---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.
ICS29.200; 31.080.20 K46 National Standards of People's Republic of China ± 800kV UHVDC power transmission Electrical testing thyristor valve Electricaltestingofthyristorvalvesfor ± 800kVultrahighvoltagedirect current (UHVDC) powertransmission (IEC 60700-1.2008, Thyristorvalvesforhighvoltagedirectcurrent (HVDC) powertransmission-Part 1. Electricaltesting, MOD) Issued on. 2012-11-01 2012-06-29 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Table of Contents

Introduction Ⅲ 1 Scope 1 2 Normative references 1 3 Terms and definitions 3.1 insulation coordination 1 3.2 valve structure 2 3.3 Type test 3 3.4 product testing 3 4 4 comprehensive requirements 4.1 Type test pilot performed the 4 4.2 Atmospheric Correction 4 Processing redundancy 5 4.3 Criterion 5 4.4 Type test successful 5 6 Type Test 6 Valve insulation test group 7 6.1 Test Objective 7 6.2 test 8 6.3 Test requirements 8 7 Multi-valve unit (MVU) insulation test 9 7.1 Test Objective 9 7.2 test 9 7.3 Test requirements 10 8 valve insulation test between terminals 11 8.1 Test object 11 8.2 test 12 8.3 Test requirements 12 Aperiodic trigger valve 15 Test 8.4 9 periodical trigger and off Test 16 9.1 Test object 16 9.2 test 16 9.3 Test requirements 17 10 transient recovery voltage test positive 20 10.1 test purposes 20 10.2 sample 21 10.3 test requirements 21 11 valve fault current test 21 11.1 test purposes 21 11.2 sample 22 11.3 test requirements 22 12 valve 23 Electromagnetic compatibility tests 12.1 test purposes 23 12.2 sample 24 12.3 test requirements 24 13 special performance and fault tolerance test 24 13.1 test purposes 24 13.2 sample 25 13.3 test requirements 25 25 14 Product Test 14.1 General 25 14.2 test purposes 25 14.3 sample 25 14.4 test requirements 26 Objective 14.5 Routine tests 26 15 determine Loss of 26 16 type testing results presentation 27 Appendix A (normative) Partial Discharge Measuring 28 Appendix B (normative) Test the safety factor of 30

Foreword

This standard rule according to GB/T 1.1-2009 given draft. This standard uses redrafted law revision adopts IEC 60700-1.2008 "HVDC thyristor valves - Part 1. Electrical test Experience. " This standard IEC 60700-1.2008 technical differences are as follows. --- According to the requirements GB/T 1.1-2009, the standard language and presentation formats have been modified; --- Remove the IEC 60700-1.2008 foreword, preface adds this standard; --- Normative references added GB/T 13498-2007 "HVDC term" (see Chapter 2); --- Terms and definitions to add a "high (pressure) end 12-pulse converter bridge" and "low (pressure) end of the 12-pulse converter bridge" (see 3.2.8 and 3.2.9); --- Table 2 adds NOTE. valve group, namely the valve holder refers charged portion of the valve member, the valve assembly is installed, or a mechanical valve and suspension support Its ground electrical insulation (see Chapter 5); --- Increased valve group, steep wave front impact test project multiple valve (see 6.3.6 and 7.3.5); --- Added "wet valve DC voltage test", "wet-operated valve impact test" (see 8.3.2 and 8.3.6); --- Remove the IEC 60700-1.2008 9.3.5 in the "note" (see 9.3.6); --- Added "protective triggering continuous operation test" project (see 9.3.7); --- Added "valve loss verification" test (see 9.3.8); --- Remove the IEC 60700-1.2008 11.3 and 11.3.2 of the "penultimate" content (see 11.3.1 and 11.3.3). The standard proposed by China Electrical Equipment Industrial Association. This standard by the National Standardization Technical Committee on Electronic electrodynamic (SAC/TC60) centralized. This standard was drafted. Xi'an High Voltage Apparatus Research Institute Co., Ltd., State Grid Corporation of UHV Ministry of Construction, China Southern Power Grid Technology Research Center, Beijing Network of DC Engineering Ltd., XJ Group Corporation flexible transmission company, Xi'an Electric Power Rectifier has Limited liability company, China Electric Power Research Institute, Xi'an Power Electronics Institute of Technology, Xi'an High Voltage Electric Co., Ltd. opened. The main drafters of this standard. weekly high, Ding workers, Huang Ying, Ma Weimin, Zhang, Xu vanadium, Jia Tao, Zhu Jing, Tian Enwen, Duque, Xiao-Hui Yang, Wei red, high impact, Liu Ning, Ma Tsang, Li Binbin. ± 800kV UHVDC power transmission Electrical testing thyristor valve

1 Scope

This standard applies to ± 800kV HVDC line-commutated converter and are directly connected to both ends of the valve metal oxide to avoid Lightning thyristor valve. This standard is limited to electrical type testing and product testing. This standard specifies test water-cooled air insulated valves basis. Other types of valves may also refer to the requirements of this standard and acceptance standard.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated edition applies to this article Member. For undated references, the latest edition (including any amendments) applies to this document. GB 311.1 insulation with high-voltage power transmission equipment (GB 311.1-1997, neqIEC 60071-1.1993) GB/T 7354-2003 partial discharge measurements (IEC 60270.2000, IDT) GB 11032 metal oxide surge arresters without gaps (GB 11032-2010, IEC 60099-4.2006, MOD) GB/T 13498-2007 HVDC term (IEC 60633.1998, IDT) GB/T 16927.1 high-voltage test techniques - Part 1. General definitions and test requirements (GB/T 16927.1-2011, eqvIEC 60060-1. 1989) GB/T 20989-2007 HVDC converter station losses determined (IEC 61803.1999, IDT) GB/T 27025 testing and calibration laboratories General requirements (GB/T 27025-2008, ISO /IEC 17025.2005, IDT)

3 Terms and Definitions

GB/T 13498 and define the following terms and definitions apply to this document. 3.1 insulation coordination 3.1.1 Withstand voltage test testwithstandvoltage A not damaged, standard test voltage waveform complete new valve; under specified conditions, when subjected to this test voltage duration Or applying a predetermined number of times, without any breakdown discharge, and meet all other specific test acceptance criteria. 3.1.2 Impact steepfrontimpulse steep wave front Before the steep wave voltage surge peak time is shorter than the standard lightning shock, but the first wave quickly than GB 311.1 defined voltage long. For this standard, steep wave test voltage is defined by a front impact Figure 1.