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CLC/TR 50609:2014

(Main)

Technical Guidelines for Radial HVDC Networks

Technical Guidelines for Radial HVDC Networks

This Technical Report applies to HVDC Systems having more than two converter stations connected to a common DC network, also referred to as HVDC Grid Systems. Serving the near term applications, this report describes radial HVDC network structures as well as pure VSC based solutions. Both grounded and ungrounded DC circuits are considered. Based on typical requirements applied to state of the art HVDC converter stations today this report addresses aspects that are specifically related to the design and operation of converter stations and DC circuits in HVDC Grid Systems. The requirements from the AC systems as known today are included. Secondary effects associated with changing the AC systems, e.g. the replacement of rotating machines by power electronic devices, are not within the scope of the present report. The report summarises applications and concepts of HVDC Grid Systems with the purpose of preparing the ground for standardization of such systems. The interface requirements and functional specifications given in this document are intended to support the specification and purchase of multi vendor multiterminal HVDC Grid Systems.

Technischer Leitfaden für radiale HGÜ-Netze

Directives techniques pour les réseaux HVDC radiaux

Tehnične smernice za enosmerna, radialno napajana VN omrežja

General Information

Status
Published
Publication Date
27-Feb-2014
ICS
29.240.01 - Power transmission and distribution networks in general
Technical Committee
CLC/TC 8X - System aspects of electrical energy supply
Current Stage
6060 - Document made available - Publishing
Start Date
28-Feb-2014
Completion Date
28-Feb-2014
Mandate
M/490 - Standardisation mandate to the European Standardisation Organisations (ESOs) to support European Smart Grid deployment
Ref Project
SIST-TP CLC/TR 50609:2014 - Technical Guidelines for Radial HVDC Networks

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SLOVENSKI STANDARD
01-april-2014
7HKQLþQHVPHUQLFH]DHQRVPHUQDUDGLDOQRQDSDMDQD91RPUHåMD
Technical Guidelines for Radial HVDC Networks
Ta slovenski standard je istoveten z: CLC/TR 50609:2014
ICS:
29.240.01 2PUHåMD]DSUHQRVLQ Power transmission and
GLVWULEXFLMRHOHNWULþQHHQHUJLMH distribution networks in
QDVSORãQR general
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

TECHNICAL REPORT
CLC/TR 50609
RAPPORT TECHNIQUE
February 2014
TECHNISCHER BERICHT
ICS 29.240.01
English version
Technical Guidelines for Radial HVDC Networks

Directives techniques pour les réseaux Technischer Leitfaden für radiale HGÜ-
HVDC radiaux Netze
This Technical Report was approved by CENELEC on 2013-12-09.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus,
the Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany,
Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland,
Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

CEN-CENELEC Management Centre: Avenue Marnix 17, B - 1000 Brussels

© 2014 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. CLC/TR 50609:2014 E
Contents Page
Foreword . 7
0 Introduction . 8
0.1 The European HVDC Grid Study Group . 8
0.2 Technology . 9
0.2.1 Converters . 9
0.2.2 DC Circuit . 9
0.2.3 Technological Focus of the European HVDC Grid Study Group . 10
1 Scope . 12
2 Terminology and abbreviations . 12
2.1 General . 12
2.2 Terminology and abbreviations for HVDC Grid Systems used in this report . 12
2.3 Proposed Terminology by the Study Group . 13
3 Typical Applications of HVDC Grids . 14
3.1 The Development of HVDC Grid Systems. 14
3.2 Planning Criteria for Topologies . 15
3.2.1 General . 15
3.2.2 Power Transfer Requirements . 16
3.2.3 Reliability . 17
3.2.4 Losses . 19
3.2.5 Future Expansions. 21
3.3 Technical Requirements . 21
3.3.1 General . 21
3.3.2 Converter Functionality . 22

3 CLC/TR 50609:2014
3.3.3 Start/stop Behaviour of Individual Converter Stations . 23
3.3.4 Network Behaviour during Faults . 24
3.3.5 DC-AC Interface Requirements . 25
3.3.6 The Role of Communication . 26
3.4 Typical Applications – Relevant Topologies . 27
3.4.1 General . 27
3.4.2 Radial Topology . 27
3.4.3 Meshed Topology . 29
3.4.4 HVDC Grid Systems Connecting Offshore Wind Power Plants . 29
3.4.5 Connection of a wind power plant to an existing HVDC VSC link . 30
4 Principles of DC Load Flow. 31
4.1 General . 31
4.2 Structure of Load Flow Controls . 31
4.2.1 General . 31
4.2.2 Converter Station Controller . 31
4.2.3 HVDC Grid Controller . 32
4.3 Converter Station Control Functions . 34
4.3.1 General . 34
4.3.2 DC Voltage (U ) Stations . 34
DC
4.3.3 Active Power (P ) and Frequency (f) Controlling Stations . 34
DC
4.4 Paralleling Transmission Systems . 35
4.4.1 General . 35
4.4.2 Paralleling on AC and DC side . 35
4.4.3 Paralleling on the AC side . 35
4.4.4 Steady-State Loadflow in Hybrid AC/DC Networks . 36

4.5 Load Flow Control . 38
4.5.1 DC Voltage Operating Range . 38
4.5.2 Static and Dynamic System Stability . 39
4.5.3 Step response . 39
4.6 HVDC Grid Control Concepts . 40
4.6.1 General . 40
4.6.2 Voltage-Power Droop Together with Dead Band . 45
4.6.3 Voltage-Current Droop . 48
4.6.4 Voltage-Power Droop — Control of the HVDC Grid Voltage . 54
4.7 Benchmark Simulations of Control Concepts . 57
4.7.1 Case Study . 57
4.7.2 Results . 58
4.7.3 Conclusions . 60
4.7.4 Interoperability . 61
5 Short-Circuit Currents and Earthing . 61
5.1 General . 61
5.2 Calculation of Short-Circuit Currents in HVDC Grid Systems . 61
5.3 Network Topologies and their Influence on Short-Circuit Currents . 63
5.3.1 Influence of DC Network Structure . 63
5.3.2 Influence of Line Discharge . 66
5.3.3 Influence of Capacitors . 67
5.3.4 Contribution of Converter Stations. 69
5.3.5 Methods of Earthing . 72
5.4 Secondary Conditions for Calculating the Maximum/Minimum Short-Circuit Current . 73
5.5 Calculation of the Total Short-Circuit Current (Super Position Method) . 74

5 CLC/TR 50609:2014
5.6 Reduction of Short-Circuit Currents . 75
6 Principles of HVDC Grid Protection . 76
6.1 General . 76
6.2 HVDC Grid System . 77
6.3 AC/DC Converter . 78
6.3.1 General . 78
6.3.2 DC System . 79
6.3.3 HVDC Switchyard. 80
6.3.4 HVDC System without Fast Dynamic Isolation . 80
6.3.5 HVDC System with Fast Dynamic Isolation . 80
6.4 DC Protection . 81
6.4.1 General . 81
6.4.2 DC Converter Protections . 81
6.4.3 Protective Shut Down of a Converter . 83
6.4.4 DC System Protections . 84
6.4.5 DC Equipment Protections . 84
6.5 Clearance of Earth Faults . 84
6.5.1 Clearance of a DC Pole-to-Earth Fault . 84
6.5.2 Clearance of a Pole-to Pole Short Circuit . 85
6.5.3 Clearance of a Converter side AC Phase-to-Earth Fault . 85
7 Functional Specifications .
...

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