cpp ballynahulla rev6
TRANSCRIPT
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Committed Project
ParametersBallynahulla 220/110kV Station
(CP0651)Revision HistoryRevision Date Descriptio n Originator Approver
R0 29/03/2012 First Issue Kieran French Stephen Murray
R1 15/06/2012 Revised Timelines Kieran French Stephen Murray
R2 27/06/2012 Section 1.3.2 amended Kieran French Stephen Murray
R3 16/08/2012 Revised Protection spec &Cordal cable rating amended Kieran French Stephen Murray
R4 10/01/2013 Amendment to Full CPP - Grant
of planning document includedas appendix
Kieran French Stephen Murray
R5 18/06/2013 Revised Protection Spec Kieran French Stephen Murray
R6 22/04/2014 Revised Protection Spec Brian Mullins Alan McHugh
COPYRIGHT © EirGrid All rights reserved. No part of this work may be modified or reproduced or
copied in any form or by means - graphic, electronic or mechanical, includingphotocopying, recording, taping or information and retrieval system, or used
for any purpose other than its designated purpose, without the writtenpermission of EirGrid
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TABLE OF CONTENTS
INTRODUCTION 2
P ROJECT DESCRIPTION 2
1. OUTLINE DESIGN 4
1.1 OUTLINE DESIGN P HILOSOPHY 4
1.2 B ALL YNAHULL A 220 / 110 KV GIS S TATION 41.2.1 220/110kV GIS Station - HV Equipment 41.2.2 HV GIS Bay Equipment Ratings 41.2.3 Ballynahulla 220/110kV GIS Station Civil Works 41.2.4 220kV Remote Station Works 51.2.5 110kV Remote Station Works 5
1.3 220 KV & 110 KV CIRCUIT DESIGN 51.3.1 220kV OHL Design 51.3.2 220kV & 110kV Cable Design 6
1.4 TRANSFORMERS 61.5 P ROTECTION 6
1.6 CONTROL AND TELECOMMUNICATIONS 7
1.7 E ARTHING & LIGHTNING P ROTECTION 7
1.8 A S BUILT P ARAMETERS 7
2. FUNCTIONAL S PECIFICATION 8
3. INDICATIVE P ROGRAMME 10
4. TSO COSTS / F INANCIAL ISSUES 11
5. P LANNING P ERMISSION DOCUMENTATION 11
6. L ANDOWNER AGREEMENTS 12
7. TSO OUTAGE A VAILABILITY DURING CONSTRUCTION & COMMISSIONING 12
8. COMMISSIONING P ROCEDURES 12
9. ENERGISATION P ROCEDURES 12
10. CLIENT ENGINEER DETAILS 12
11. A PPENDICES 13
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INTRODUCTION
The Infrastructure Agreement shall be implemented to ensure that the development of the
project agreement for the above committed project is reached. It is envisaged under the
Infrastructure Agreement that the TSO will issue a committed project parameter (CPP) to the
TAO. The TAO will develop a project implementation plan (PIP) from this CPP and submit to
the TSO for approval. Once the CPP is finalised and the PIP is determined or agreed to be
satisfactory, then the Project Agreement shall be prepared.
P ROJECT DESCRIPTION
This document outlines the requirements for the construction of the new Ballynahulla
220/110kV GIS station.
The station is to be looped in to the existing Clashavoon – Tarbert 220kV line. The loop-in
sections are required to be via 220kV cables which are to have a rating consistent with
600mm 2 HTLS conductor at 80 0
C.
A new 110kV cable is to be constructed from the planned Cordal 110kV station to the
proposed new Ballynahulla 220/110kV station as part of this project. The requirements for
Cordal 110kV station will be catered for under a separate CPP.
The Ballynahulla 220kV GIS station is to be constructed as per the SLD XDN-SLD-CP0651-
F-BYH-001 Rev 06 and is to consist of the following;
• 2 x 220kV Line Bays
• 1 x 220/110kV Transformer Bay (Connected on the A2/B2 section of busbar)
• 4 x 220kV Spare line bays
• 1 x Spare Transformer bay (On the A1/B1 section of busbar)
• 2 x 220kV Sectionaliser Bays
• 2 x 220kV Wing coupler Bays
• 1 x 220/110kV 250MVA transformer (double wound), 16% impedance, 16 taps, vector
group YN, yon, d5. A neutral earth switch is to be provided on the transformer.
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The Ballynahulla 110kV GIS station will consist of a double busbar arrangement containing
the following;
• 1 x 110kV Line Bays
• 1 x 110/220kV Transformer Bay
•
5 x 110kV Spare Line Bays• 1 x 110/220kV Spare Transformer Bay
• 2 x 110kV Sectionaliser Bays
• 2 x 110kV Wing coupler Bays
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1. OUTLINE DESIGN
The following document defines the functional requirements and site specific requirements for
the construction of the new Ballynahulla 220/110kV station and the associated works requiredat the remote station circuit ends.
1.1 O UTLINE DESIGN P HILOSOPHY
Work shall be designed with safety, reliability, maintainability and ease of operation as the
primary consideration. Due consideration shall be given to the environment.
1.2 B ALLYNAHULLA 220 / 110 KV GIS S TATION
1.2.1 220/110 KV GIS S TATION - HV EQUIPMENT
The TAO are to construct a new 220/110kV GIS station in accordance with the SLD XDN-
SLD-CP0651-F-BYH-001 Rev 06, and the planning drawings which have been sent
separately to the TAO via CD. The SLD XDN-SLD-CP0651-F-BYH-001 Rev 06 is included
as an appendix to this document.
1.2.2 HV GIS B AY EQUIPMENT R ATINGS
The required ratings for the 220kV and 110kV equipment are as per the Single Line Diagram
XDN-SLD-CP0651-F-BYH-001 Rev 06, included as an appendix to this CPP.
1.2.3 B ALLYNAHULLA 220/110 KV GIS S TATION C IVIL WORKS
The civil design for the construction of the new Ballynahulla 220/110kV station shall be as per
the planning application drawings which have been sent separately to the TAO.
The 220kV and 110kV GIS buildings are to be constructed to house the ultimate development
of the 220/110kV station.
An access road and bridge is to be constructed to the new station in accordance with the
planning drawings sent separately to the TAO.
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1.2.4 220 KV REMOTE S TATION WORKS
1.2.4.1 B ALLYVOUSKILL 220 KV S TATION
The protection requirements associated with the Ballynahulla 220kV bay (previously known
as the Kiskeam 220kV) at Ballyvouskill 220kV station have been specified as part of CP0650
and should not be scoped as part of this project.
1.2.4.2 K NOCKANURE 220 KV S TATION
The protection requirements associated with the Ballynahulla 220kV bay (previously known
as the Kiskeam 220kV) at Knockanure 220kV station have been specified as part of CP0500
and should not be scoped as part of this project.
1.2.5 110 KV REMOTE S TATION WORKS
The protection requirements associated with the Ballynahulla 110kV bay at Cordal 110kVstation will be catered for under a separate CPP and should not be scoped as part of this
project.
1.3 220 KV & 110 KV CIRCUIT DESIGN
1.3.1 220 KV OHL DESIGN
The station is to loop in to the existing Clashavoon – Tarbert 220kV circuit. This will result in
two new 220kV circuits;
• Ballynahulla - Ballyvouskill 220kV station
• Ballynahulla – Knockanure 220kV station
This will require the installation of two 220/110kV line interface towers.
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1.3.2 220 KV & 110 KV C ABLE DESIGN
The 220kV connections to the new Ballynahulla 220/110kV GIS station will occur by means of
underground cable.
The 220kV cables required as part of this project are to have a rating equivalent to 600mm 2
HTLS conductor at 80 0C. This is due to the uprate of the Clashavoon Tarbert 220kV line as
part of CP0763. The line will be uprated from 600mm 2 ACSR @ 80 0C to a rating consistent
with 600mm 2 HTLS conductor at 80 0
A 110kV cable circuit to the new Cordal station is required to be installed as part of this
project. A minimum rating equivalent to 1000mm
C.
2
Refer to the single line diagram XDN-SLD-CP0651-F-BYH-001 Rev 06, included as an
appendix to this document.
Al cable is required for this circuit.
1.4 T RANSFORMERS
1 x 220/110kV Power Transformer is required to be installed as part of the construction of the
new Ballynahulla 220/110kV GIS station. The parameters of this transformer are to be as
follows;
• 1 x 220/110kV 250MVA transformer (double wound)
• 16% impedance
• 16 taps• vector group YN, yon, d5
• A neutral earth switch is to be provided on the transformer
1.5 P ROTECTION
The protection requirements for the new 220/110kV GIS station are included as an appendix
to this CPP. Please refer to the document entitled ‘Protection Requirements for Ballynahulla
220/110kV Transmission Station ’ Revision 1.7, dated 07/03/2014.
Note: Bay H1 in Ballynahulla 220kV station will be used for a future 110kV connection to either
Glenlara or Knockacummer. The connection node and method (OHL or Cable) will be known
shortly and the requirements of such will be covered under a separate CPP.
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1.6 C ONTROL AND TELECOMMUNICATIONS
The control and telecommunications requirements for the new 220/110kV GIS station are
included as an appendix to this CPP. Please refer to the document entitled ‘Ballynahulla
220kV SCS Station CP0651 – NCC Signals_v4.0, dated 13 February 2014, included as an
appendix to this document.
1.7 E ARTHING & LIGHTNING P ROTECTION
New station to be built as per the EirGrid functional requirements.
1.8 A S BUILT P ARAMETERS
Provide as built parameters in a format to be agreed by EirGrid.
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2. FUNCTIONAL S PECIFICATION
The functionality of the following list of term contract equipment and systems meet therequirements of the TSO.
It is assumed that term contract will be used where possible. In the case where term contractequipment is not used, the TAO shall submit to the TSO the alternative designs ortechnologies for review.
The appropriate sections of the following documentation shall be adhered to:
Station Functional Specifications -110/220/400kV Doc Number
00 110/220/400kV Station GeneralRequirements XDS-GFS-00-001-R1
06 110/220/400kV Control and Protection XDS-GFS-06-001-R0
07Station Control and Protection Cabinets andMarshalling Kiosks XDS-GFS-07-001-R0
08 Station Auxiliary Power Supplies XDS-GFS-08-001-R0
09 Station 220V, 48V and 24V Lead AcidBatteries and Chargers XDS-GFS-09-001-R1
10 220V/48V/24V DC and 230/400V/110V ACDistribution Boards XDS-GFS-10-001-R0
11 Auxiliary Cables and Wiring System XDS-GFS-11-001-R0
12 Earthing and Lightning Protection XDS-GFS-12-001-R0
13A Station Civil and Building Works XDS-WTS-13-001-R0
13B GIS Station Civil and Building Works XDS-GWTS-13-001-R0
14 Station Electrical & Mechanical Services forTransmission System Control Buildings XDS-GFS-14-001-R0
15 Fire Detection & Fire Alarm System XDS-GFS-15-001-R0
16 Intruder Detection & Security monitoringSystem for Transmission Stations XDS-GFS-16-001-R0
17 Galvanised Fabricated Steelwork XDS-GFS-17-001-R0
18 Station Hot Dip Galvanising of Iron andSteel Other Than Wire XDS-GFS-18-001-R0
19 Steel Masts & Girders XDS-GFS-19-001-R0
20 Pre-commissioning Requirements XDS-GFS-20-001-R0
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EirGrid Blackstart Shutdown SystemControl Specification for Wind Farm PowerStations Connected to the Transmissionsystem
XDS-GFS-21-001-R0
22 Alert System Control Specification forTransmission Stations XDS-GFS-22-001-R0
23 Alert System Control Specification forGenerators Connected to the Transmissionsystem
XDS-GFS-23-001-R0
25110/220/400kV Gas Insulated Switchgear(GIS) Connected to the TransmissionSystem
XDS-GFS-25-001-R0
Station Functional Specifications - 220kV Doc Number
1 220kV Circuit Breakers XDS-FFS-01-001-R0
2 220kV Disconnectors & Earthing Switches XDS-FFS-02-001-R0
3 220kV Instrument Transformers XDS-FFS-03-001-R0
4 220kV Surge Arrester XDS-FFS-04-001-R0
5 220kV Post Insulators XDS-FFS-05-001-R0
Cable Functional Specifications - 220kV Doc Number
1 General Requirements CDS-FFS-00-001-R0
2 Route Selection CDS-FFS-01-001-R0
3 Cable Materials CDS-FFS-02-001-R0
4 Cable Civil Works CDS-FFS-03-001-R0
5 Cable Installation CDS-FFS-04-001-R0
OHL Funct ional Specifi cations - 110kV Doc Number
1 General Requirements LDS-HFS-00-001-R0
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3. INDICATIVE P ROGRAMME
Milestone Date
Submission of Planning Application:Ballynahulla 220/110kVGIS Station: June 2012
Expected grant of Planning Permission:Ballynahulla 220/110kVGIS Station:
November 2012
Outline CPP Submission June 2012
Receipt of PIP by TSO November 2012
Project Agreement date January 2013
Target Completion date Q4 2015
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4. TSO COSTS / F INANCIAL ISSUES
The estimated cost to be incurred by TSO in connection with the construction the new
Ballynahulla 220/110kV station and the associated OHL works are shown below.
The TSO direct costs are estimated to be €5.0m; this is for cable / OHL route selection, site
selection and project management costs of the TSO (review of commissioning and
energisation procedures, Capital Approval preparation, managing the preparation of project
parameters, review of CPPs and PIP, preparation of Project Agreement and overall project
coordination) and the costs incurred by the TSO in preparing civil functional specifications,
design review and site conformance auditing.
5. P LANNING P ERMISSION DOCUMENTATION
Planning application drawings included Planning ApplicationDrawings willbe sent toTAO on
separate CDEnvironmental Impact StatementEnvironmental Report Included (Landscape, Cultural Heritage and Flora& Fauna reports)
Env. Reportwill issue toTAO onseparate CD
Decision of planning authority included (letter of approval) Included asappendix
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6. L ANDOWNER AGREEMENTS
Landowner lists, agreements, access arrangements etc to follow.
7. TSO OUTAGE A VAILABILITY DURING CONSTRUCTION & COMMISSIONING
The outage constraints will be reviewed following receipt of the outage requirements from theTAO.
These outages will be included in the relevant EirGrid Transmission Outage Program closerto the energisation date. However the timing and the length of the outage will be subject toprevailing conditions, available ESB Networks resources and progress on the line. The actual
outages will be determined closer to the program date.
8. COMMISSIONING P ROCEDURESThe commissioning procedures shall be issued in draft form to the TAO 40 business daysprior to commissioning. The final version of the procedures will be issued 20 business daysprior to start of commissioning.
9. ENERGISATION P ROCEDURES
Energisation procedures shall be issued in draft form to the TAO 20 business days prior toscheduled energisation. The final version of the procedures shall issue 10 business daysprior to scheduled energisation.
10. CLIENT ENGINEER DETAILS
Name Kieran French Stephen Murray
Telephone number 01 2370466 01 2370425
Mobile Number 087 9860296 087 1958713
Email address [email protected] [email protected]
mailto:[email protected]:[email protected]:[email protected]
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11. A PPENDICES
• XDN-SLD-CP0651-F-BYH-001 Rev 06• Ballynahulla Protection Specification Version 1.7 (Document Title: ‘Protection
Requirements for Ballynahulla 220/110kV Transmission Station ’ Revision 1.7)• Ballynahulla 220kV SCS Station CP0651 – NCC Signals_v4.0
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Title: Protection Requirements for Ballynahulla 220 kV / 110 kV Transmission StationCPP: CP0651Revision: 1.7Date: 07/03/2014
1. Summary
Ballynahulla is a new 220 / 110 kV transmission station that will be constructed along the path ofthe existing Clashavoon – Tarbert 220 kV line.
This specification is based on the SLD XDN-SLD-CP0651-F-BYH-001. Rev05
The following is assumed for Ballynahulla 220 kV GIS busbar:
220 kV GIS double busbarOne 220 kV transformer bay T2102 (250 MVA)Two 220 kV line bays (Ballyvouskill and Knockanure)One spare 220 kV transformer bayFour spare 220 kV line baysTwo 220 kV wing coupler bays (K1 and K2)Two 220 kV sectionalising circuit breaker bays (SA1-2 and SB1-2)
The following is assumed for Ballynahulla 110 kV GIS busbar:
110 kV GIS double busbarOne110 kV transformer bays T2102 (250 MVA)One spare 110 kV transformer bayOne110 kV line bay (Cordal)Five spare 110 kV line baysTwo 110 kV wing coupler bays (K1 and K2)Two 110 kV sectionalising circuit breaker bays (SA1-2 and SB1-2)
It is assumed that the new station will be equipped with a SCS as per the current term contract.The protection for the spare bays will not be specified as part of this project.
2. Ballynahulla Protection Communications Requirements:
The protection at Ballynahulla will require access to the fibre network for Differentialcommunications and for Impedance protection teleprotection signalling. As access to thefibre network in this region is limited, the communication requirements, as outlined in thefollowing sections, must be given consideration at the earliest point in the design process.
3. Ballynahulla Protection Relay Requirements:
The GRL100 relays for this station have been specified with the additional backup distanceprotection function to cater for the phased provisioning of FO based protectioncommunications. The communications infrastructure in this region will be built as part of theBallyvouskill, Kilpaddoge, Knockanure and Ballynahulla projects. As the timeline for thecompletion of each project is not clearly defined at this stage, the backup distance function inthe GRL will allow the lines to be operated with duplicate impedance protection until such timeas the communications infrastructure is completed. A modified protection elementary will berequired for these relays and must be requested at the earliest possible stage in the designprocess.
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4. Ballynahulla Bus Zone / Circuit Breaker Failure Protection:
4.1. Install a combined BZP/CBF scheme for the new 220 kV busbar. The scheme must bespecified to cater for the initial development of the busbar and have adequatecapacity for any future bays.
4.2. A 220 kV Bus Zone Protection trip should block local auto-reclosing and initiatetransmission of PTT and auto-recloser block signals to the relevant remote stations (2second signal duration).
4.3. Stage 1 operation of the 220 kV circuit breaker fail protection scheme should result in:o Attempted triple pole tripping (trip commands to both sets of trip coils) of the
failed CBo The blocking of the local auto-recloser (Line Bays only)o The transmission of PTT and auto-recloser block signals to the remote end (2
second signal duration)4.4. Install a combined BZP/CBF scheme for the new 110 kV busbar. The scheme must be
specified and designed to cater for the initial development of the busbar and for anyfuture bays.
4.5. A 110 kV Bus Zone Protection trip should block local auto-reclosing and initiatetransmission of PTT and auto-recloser block signals to the relevant remote stations (2second signal duration).
4.6. Stage 1 operation of the 110 kV circuit breaker fail protection scheme should result in:o Attempted triple pole tripping (trip commands to both sets of trip coils) of the
failed CBo The blocking of the local auto-recloser (Line Bays only)o The transmission of PTT and auto-recloser block signals to the remote end (2
second signal duration)
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5. Ballynahulla Check and Controlled Synchronising Facilities:
5.1. All 220 kV circuit breakers must be provided with synchronising facilities. The DIRECTCLOSE and SYNC CLOSE modes shall be available both remotely (NCC) and locally.
5.2. The 220 kV line bays (Knockanure and Ballyvouskill) and the 220 kV coupler bays (SA1-2
CB, SB1-2 CB, K1 CB and K2 CB) must have a CONTROLLED SYNCHRONISING facility thatwill be available to a local operator only. This must be extendable to the spare feederbays.
5.3. All 110 kV circuit breakers must be provided with synchronising facilities. The DIRECTCLOSE and SYNC CLOSE modes shall be available both remotely (NCC) and locally.
5.4. It is acceptable to implement the CHECK SYNCHRONISING facility using the availablefunctionality within the Siemens SCS.
5.5. The CONTROLLED SYNCHRONISING system should be implemented as follows:5.5.1. Install a synchronising relay (e.g. an ABB Synchrotact).5.5.2. Install a cabinet with:
Synchroscope, double voltmeter, double frequency meter, delta voltage meter,and a delta frequency meter.Dedicated Controlled Synchronising SMD switch.Indication lamps operated by the synchronising relay to indicate that thevoltage difference, angular difference and frequency difference are all withinthe permitted range for close commands to be issued and when the sync relayis ready to give a permissive close command.The above cabinet should be installed close to SCS HMI so that operatorcarrying out the synchronising operation is able to see the overall station busbarconfiguration on the SCS and the synchronising instrumentation outlined above.
5.5.3. The SCS should provide a facility to locally select “Control Sync” mode. 5.5.4. The CB to be “Control Sync” closed should be selectable locally via the SCS HMI.5.5.5. When a CB has been s elected for “Control Sync” the SCS shall:
5.5.5.1. Provide the necessary incoming and reference voltages(R and S phases)to the synchronising relay (depending on CB selected for Control SyncClose and busbar configuration)
5.5.5.2. Set up the routing of synchronising relay close command to the selectedCB. The CONTROLLED SYNC close command to the selected CB shall alsobe routed via a dedicated SMD switch (wired in series with thesynchronising relay close command contacts.
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6. Knockanure - Ballynahulla 220kV line
Teleprotection facilities for this feeder shall be provided by TEBIT and PLC. Differentialprotection communications shall be provided by the FIBRE NETWORK network.
6.1.
At Ballynahulla on the Knockanure bay:6.1.1. Install current instrument transformers with ratios of 2500/1/1/1 A (two protectioncores and one metering core).
6.1.2. Install ring type current instrument transformers, outside of the GIS, with ratios of3500/1 A for use with the combined BZ/CBF protection.
6.1.3. Install voltage instrument transformers with winding ratios of 220 kV /√3 / 100V/√3 /100V /√3 / 100 V/3.
6.1.4. Install a TEBIT teleprotection interface in the OPMUX node at Ballynahulla.6.1.5. Install a PLC teleprotection interface.6.1.6. Install HF PLC coupling rated to at least 2500 A.6.1.7. Install Surge Arrestors.6.1.8. Install a Toshiba GRL100 line differential relay with backup impedance protection.
The relay will be configured to provide differential protection via the FO interfaceand distance protection in POTT mode via the TEBIT/PLC teleprotection interfaces.The relay shall be configured to provide single / three pole tripping and auto-reclosing. The 220 kV VT secondary circuits and VTMCB trip signals must be wiredinto this relay.
6.1.9. Install a Siemens 7SA612 line impedance protection relay and configure it toprovide distance protection in POTT mode with DCEF protection via the TEBIT/PLCteleprotection interfaces. The relay shall also be configured to provide single /three pole tripping and auto-reclosing.
6.1.10. Install “Trip Test” switches for both relays (three pole trip only).6.1.11. Test socket arrangements should be to current standards.6.1.12. Provide NCC remote control of reclosing.6.1.13. Teleprotection channels should be assigned as follows:
PLC Unit 1CH1 – 7SA612 / GRL100 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.TEBITCH1 – 7SA612 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.CH3 – GRL100 POTT Tx/RxCH4 – AR Block Tx/Rx.
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6.2. At Knockanure on the Ballynahulla bay:This protection has already been specified as part to the Knockanure Project (CP0500).6.2.1. Install current instrument transformers with ratios of 2500/1/1/1 A (two protection
cores and one metering core).6.2.2. Install ring type current instrument transformers, outside of the GIS, with ratios of
3500/1 A for use with the combined BZ/CBF protection.6.2.3. Install voltage instrument transformers with winding ratios of 220 kV /√3 / 100V/√3 /100V /√3 / 100 V/3.
6.2.4. Install a TEBIT teleprotection interface in the OPMUX node at Knockanure.6.2.5. Install a PLC teleprotection interface.6.2.6. Install HF PLC coupling rated to at least 2500 A.6.2.7. Install Surge Arrestors.6.2.8. Install a Toshiba GRL100 line differential relay with backup impedance protection.
The relay will be configured to provide differential protection via the FO interfaceand distance protection in POTT mode via the TEBIT/PLC teleprotection interfaces.The relay shall be configured to provide single / three pole tripping and auto-reclosing. The 220 kV VT secondary circuits and VTMCB trip signals must be wiredinto this relay.
6.2.9. Install a Siemens 7SA612 line impedance protection relay and configure it toprovide distance protection in POTT mode with DCEF protection via the TEBIT/PLCteleprotection interfaces. The relay shall also be configured to provide single /three pole tripping and auto-reclosing.
6.2.10. Install “Trip Test” switches for both relays (three pole trip only).6.2.11. Test socket arrangements should be to current standards.6.2.12. Provide NCC remote control of reclosing.6.2.13. Teleprotection channels should be assigned as follows:
PLC Unit 1CH1 – 7SA612 / GRL100 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.TEBITCH1 – 7SA612 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.CH3 – GRL100 POTT Tx/RxCH4 – AR Block Tx/Rx.
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7. Ballynahulla – Ballyvouskill 220kV line
Teleprotection for this feeder will be provided by TEBIT (fibre) and PLC. Differential protectioncommunications will be provided by the FIBRE NETWORK network.
7.1.
At Ballynahulla on the Ballyvouskill bay:7.1.1. Install current instrument transformers with ratios of 2500/1/1/1 A (two protectioncores and one metering core).
7.1.2. Install ring type current instrument transformers, outside of the GIS, with ratios of3500/1 A for use with the combined BZ/CBF protection.
7.1.3. Install voltage instrument transformers with winding ratios of 220 kV /√3 / V/√3 /100V /√3 / 100 V/3.
7.1.4. Install a TEBIT teleprotection interface in the OPMUX node at Ballynahulla.7.1.5. Install a PLC teleprotection interface.7.1.6. Install HF PLC coupling rated to at least 2500 A.7.1.7. Install Surge Arrestors.7.1.8. Install a Toshiba GRL100 line differential relay with backup impedance protection.
The relay will be configured to provide differential protection via the FO interfaceand distance protection in POTT mode via the TEBIT/PLC teleprotection interfaces.The relay shall be configured to provide single / three pole tripping and auto-reclosing. The 220 kV VT secondary circuits and VTMCB trip signals must be wiredinto this relay.
7.1.9. Install a Siemens 7SA612 line impedance protection relay and configure it toprovide distance protection in POTT mode with DCEF protection via the TEBIT/PLCteleprotection interfaces. The relay shall also be configured to provide single /three pole tripping and auto-reclosing.
7.1.10. Install “Trip Test” switches for both relays (three pole trip only). 7.1.11. Test socket arrangements should be to current standards.7.1.12. Provide NCC remote control of reclosing.7.1.13. Teleprotection channels should be assigned as follows:
PLC Unit 1CH1 – 7SA612 / GRL100 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.TEBITCH1 – 7SA612 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.CH3 – GRL100 POTT Tx/RxCH4 – AR Block Tx/Rx.
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7.2. At Ballyvouskill on the Ballynahulla bay:This protection has already been specified as part to the Ballyvouskill project CP650
7.2.1. Install current instrument transformers with ratios of 2500/1/1/1 A (two protectioncores and one metering core).
7.2.2. Install ring type current instrument transformers, outside of the GIS, with ratios of
3500/1 A for use with the combined BZ/CBF protection.7.2.3. Install voltage instrument transformers with winding ratios of 220 kV /√3 / 100V/√3 /100V /√3 / 100 V/3.
7.2.4. Install a TEBIT teleprotection interface in the OPMUX node at Ballyvouskill.7.2.5. Install a PLC teleprotection interface.7.2.6. Install HF PLC coupling rated to at least 2500 A.7.2.7. Install Surge Arrestors.7.2.8. Install a Toshiba GRL100 line differential relay with backup impedance protection.
The relay will be configured to provide differential protection via the FO interfaceand distance protection in POTT mode via the TEBIT/PLC teleprotection interfaces.The relay shall be configured to provide single / three pole tripping and auto-reclosing. The 220 kV VT secondary circuits and VTMCB trip signals must be wiredinto this relay.
7.2.9. Install a Siemens 7SA612 line impedance protection relay and configure it toprovide distance protection in POTT mode with DCEF protection via the TEBIT/PLCteleprotection interfaces. The relay shall also be configured to provide single /three pole tripping and auto-reclosing.
7.2.10. Install “Trip Test” switches for both relays (three pole trip only). 7.2.11. Test socket arrangements should be to current standards.7.2.12. Provide NCC remote control of reclosing.7.2.13. Teleprotection channels should be assigned as follows:
PLC Unit 1CH1 – 7SA612 / GRL100 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.TEBITCH1 – 7SA612 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.CH3 – GRL100 POTT Tx/RxCH4 – AR Block Tx/Rx.
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8. Ballynahulla 220 kV Wing Coupler Protection (K1 and K2)8.1. Install current instrument transformers with ratios of 3500/1/1/1/1 A (three protection cores
and one metering core). The CT must be installed with at least one protection class coreon either side of the circuit breaker. This is a requirement for the BZP scheme.
8.2. Install a Siemens 7SJ611 over current protection relay.
8.3.
Install a “Trip Test” switch for the over current relay (three pole trip only).8.4. Test socket arrangements should be to current standards.
9. Ballynahulla 220 kV Sectionalising Circuit Breaker Protection (SA1-2 and SB1-2)9.1. Install current instrument transformers with ratios of 3500/1/1/1/1 A (three protection cores
and one metering core). The CT must be installed with at least one protection class coreon either side of the circuit breaker. This is a requirement for the BZP scheme.
9.2. Install a Siemens 7SJ611 over current protection relay.9.3. Install a “Trip Test” switch for the over current relay (three pole trip only).9.4. Test socket arrangements should be to current standards.
10. Ballynahulla spare 220/110 kV Coupling Transformer Bays
10.1. Install current instrument transformers with ratios of 1000/1/1/1 A (two protection coresand one metering core) on the 220 kV side of the transformer.
10.2. Ensure that there is adequate space for the future installation of ring type currentinstrument transformers, outside of the GIS on the 220 kV side of the transformer, withratios of 3500/1 A for use with the combined BZ/CBF protection.
10.3. Install 220 kV side voltage instrument transformers with winding ratios of 220 kV /√3 /100V/√3 / 100V/√3 / 100 V/3.
10.4. Install current instrument transformers with ratios of 2000/1/1/1 A (two protection coresand one metering core) on the 110 kV side of the transformer.
10.5. Ensure that there is adequate space for the future installation of ring type currentinstrument transformers, outside of the GIS on the 110 kV side of the transformer, withratios of 2500/1 A for use with the combined BZ/CBF protection.
10.6. Install 110 kV side voltage instrument transformers with winding ratios of 110 kV /√3 /100V/√3 / 100V/√3 / 100 V/3.
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11. Ballynahulla 220/110 kV Coupling Transformer Protection ( T2102)NOTE: The 220 kV star point of the transformer will be solidly earthed. Earthing of the 110 kV star
points of the transformer will be via a 110 kV neutral earthing switch.11.1. Install current instrument transformers with ratios of 1000/1/1/1 A (two protection cores
and one metering core) on the 220 kV side of the transformer.
11.2.
Install ring type current instrument transformers, outside of the GIS on the 220 kV side ofthe transformer, with ratios of 3500/1 A for use with the combined BZ/CBF protection.11.3. Install a 1000/1 A ring type CT on the 220 kV neutral of the transformer.11.4. Install a 2000/1 A ring type CT on the 110 kV neutral of the transformer.11.5. Install 220 kV side voltage instrument transforme rs with winding ratios of 220 kV /√3 /
100V/√3 / 100V/√3 / 100 V/3.11.6. Install current instrument transformers with ratios of 2000/1/1/1 A (two protection cores
and one metering core) on the 110 kV side of the transformer.11.7. Install ring type current instrument transformers, outside of the GIS on the 110 kV side of
the transformer, with ratios of 2500/1 A for use with the combined BZ/CBF protection.11.8. Install 110 kV side voltage instrument transformers with winding ratios of 110 kV /√3 /
100V/√3 / 100V/√3 / 100 V/3.11.9. Install an ABB RET670 transformer differential protection relay. This relay must be
configured to provide transformer differential protection along with 220 kV and 110 kVrestricted earth fault (REF) protection.
11.10. Install a Siemens 7SA612 impedance protection relay on the 220kV side of thetransformer.
11.11. Install a Siemens 7SA612 impedance protection relay on the 110kV side of thetransformer.
11.12. Install “Trip Test” switches for the 7SA612 and RET670 relays.
12. Ballynahulla – Spare 220kV feeder bays
12.1. At Ballynahulla on the spare 220 kV feeder bays:12.1.1. Install current instrument transformers with ratios of 2500/1/1/1 A (two protection
cores and one metering core).12.1.2. Install 220 kV side voltage instrument transformers with winding ratios of 220 kV /√3
/ 100V/√3 / 100V/√3 / 100V/3. 12.1.3. Ensure that there is adequate space for the future installation of ring type current
instrument transformers, outside of the GIS.
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13. Ballynahulla – Cordal 110kV Line
Teleprotection for this feeder will be provided via the fibre network.
13.1.
At Ballynahulla on the Cordal bay:13.1.1. Install current instrument transformers with ratios of 1250/1/1/1 A (two protectioncores and one metering core).
13.1.2. Install ring type current instrument transformers, outside of the GIS, with ratios of2500/1 A for use with the combined BZ/CBF protection.
13.1.3. Install voltage instrument transformers with winding ratios of 110 kV /√3 / 100V/√3 /100V /√3 / 100 V/3.
13.1.4. Install Surge Arrestors.13.1.5. Install a TEBIT teleprotection interface in the OPMUX node at Ballynahulla.13.1.6. Install a Toshiba GRL100 line differential relay with backup distance protection. The
relay will be configured to provide differential protection via the FO interface anddistance protection in POTT mode via the TEBIT teleprotection interface. The relayshall be configured to provide three pole tripping and auto-reclosing. The 110 kV VTsecondary circuits and VTMCB trip signals must be wired into this relay.
13.1.7. Install a Siemens 7SA612 line impedance protection relay and configure it to providedistance protection in POTT mode and DCEF protection. The relay shall beconfigured to provide three pole tripping and auto-reclosing. SPS functionality is alsorequired as outlined below.
13.1.8. Install “Trip Test” switches for both relays (three pole trip only). 13.1.9. Test socket arrangements should be to current standards.13.1.10. Provide NCC remote control of reclosing.13.1.11. Teleprotection channels should be assigned as follows:
TEBITCH1 – 7SA612 / GRL100 POTT Tx/RxCH2 – 7SA612 DCEF Tx/Rx.CH3 – SPS TxCH4 – AR Block Tx/Rx.
13.2. The following Special Protection Functionality is required at Ballynahulla on the Cordalbay.
13.2.1. In the event of the Cordal CB opening the SPS transmit output of the distance relayon the Cordal bay will provide a 2 second pulse to CH3 of the TEBIT teleprotectioninterface. This will be initiated by the CB status i/p to the relay. The SPS Rx input willnot be used. Upon operation of the SPS function, an SPS Operate signal should beannunciated locally and provided to NCC.
13.2.2. There shall be a local SPS Enable / Disable facility.13.2.3. There shall be NCC remote control of the SPS Enable / Disable facility.13.2.4. The status of the SPS Scheme shall be indicated locally and shall be brought back to
the NCC.13.2.5. There shall be a Sub Remote Control switch for the SPS remote control and the status
of the switch shall be brought back to NCC.
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14. Ballynahulla 110 kV Wing Coupler Protection (K1 and K2)14.1. Install current instrument transformers with ratios of 2500/1/1/1/1 A (three protection cores
and one metering core). The CT must be installed with at least one protection class coreon either side of the circuit breaker. This is a requirement for the BZP scheme.
14.2.
Install a Siemens 7SJ611 over current protection relay.14.3. Install a “Trip Test” switch for the over current relay (three pole trip only).14.4. Test socket arrangements should be to current standards.
15. Ballynahulla 110 kV Sectionalising Circuit Breaker Protection (SA1-2 and SB1-2)15.1. Install current instrument transformers with ratios of 2500/1/1/1/1 A (three protection cores
and one metering core). The CT must be installed with at least one protection class coreon either side of the circuit breaker. This is a requirement for the BZP scheme.
15.2. Install a Siemens 7SJ611 over current protection relay.15.3. Install a “Trip Test” switch for the over current relay (three pole trip only).15.4. Test socket arrangements should be to current standards.
16. Ballynahulla – Spare 110kV feeder bays16.1. At Ballynahulla on the spare 110 kV feeder bays:
16.1.1. Install current instrument transformers with ratios of 1250/1/1/1 A (two protectioncores and one metering core).
16.1.2. Install voltage instrument transformers with winding ratios of 110 kV /√3 / 100V/√3 /100V/√3 / 100V/3.
17. Disturbance Recorder / Relay Remote Interrogation Cabinet17.1. Install 2 No. dedicated free standing cabinets to house disturbance recorder, relay
remote interrogation and associated communication hardware. One cabinet will beinstalled in the 220 kV control room and the other installed in the 110 kV control room.
17.2. Install a dedicated 220V DC MCB in both cabinets. An uninterruptible power supply(MINI-DC-UPS/12DC/4 - 2866598 with integrated power supply unit, 4 A, in combinationwith MINI-BAT/12/DC 2.6 Ah), shall be provided and installed in the 220 kV cabinet.
17.3. A DIN Rail Mounted PSU 220 AC/DC to 12V DC (RS #: 486-732) shall be supplied andinstalled in the 110 kV cabinet.
17.4. 1 No. shielded Ethernet connections (Cat5e) are required from the ESB Telecoms IPnetwork (via a FO/Ethernet converter in the case of a distributed station layout or CAT5ein the case of a traditional relay room layout). These shall be supplied to the disturbancerecorder cabinet in the 220 kV control room.
17.5. 1 No. Unmanaged Ethernet switch shall be supplied. (MOXA EDS205A-M-ST). It will beinstalled in the disturbance recorder cabinet in the 220 kV control building. It will beconnected to the MOXA IMC-21 in the 110 kV control building via fibres running betweenthe two buildings. Twin 62.5/125μm ST-ST terminated fibre patch leads shall be used(length as required)
17.6. 1 No. Ethernet to fibre converters shall be supplied. (MOXA IMC-21-M-ST). One will beinstalled in the disturbance recorder cabinet in the 110 kV control building and will beconnected to the MOXA EDS205A-M-ST via fibres running between the two controlbuildings.
18. Disturbance Recorder18.1. 2 No. eMS sub.net disturbance recorders will be supplied by EirGrid. Each recorder will be
ordered with, wedding ring interposing current transformers, GPS time synchronisationand 2 analogue modules (6 voltage and 6 current inputs). One recorder will be installedin the Disturbance Recorder cabinet in the 220 kV control building and the other installedin the Disturbance Recorder cabinet in the 110 kV control building.
18.2. CT connections from Knockanure 220 kV and Ballyvouskil 220 kV shall be presented in the220 kV disturbance recorder cabinet. CT connections should be presented on URTK-SP
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phoenix type terminals with a 300mm loop of wire threaded through the interposingwedding ring type CT. The interposing wedding ring type CT shall be DIN rail mounted.
18.3. VT connections from Knockanure 220 kV and Ballyvouskil 220 kV shall be presented in the220 kV disturbance recorder cabinet. Provide a connection to the VT secondary circuitsvia sets of dedicated 1A fuses. VT connections should be presented using URTK-S type
phoenix connectors to allow connection via shrouded 4mm test plugs. 18.4. CT connections from Cordal 110 kV and Glenlara 110 kV shall be presented in the 110 kVdisturbance recorder cabinet. CT connections should be presented on URTK-SP phoenixtype terminals with a 300mm loop of wire threaded through the interposing wedding ringtype CT. The interposing wedding ring type CT shall be din rail mounted.
18.5. VT connections from Cordal 110 kV and Glenlara 110 kV shall be presented in the 110 kVdisturbance recorder cabinet. Provide a connection to the VT secondary circuits via setsof dedicated 1A fuses. VT connections should be presented using URTK-S type phoenixconnectors to allow connection via shrouded 4mm test plugs.
18.6. ESBT to provide analogue GPS signals to bothe disturbance recorder cabinets. Any GPSantenna used should be installed on an outside wall, should have a clear view of the skyand not be overshadowed. Such an antenna should have a surge arrester installedwhere the antenna coaxial cable enters the building and must be adequately earthed.The coaxial cable should be terminated with TNC type plugs and supplied to each of thedisturbance recorders in the two disturbance recorder cabinets.
19. Remote Interrogation19.1. Remote interrogation shall be provided to all Siemens distance and multifunction relays. 19.2. 1 No. Moxa NPort 5110 Ethernet to serial converter shall be supplied with DIN rail mount.19.3. 1 No. Siemens RS232 Digsi cable (7XV5100-4 /BB) shall be supplied to connect the Moxa
5110 and the first mini star coupler. 19.4. 5 No. Siemens Mini Star Couplers shall be supplied (7XV5450-0BA00/BB) 19.5. 3 No. Twin 62.5/125μm ST-ST terminated 1m fibre patch leads shall be provided to
cascade the mini star couplers. 19.6. 13 No. Siemens FO - RS485 converter shall be supplied to connect the fibre to the rear
port RS485 on a version 4 Siemens relay (7XV5650-0BA00/BB). 19.7. 13 No. Siemens RS485 male to male leads (7XV5103-1AAxx) shall be supplied to connect
the Siemens FO to Serial converter and the rear service port C on Siemens V4 Relay. 19.8. 7 No. Twin 62.5/125μm ST-ST terminated fibre patch leads shall be provided (length as
required) to connect the mini star coupler to the following 220 kV bay relays: Coupler K1 220 kV 7SJ611,Knockanure 220 kV 7SA612,SA 1-2 220 kV 7SJ611,SB 1-2 220 kV 7SJ611,
Ballyvouskil 220 kV 7SA612,Coupler K2 220 kV 7SJ611,T2102 220 kV 7SA612.
19.9. 6 No. Twin 62.5/125μm ST-ST terminated fibre patch leads shall be provided (length asrequired) to connect the mini star coupler to the following 110 kV bay relays:
Coupler K1 110 kV 7SJ611,SA 1-2 110 kV 7SJ611,SB 1-2 110 kV 7SJ611,
Cordal 110 kV 7SA612,Coupler K2 110 kV 7SJ611,T2102 110 kV 7SA612.
19.10. 2 No. Twin 62.5/125μm ST-ST terminated fibre patch leads (length as required) shallbe run between the Disturbance Recorder cabinet in the 220 kV control room and theDisturbance Recorder cabinet in the 110 kV control room.
19.11. Fibre should be run to all spare/future bays where cabinets are in place. If cabinetsare not in place, fibres should be ordered and run at a later stage.
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20. Time Synchronisation20.1. All Siemens V4 and Toshiba protection relays to be provided with IRIG-B time
synchronisation from a dedicated GPS-synchronised time source. In the case ofdistributed SCS stations the SCS clock is acceptable (no additional work), but incentralised stations a suitable dedicated clock (e.g. Hopf 6875, Siemens Order Code #
7XV5664-0AA00) GPS antenna, and surge arrestor (e.g. Hopf 4495, Siemens Order Code #7XV5664-0LA00)should be installed. The clock should provide IRIG-B time synchronisationto the relays as follows:
SiemensV4 relays - These relays have a dedicated 9pin DSub serial port on thebackpane. The optical output of the GPS clock should be connected via a twin62.5/125 μm ST-ST terminated fibre patch lead to the Siemens Time Synctransceiver (Order Code # 7XV5654-0BA00). The RS485 output of the time synctransceiver is connected in daisy-chain fashion to all the Siemens relays usingSiemens cable 7XV5104-0AAxx.
Toshiba relays - These relays have dedicated BNC (coaxial) ports on the backpane.The BNC output of the clock should be connected in a daisy-chain fashion to all
Toshiba GRL100 and GRZ100 relays using standard coaxial cable. A BNC T-connector should be used to connect the coaxial cable daisy-chain to eachrelay.
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e .
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S i g n a l F r o m
G P S T i m e S o u r c e
( F L 2 )
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21. NCC Signal List - Ballynahulla
Bay Relay NCC TextKnockanure 220 kV 7SA612 7SA RELAY FAIL
7SA VTMCB TRIP
7SA DIST. km7SA DCEF RX7SA DCEF PU7SA DCEF REV PU7SA DCEF TRIP7SA DCEF TX7SA R PHASE PU7SA S PHASE PU7SA T PHASE PU7SA NEUTRAL PU7SA RECL CMD
7SA REVERSE PU7SA T2 EXPIRED7SA DIST TRIP7SA POTT RX7SA POTT TX7SA TRIP 1P
GRL100 GRL100 DIST TRIPGRL100 DIFF TRIPGRL RECL CMDGRL POTT RXGRL POTT TXGRL COMMS FAILGRL RELAY FAILGRL TRIP 1P
PLC Interface Carrier FailABB TEBIT Device FAIL
AR BLK Rx
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Bay Relay NCC TextBallyvouskill 220 kV 7SA612 7SA RELAY FAIL
7SA VTMCB TRIP7SA DIST. km7SA DCEF RX
7SA DCEF PU7SA DCEF REV PU7SA DCEF TRIP7SA DCEF TX7SA R PHASE PU7SA S PHASE PU7SA T PHASE PU7SA NEUTRAL PU7SA RECL CMD7SA REVERSE PU7SA T2 EXPIRED
7SA DIST TRIP7SA POTT RX7SA POTT TX7SA TRIP 1P
GRL100 GRL100 DIST TRIPGRL100 DIFF TRIPGRL RECL CMDGRL POTT RXGRL POTT TXGRL COMMS FAILGRL RELAY FAIL
GRL TRIP 1PPLC Interface Carrier FailABB TEBIT Device FAIL
AR BLK Rx
Bay Relay NCC Text220 kV SCB SA1-2 7SJ611 7SJ RELAY FAIL
7SJ TRIP220 kV SCB SB1-2 7SJ611 7SJ RELAY FAIL
7SJ TRIP220 kV Coupler K1 7SJ611 7SJ RELAY FAIL
7SJ TRIP220 kV Coupler K2 7SJ611 7SJ RELAY FAIL
7SJ TRIP
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Bay Relay NCC TextT2102 7SA612 220 kV 7SA RELAY FAIL
7SA VTMCB TRIP7SA DIST. km
7SA R PHASE PU7SA S PHASE PU7SA T PHASE PU7SA NEUTRAL PU7SA REVERSE PU7SA T2 EXPIRED7SA FWD TRIP7SA REV TRIP
7SA612 110 kV 7SA RELAY FAIL7SA VTMCB TRIP7SA DIST. km
7SA R PHASE PU7SA S PHASE PU7SA T PHASE PU7SA NEUTRAL PU7SA REVERSE PU7SA T2 EXPIRED7SA FWD TRIP7SA REV TRIP
RET670 RET DIFF TRIPRET REF TRIPRET RELAY FAIL
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Bay Relay NCC Signal TextBZP/CBF Protection220kV
GRB100 GRB100 INSP/MTCE SWITCH –
KNOCKANUREGRB100 INSP/MTCE SWITCH – BALLYVOUSKILL
GRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – COUPLERK1GRB100 INSP/MTCE SWITCH – COUPLERK2GRB100 INSP/MTCE SWITCH – SA1-2GRB100 INSP/MTCE SWITCH – SB1-2GRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – T2102
GRB100 GRB100 BBP OFF (COMMON)GRB100 CBF OFF (COMMON)GRB100 TRIPS BLKED (COMMON)GRB100 OPEN CT (COMMON)GRB100 OUT OF SERV (PER BAY)GRB100 CBF RETRIP (PER BAY)GRB100 CBF BB TRIP (PER BAY)GRB100 ZONE TRIP (PER BAY)GRB100 CB FAULTY (PER BAY)
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Bay Relay NCC TextCordal 110 kV 7SA612 7SA RELAY FAIL
7SA VTMCB TRIP7SA DIST. km7SA DCEF RX
7SA DCEF PU7SA DCEF REV PU7SA DCEF TRIP7SA DCEF TX7SA R PHASE PU7SA S PHASE PU7SA T PHASE PU7SA NEUTRAL PU7SA RECL CMD7SA REVERSE PU7SA T2 EXPIRED
7SA DIST TRIP7SA SPS Operation7SA POTT RX7SA POTT TX
GRL100 GRL100 DIST TRIPGRL100 DIFF TRIPGRL RECL CMDGRL POTT RXGRL POTT TXGRL COMMS FAILGRL RELAY FAIL
ABB TEBIT Device FAILAR BLK Rx
Bay Relay NCC Text110 kV SCB SA1-2 7SJ611 7SJ RELAY FAIL
7SJ TRIP110 kV SCB SB1-2 7SJ611 7SJ RELAY FAIL
7SJ TRIP110 kV Coupler K1 7SJ611 7SJ RELAY FAIL
7SJ TRIP110 kV Coupler K2 7SJ611 7SJ RELAY FAIL
7SJ TRIP
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Bay Relay NCC Signal TextBZP/CBF Protection110kV
GRB100 GRB100 INSP/MTCE SWITCH – SPARE
GRB100 INSP/MTCE SWITCH – CORDALGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – COUPLERK1GRB100 INSP/MTCE SWITCH – COUPLERK2GRB100 INSP/MTCE SWITCH – SA1-2GRB100 INSP/MTCE SWITCH – SB1-2GRB100 INSP/MTCE SWITCH – SPAREGRB100 INSP/MTCE SWITCH – T2102
GRB100 GRB100 BBP OFF (COMMON)GRB100 CBF OFF (COMMON)GRB100 TRIPS BLKED (COMMON)GRB100 OPEN CT (COMMON)GRB100 OUT OF SERV (PER BAY)GRB100 CBF RETRIP (PER BAY)GRB100 CBF BB TRIP (PER BAY)GRB100 ZONE TRIP (PER BAY)GRB100 CB FAULTY (PER BAY)
Bay Relay NCC Signal TextCONTROLLED SYNCSCHEME
Siemens SCS or ABBSYNCHROTACT 5 CONTROLLED SYNC MODE SELECTED
VOLTAGES MATCHEDFREQUENCIES MATCHEDSLIP WITHIN TOLERANCEPHASE ANGLES MATCHEDSYNC RELAY CLOSE COMMANDSYNC RELAY FAIL
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Ballynahulla SPS PI & Command list
Bay Relay NCC Text
Cordal SPS Commands SPS ON COMMAND
SPS OFF COMMANDSPS Position Indication SPS ON
SPS OFF
SPS sub remote control
indicationSPS SUB RC ON
SPS SUB RC OFF
22. NCC Signal List - Knockanure
As Specified in CP0500
23. NCC Signal List – Ballyvouskill
As Specified in CP0650
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CP0651 Ballynahulla 220 kV Station
Version Dated Modifications Prepared By1.0 06-Feb-12 First Issue Ray Dorney
Ray Doyle2.0 26-Mar-12 Station name change to Ballynahulla
Removal of Glenlara signals, now a spare bayRay DorneyRay Doyle
3.0 13-Sep-13 T2101 added as per revised SLD Ray DorneyMiriam Ryan (PSP&M)
4.0 13-Feb-14 T2101 removed as per revised SLD Ray DorneyMiriam Ryan (PSP&M)
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4.0 13-Feb-14
Digital Input Signals (to EirGrid) To be provi ded By: Comment
Double Poin t S ta tus Ind ica t ions (P. I ) (each individual input identified separately for clarity)
220 kV Busbar
In Ballynahulla 220 kV Station, on the 220 kV Sectionaliser SA1-2 Bay (F0A):220kV SA1-2 CB open ESB Networks220kV SA1-2 CB closed ESB Networks220kV Sectionaliser SA1-2 SA1 open ESB Networks
220kV Sectionaliser SA1-2 SA1 closed ESB Networks220kV Sectionaliser SA1-2 SA2 open ESB Networks220kV Sectionaliser SA1-2 SA2 closed ESB Networks
220kV Sectionaliser SA1-2 CB Direct/Synch Direct/Synch double bit ESB Networks220kV Sectionaliser SA1-2 CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode is
disabled on the bay
220kV Sectionaliser SA1-2 Bay Sub Remote Control Switch off (Local) ESB Networks220kV Sectionaliser SA1-2 Bay Sub Remote Control Switch on (Remote) ESB Networks
220kV Sectionaliser SA1-2 NCC/Local Switch Local ESB Networks220kV Sectionaliser SA1-2 NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Sectionaliser SB1-2 Bay (F0B):220kV SB1-2 CB open ESB Networks220kV SB1-2 CB closed ESB Networks220kV Sectionaliser SB1-2 SB1 open ESB Networks220kV Sectionaliser SB1-2 SB1 closed ESB Networks220kV Sectionaliser SB1-2 SB2 open ESB Networks220kV Sectionaliser SB1-2 SB2 closed ESB Networks
220kV Sectionaliser SB1-2 Bay CB Direct/Synch Direct/Synch double bit ESB Networks220kV Sectionaliser SB1-2 CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode is
disabled on the bay
220kV Sectionaliser SB1-2 Bay Sub Remote Control Switch off (Local) ESB Networks220kV Sectionaliser SB1-2 Bay Sub Remote Control Switch on (Remote) ESB Networks
220kV Sectionaliser SB1-2 NCC/Local Switch Local ESB Networks220kV Sectionaliser SB1-2 NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the Knockanure 220 kV Bay (F1):Knockanure 220kV DA open ESB NetworksKnockanure 220kV DA closed ESB NetworksKnockanure 220kV DB open ESB NetworksKnockanure 220kV DB closed ESB NetworksKnockanure 220kV CB open ESB NetworksKnockanure 220kV CB closed ESB NetworksKnockanure 220kV DL open ESB NetworksKnockanure 220kV DL closed ESB NetworksKnockanure 220kV DE open ESB NetworksKnockanure 220kV DE closed ESB Networks
Knockanure CB Bay Direct/Synch Direct/Synch double bit ESB Networks Each 220 kV bay will have a direct/synch in anSCS station
Knockanure 220kV CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode isdisabled on the bay
Knockanure 220kV Bay Sub Remote Control Switch off (Local) ESB NetworksKnockanure 220kV Bay Sub Remote Control Switch on (Remote) ESB Networks
Knockanure 220kV NCC/Local Switch Local ESB NetworksKnockanure 220kV NCC/Local Switch NCC ESB Networks
Knockanure 220kV Bay Auto Reclosing off ESB NetworksKnockanure 220kV Bay Auto Reclosing on ESB Networks
In Ballynahulla 220 kV Station, on the T2102 220 kV Bay (F2):T2102 220kV DA open ESB NetworksT2102 220kV DA closed ESB NetworksT2102 220kV DB open ESB NetworksT2102 220kV DB closed ESB NetworksT2102 220kV CB open ESB NetworksT2102 220kV CB closed ESB Networks
T2102 220kV Bay Sub Remote Control Switch off (Local) ESB NetworksT2102 220kV Bay Sub Remote Control Switch on (Remote) ESB Networks
T2102 220kV NCC/Local Switch Local ESB NetworksT2102 220kV NCC/Local Switch NCC ESB Networks
T2102 OLTC Local/Remote Control Switch (Tap) off (Local) ESB NetworksT2102 OLTC Local/Remote Control Switch (Tap) on (Remote) ESB Networks
In Ballynahulla 220 kV Station, on the Ballyvouskill 220 kV Bay (F4):Ballyvouskill 220kV DA open ESB NetworksBallyvouskill 220kV DA closed ESB NetworksBallyvouskill 220kV DB open ESB NetworksBallyvouskill 220kV DB closed ESB NetworksBallyvouskill 220kV CB open ESB NetworksBallyvouskill 220kV CB closed ESB Networks
Ballyvouskill 220kV DL open ESB NetworksBallyvouskill 220kV DL closed ESB NetworksBallyvouskill 220kV DE open ESB NetworksBallyvouskill 220kV DE closed ESB Networks
Ballyvouskill CB Bay Direct/Synch Direct/Synch double bit ESB Networks Each 220 kV bay will have a direct/synch in anSCS station
Ballyvouskill 220kV CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode isdisabled on the bay
Ballyvouskill 220kV Bay Sub Remote Control Switch off (Local) ESB NetworksBallyvouskill 220kV Bay Sub Remote Control Switch on (Remote) ESB Networks
Ballyvouskill 220kV NCC/Local Switch Local ESB NetworksBallyvouskill 220kV NCC/Local Switch NCC ESB Networks
Ballyvouskill 220kV Bay Auto Reclosing off ESB NetworksBallyvouskill 220kV Bay Auto Reclosing on ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Coupler K1 Bay (F9):220kV K1 DA open ESB Networks220kV K1 DA closed ESB Networks220kV K1 DB open ESB Networks220kV K1 DB closed ESB Networks220kV K1 CB open ESB Networks220kV K1 CB closed ESB Networks
220kV K1 CB Direct/Synch Direct/Synch double bit ESB Networks220kV K1 CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode isdisabled on the bay
K1 220kV Bay Sub Remote Control Switch off (Local) ESB NetworksK1 220kV Bay Sub Remote Control Switch on (Remote) ESB Networks
K1 220kV Bay NCC/Local Switch Local ESB NetworksK1 220kV Bay NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Coupler K2 Bay (F10):
Ballynahulla 220 kV SCS GIS Station SIGNAL LISTased on: XDN-SLD-CP651-F-BYH-001 Rev06 10/01/2014
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
XDN-SLD-CP651-F-BYH-001 Rev 06
PSOP (Ballynahulla)
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220kV K2 DA open ESB Networks220kV K2 DA closed ESB Networks220kV K2 DB open ESB Networks220kV K2 DB closed ESB Networks220kV K2 CB open ESB Networks220kV K2 CB closed ESB Networks
220kV K2 CB Direct/Synch Direct/Synch double bit ESB Networks220kV K2 CB Controlled Synch OFF/Controlled Synch ON off/on (double bit) ESB Networks When in the ON position Synch/Direct mode is
disabled on the bay
K2 220kV Bay Sub Remote Control Switch off (Local) ESB NetworksK2 220kV Bay Sub Remote Control Switch on (Remote) ESB Networks
K2 220kV Bay NCC/Local Switch Local ESB NetworksK2 220kV Bay NCC/Local Switch NCC ESB Networks
110 kV Busbar
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SA1-2 Bay (H0A):110kV SA1-2 CB open ESB Networks110kV SA1-2 CB closed ESB Networks110kV Sectionaliser SA1-2 SA1 open ESB Networks110kV Sectionaliser SA1-2 SA1 closed ESB Networks110kV Sectionaliser SA1-2 SA2 open ESB Networks110kV Sectionaliser SA1-2 SA2 closed ESB Networks
110kV Sectionaliser SA1-2 CB Direct/Synch Direct/Synch double bit ESB Networks
110kV Sectionaliser SA1-2 Bay Sub Remote Control Switch off (Local) ESB Networks110kV Sectionaliser SA1-2 Bay Sub Remote Control Switch on (Remote) ESB Networks
110kV Sectionaliser SA1-2 NCC/Local Switch Local ESB Networks110kV Sectionaliser SA1-2 NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SB1-2 Bay (H0B):110kV SB1-2 CB open ESB Networks110kV SB1-2 CB closed ESB Networks110kV Sectionaliser SB1-2 SB1 open ESB Networks110kV Sectionaliser SB1-2 SB1 closed ESB Networks110kV Sectionaliser SB1-2 SB2 open ESB Networks110kV Sectionaliser SB1-2 SB2 closed ESB Networks
110kV Sectionaliser SB1-2 CB Direct/Synch Direct/Synch double bit ESB Networks
110kV Sectionaliser SB1-2 Bay Sub Remote Control Switch off (Local) ESB Networks110kV Sectionaliser SB1-2 Bay Sub Remote Control Switch on (Remote) ESB Networks
110kV Sectionaliser SB1-2 NCC/Local Switch Local ESB Networks110kV Sectionaliser SB1-2 NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the T2102 110 kV Bay (H2):T2102 110kV DA open ESB NetworksT2102 110kV DA closed ESB NetworksT2102 110kV DB open ESB NetworksT2102 110kV DB closed ESB NetworksT2102 110kV CB open ESB NetworksT2102 110kV CB closed ESB NetworksT2102 110kV Neutral Earth open ESB NetworksT2102 110kV Neutral Earth closed ESB Networks
T2102 110kV Bay Sub Remote Control Switch off (Local) ESB NetworksT2102 110kV Bay Sub Remote Control Switch on (Remote) ESB Networks
T2102 110kV NCC/Local Switch Local ESB NetworksT2102 110kV NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the Cordal 110 kV Bay (H4):Cordal 110kV DA open ESB NetworksCordal 110kV DA closed ESB NetworksCordal 110kV DB open ESB NetworksCordal 110kV DB closed ESB NetworksCordal 110kV CB open ESB NetworksCordal 110kV CB closed ESB NetworksCordal 110kV DL open ESB NetworksCordal 110kV DL closed ESB NetworksCordal 110kV DE open ESB NetworksCordal 110kV DE closed ESB Networks
Cordal 110kV CB Direct/Synch Direct/Synch double bit ESB Networks
Cordal 110kV Bay Sub Remote Control Switch off (Local) ESB NetworksCordal 110kV Bay Sub Remote Control Switch on (Remote) ESB Networks
Cordal 110kV NCC/Local Switch Local ESB NetworksCordal 110kV NCC/Local Switch NCC ESB Networks
Cordal 110kV Bay Auto Reclosing off ESB NetworksCordal 110kV Bay Auto Reclosing on ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Coupler K1 Bay (H9):110kV K1 DA open ESB Networks110kV K1 DA closed ESB Networks110kV K1 DB open ESB Networks110kV K1 DB closed ESB Networks110kV K1 CB open ESB Networks110kV K1 CB closed ESB Networks
110kV K1 CB Direct/Synch Direct/Synch double bit ESB Networks
K1 110kV Bay Sub Remote Control Switch off (Local) ESB NetworksK1 110kV Bay Sub Remote Control Switch on (Remote) ESB Networks
K1 110kV Bay NCC/Local Switch Local ESB NetworksK1 110kV Bay NCC/Local Switch NCC ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Coupler K2 Bay (H10):110kV K2 DA open ESB Networks110kV K2 DA closed ESB Networks110kV K2 DB open ESB Networks110kV K2 DB closed ESB Networks110kV K2 CB open ESB Networks110kV K2 CB closed ESB Networks
110kV K2 CB Direct/Synch Direct/Synch double bit ESB Networks
K2 110kV Bay Sub Remote Control Switch off (Local) ESB NetworksK2 110kV Bay Sub Remote Control Switch on (Remote) ESB Networks
K2 110kV Bay NCC/Local Switch Local ESB NetworksK2 110kV Bay NCC/Local Switch NCC ESB Networks
Misce l laneous Double Poin t S ta tus Ind ica t ions (P. I ) 220kV Station Blue Alert off ESB Networks220kV Station Blue Alert on ESB Networks220kV Station Blue Alert Acknowledge off ESB Networks220kV Station Blue Alert Acknowledge on ESB Networks
Station Local/Remote Control switch (Master) off (Local) ESB TelecomsStation Local/Remote Control switch (Master) on (Remote) ESB Telecoms
Remote Control Test Command off ESB TelecomsRemote Control Test Command on ESB Telecoms
Single Poin t S ta tus Ind ica t ions Pre-Switch Siren off/on (single bit) ESB Networks
Analogue Input Signals (to EirGrid) To be provided by:
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
This is a common PI from all the controlswitches on the bay
PSOP (Ballynahulla)
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220 kV Busbar
In Knockanure 220 kV Station, on the 220 kV Sectionaliser SA1-2 Bay (F0A):220kV Sectionaliser SA1-2 Amps 0 - 3500 0.5/100 Amps ESB Networks220kV Sectionaliser SA1-2 MW -1600 - 0 - +1600 0.5/100 MW ESB Networks
220kV Sectionaliser SA1-2 MVAr -800 -0 - +800 0.5/100 MVAr ESB Networks
220kV Sectionaliser SA1-2 MVA -1600 - 0 - +1600 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the 220 kV Sectionaliser SB1-2 Bay (F0B):220kV Sectionaliser SB1-2 Amps 0 - 3500 0.5/100 Amps ESB Networks220kV Sectionaliser SB1-2 MW -1600 - 0 - +1600 0.5/100 MW ESB Networks
220kV Sectionaliser SB1-2 MVAr -800 -0 - +800 0.5/100 MVAr ESB Networks
220kV Sectionaliser SB1-2 MVA -1600 - 0 - +1600 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the Knockanure 220 kV Bay (F1):Knockanure 220kV kV 0 - 264 0.5/100 kV ESB NetworksKnockanure 220kV MW -1600 - 0 - +1600 0.5/100 MW ESB NetworksKnockanure 220kV MVAr -800 -0 - +800 0.5/100 MVAr ESB NetworksKnockanure 220kV Amps 0 - 2500 0.5/100 Amps ESB Networks A single phase will suffice
In Ballynahulla 220 kV Station, on the T2102 220 kV Bay (F2):T2102 220kV kV 0 - 264 0.5/100 kV ESB NetworksT2102 220kV MW -600 - 0 - +600 0.5/100 MW ESB NetworksT2102 220kV MVAr -300 -0 - +300 0.5/100 MVAr ESB NetworksT2102 220kV Amps 0 - 1000 0.5/100 Amps ESB Networks A single phase will suffice
T2102 Tap Position 4-20 mA 0 - 17 1/100 Taps ESB Networks
In Ballynahulla 220 kV Station, on the Ballyvouskill 220 kV Bay (F4):Ballyvouskill 220kV kV 0 - 264 0.5/100 kV ESB NetworksBallyvouskill 220kV MW -1600 - 0 - +1600 0.5/100 MW ESB NetworksBallyvouskill 220kV MVAr -800 -0 - +800 0.5/100 MVAr ESB NetworksBallyvouskill 220kV Amps 0 - 2500 0.5/100 Amps ESB Networks A single phase will suffice
In Ballynahulla 220 kV Station, on the 220 kV Coupler K1 Bay (F9):220kV Coupler K1 Amps 0 - 3500 0.5/100 Amps ESB Networks220kV Coupler K1 MW -1600 - 0 - +1600 0.5/100 MW ESB Networks
220kV Coupler K1 MVAr -800 -0 - +800 0.5/100 MVAr ESB Networks
220kV Coupler K1 MVA -1600 - 0 - +1600 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the 220 kV Coupler K2 Bay (F10):220kV Coupler K2 Amps 0 - 3500 0.5/100 Amps ESB Networks220kV Coupler K2 MW -1600 - 0 - +1600 0.5/100 MW ESB Networks
220kV Coupler K2 MVAr -800 -0 - +800 0.5/100 MVAr ESB Networks
220kV Coupler K2 MVA -1600 - 0 - +1600 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
110 kV Busbar
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SA1-2 Bay (H0A):110kV SA1-2 Amps 0 - 2500 0.5/100 Amps ESB Networks110kV SA1-2 MW -570 - 0 - +570 0.5/100 MW ESB Networks
110kV SA1-2 MVAr -285 -0 - +285 0.5/100 MVAr ESB Networks
110kV SA1-2 MVA -570 - 0 - +570 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SB1-2 Bay (H0B):110kV SB1-2 Amps 0 - 2500 0.5/100 Amps ESB Networks110kV SB1-2 MW -570 - 0 - +570 0.5/100 MW ESB Networks
110kV SB1-2 MVAr -285 -0 - +285 0.5/100 MVAr ESB Networks
110kV SB1-2 MVA -570 - 0 - +570 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the T2102 110 kV Bay (H2):T2102 110kV kV 0 - 132 1/100 kV ESB NetworksT2102 110kV MW -450 - 0 - +450 0.5/100 MW ESB NetworksT2102 110kV MVAr -225 -0 - +225 0.5/100 MVAr ESB NetworksT2102 110kV Amps 0 - 2000 0.5/100 Amps ESB Networks A single phase will suffice
In Ballynahulla 220 kV Station, on the Cordal 110 kV Bay (H4):Cordal 110kV kV 0 - 132 1/100 kV ESB NetworksCordal 110kV MW -285- 0 - +285 0.5/100 MW ESB NetworksCordal 110kV MVAr -140 -0 - +140 1/100 MVAr ESB NetworksCordal 110kV Amps 0 - 1250 0.5/100 Amps ESB Networks A single phase will suffice
In Ballynahulla 220 kV Station, on the 110 kV Coupler K1 Bay (H9):110kV K1 Amps 0 - 2500 0.5/100 Amps ESB Networks110kV K1 MW -570 - 0 - +570 0.5/100 MW ESB Networks
110kV K1 MVAr -285 -0 - +285 0.5/100 MVAr ESB Networks
110kV K1 MVA -570 - 0 - +570 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
In Ballynahulla 220 kV Station, on the 110 kV Coupler K2 Bay (H10):110kV K2 Amps 0 - 2500 0.5/100 Amps ESB Networks110kV K2 MW -570 - 0 - +570 0.5/100 MW ESB Networks
110kV K2 MVAr -285 -0 - +285 0.5/100 MVAr ESB Networks
110kV K2 MVA -570 - 0 - +570 0.5/100 MVA ESB Networks Only MVA should be displayed on EMS
Digital Output Signals (from EirGrid) To be provided to:
Double Command Outputs (Remote Cont ro l ) (each individual relay output identified separately)
220 kV Busbar
In Ballynahulla 220 kV Station, on the 220 kV Sectionaliser SA1-2 Bay (F0A):220kV SA1-2 CB open pulse 0.5 second ESB Networks220kV SA1-2 CB closed pulse 0.5 second ESB Networks220kV Sectionaliser SA1-2 SA1 open pulse 0.5 second ESB Networks220kV Sectionaliser SA1-2 SA1 closed pulse 0.5 second ESB Networks220kV Sectionaliser SA1-2 SA2 open pulse 0.5 second ESB Networks220kV Sectionaliser SA1-2 SA2 closed pulse 0.5 second ESB Networks
220kV Sectionaliser SA1-2 CB Direct/Synch Direct/Synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Sectionaliser SB1-2 Bay (FBA):220kV SB1-2 CB open pulse 0.5 second ESB Networks220kV SB1-2 CB closed pulse 0.5 second ESB Networks220kV Sectionaliser SB1-2 SB1 open pulse 0.5 second ESB Networks220kV Sectionaliser SB1-2 SB1 closed pulse 0.5 second ESB Networks220kV Sectionaliser SB1-2 SB2 open pulse 0.5 second ESB Networks220kV Sectionaliser SB1-2 SB2 closed pulse 0.5 second ESB Networks
220kV Sectionaliser SB1-2 CB Direct/Synch Direct/Synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the Knockanure 220 kV Bay (F1):Knockanure 220kV DA open pulse 0.5 second ESB NetworksKnockanure 220kV DA closed pulse 0.5 second ESB NetworksKnockanure 220kV DB open pulse 0.5 second ESB NetworksKnockanure 220kV DB closed pulse 0.5 second ESB NetworksKnockanure 220kV CB open pulse 0.5 second ESB NetworksKnockanure 220kV CB closed pulse 0.5 second ESB Networks
Knockanure Bay CB Direct/Synch Direct/Synch doubl pulse 0.5 second ESB Networks
Knockanure 220kV Auto Reclosing off pulse 0.5 second ESB NetworksKnockanure 220kV Auto Reclosing on pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the T2102 220 kV Bay (F2):T2102 220kV DA open pulse 0.5 second ESB Networks
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
The SCS should be programmed to performthis calculation using a voltage from a suitableline bay
PSOP (Ballynahulla)
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T2102 220kV DA closed pulse 0.5 second ESB NetworksT2102 220kV DB open pulse 0.5 second ESB NetworksT2102 220kV DB closed pulse 0.5 second ESB NetworksT2102 220kV CB open pulse 0.5 second ESB NetworksT2102 220kV CB closed pulse 0.5 second ESB Networks
T2102 Tap Lower lower pulse 0.5 second ESB NetworksT2102 Tap Raise raise pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the Ballyvouskill 220 kV Bay (F4):Ballyvouskill 220kV DA open pulse 0.5 second ESB NetworksBallyvouskill 220kV DA closed pulse 0.5 second ESB NetworksBallyvouskill 220kV DB open pulse 0.5 second ESB NetworksBallyvouskill 220kV DB closed pulse 0.5 second ESB NetworksBallyvouskill 220kV CB open pulse 0.5 second ESB NetworksBallyvouskill 220kV CB closed pulse 0.5 second ESB Networks
Ballyvouskill Bay CB Direct/Synch Direct/Synch doubl pulse 0.5 second ESB Networks
Ballyvouskill 220kV Auto Reclosing off pulse 0.5 second ESB NetworksBallyvouskill 220kV Auto Reclosing on pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Coupler K1 Bay (F9):220kV K1 DA open pulse 0.5 second ESB Networks220kV K1 DA closed pulse 0.5 second ESB Networks220kV K1 DB open pulse 0.5 second ESB Networks220kV K1 DB closed pulse 0.5 second ESB Networks220kV K1 CB open pulse 0.5 second ESB Networks220kV K1 CB closed pulse 0.5 second ESB Networks
220kV K1 CB Direct/Synch direct/synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 220 kV Coupler K2 Bay (F10):220kV K2 DA open pulse 0.5 second ESB Networks220kV K2 DA closed pulse 0.5 second ESB Networks220kV K2 DB open pulse 0.5 second ESB Networks220kV K2 DB closed pulse 0.5 second ESB Networks220kV K2 CB open pulse 0.5 second ESB Networks220kV K2 CB closed pulse 0.5 second ESB Networks
220kV K2 CB Direct/Synch direct/synch pulse 0.5 second ESB Networks
110 kV Busbar
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SA1-2 Bay (H0A):110kV SA1-2 CB open pulse 0.5 second ESB Networks110kV SA1-2 CB closed pulse 0.5 second ESB Networks110kV Sectionaliser SA1-2 SA1 open pulse 0.5 second ESB Networks110kV Sectionaliser SA1-2 SA1 closed pulse 0.5 second ESB Networks110kV Sectionaliser SA1-2 SA2 open pulse 0.5 second ESB Networks110kV Sectionaliser SA1-2 SA2 closed pulse 0.5 second ESB Networks
110kV Sectionaliser SA1-2 Bay CB Direct/Synch Direct/Synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Sectionaliser SB1-2 Bay (H0B):110kV SB1-2 CB open pulse 0.5 second ESB Networks110kV SB1-2 CB closed pulse 0.5 second ESB Networks110kV Sectionaliser SB1-2 SB1 open pulse 0.5 second ESB Networks110kV Sectionaliser SB1-2 SB1 closed pulse 0.5 second ESB Networks110kV Sectionaliser SB1-2 SB2 open pulse 0.5 second ESB Networks110kV Sectionaliser SB1-2 SB2 closed pulse 0.5 second ESB Networks
110kV Sectionaliser SB1-2 Bay CB Direct/Synch Direct/Synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the T2102 110 kV Bay (H2):T2102 110kV DA open pulse 0.5 second ESB NetworksT2102 110kV DA closed pulse 0.5 second ESB NetworksT2102 110kV DB open pulse 0.5 second ESB NetworksT2102 110kV DB closed pulse 0.5 second ESB NetworksT2102 110kV CB open pulse 0.5 second ESB NetworksT2102 110kV CB closed pulse 0.5 second ESB NetworksT2102 110kV Neutral Earth Switch open pulse 0.5 second ESB NetworksT2102 110kV Neutral Earth Switch closed pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the Cordal 110 kV Bay (H4):Cordal 110kV DA open pulse 0.5 second ESB NetworksCordal 110kV DA closed pulse 0.5 second ESB NetworksCordal 110kV DB open pulse 0.5 second ESB NetworksCordal 110kV DB closed pulse 0.5 second ESB NetworksCordal 110kV CB open pulse 0.5 second ESB NetworksCordal 110kV CB closed pulse 0.5 second ESB Networks
Cordal 110 kV CB Direct/Synch direct/synch pulse 0.5 second ESB Networks
Cordal 110kV Bay Auto Reclosing off pulse 0.5 second ESB NetworksCordal 110kV Bay Auto Reclosing on pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Coupler K1 Bay (H9):110kV K1 DA open pulse 0.5 second ESB Networks110kV K1 DA closed pulse 0.5 second ESB Networks110kV K1 DB open pulse 0.5 second ESB Networks110kV K1 DB closed pulse 0.5 second ESB Networks110kV K1 CB open pulse 0.5 second ESB Networks110kV K1 CB closed pulse 0.5 second ESB Networks
110kV K1 CB Direct/Synch direct/synch pulse 0.5 second ESB Networks
In Ballynahulla 220 kV Station, on the 110 kV Coupler K2 Bay (H10):110kV K2 DA open pulse 0.5 second ESB Networks110kV K2 DA closed pulse 0.5 second ESB Networks
110kV K2 DB open pulse 0.5 second ESB Networks110kV K2 DB closed pulse 0.5 second ESB Networks110kV K2 CB open pulse 0.5 second ESB Networks110kV K2 CB closed pulse 0.5 second ESB Networks
110kV K2 CB Direct/Synch direct/synch pulse 0.5 second ESB Networks
Misce l laneous Double Command Outpu ts (Remote Cont ro l ) 220kV Station Blue Alert off pulse 0.5 second ESB Networks220kV Station Blue Alert on pulse 0.5 second ESB Networks
Remote Control Test Command off pulse 0.5 second ESB TelecomsRemote Control Test Command on pulse 0.5 second ESB Telecoms
Single Command Outputs Pre-Switch Siren On on pulse 0 .5 se co nd s E SB Ne tw or ks T hi s wi ll ti me ou t a ft er 30 se co nd s
Analogue Output Signals (from EirGrid)
None
General Station Monitoring Ganged Signal Title To be Provided By:
All s ing le b i t s igna ls (on ly new s igna ls l i s ted) Non Pro tec t ion a la rms
SA1-2 220kV CB LOW SF6 Gas Pressure off/on ESB NetworksSA1-2 220kV CB Pole discrepancy Trip. off/on ESB NetworksSA1-2 220kV CB Insufficient SF6 - CB OP blocked off/on ESB NetworksSA1-2 220kV CB SF6 Lockout - CB Op Blocked off/on ESB NetworksSA1-2 220kV CB Mech box fault off/on ESB NetworksSA1-2 220 kV Interlock bypassed switch off/on ESB NetworksSA1-2 220 kV SCS - BCU Internal Fault/Comms Fail to Prot. Device off/on ESB NetworksSA1-2 220 kV SCS BCU Comms Fail off/on ESB Networks
SB1-2 220kV CB LOW SF6 Gas Pressure off/on ESB NetworksSB1-2 220kV CB Pole discrepancy Trip. off/on ESB NetworksSB1-2 220kV CB Insufficient SF6 - CB OP blocked off/on ESB NetworksSB1-2 220kV CB SF6 Lockout - CB Op Blocked off/on ESB Networks
PSOP (Ballynahulla)
-
8/18/2019 CPP Ballynahulla Rev6
44/53
SB1-2 220kV CB Mech box fault off/on ESB NetworksSB1-2 I220 kV interlock bypassed switch off/on ESB NetworksSB1-2 220 kV SCS - BCU Internal Fault/Comms Fail to Prot. Device off/on ESB NetworksSB1-2 220 kV SCS BCU Comms Fail off/on ESB Networks
Knockanure 220kV CB LOW SF6 Gas Pressure off/on ESB NetworksKnockanure 220kV CB Pole discrepancy Trip. off/on ESB NetworksKnockanure 220kV CB Insufficient SF6 - CB OP blocked off/on ESB NetworksKnockanure 220kV CB SF6 Lockout - CB Op Blocked off/on ESB NetworksKnockanure 220kV CB Mech box fault off/on ESB NetworksKnockanure I220 kV interlock bypassed switch off/on ESB NetworksKnockanure 220 kV SCS - BCU Internal Fault/Comms Fail to Prot. Device off/on ESB NetworksKnockanure 220 kV SCS BCU Comms Fail off/on ESB Networks
T2102 220kV CB LOW SF6 Gas Pressure off/on ESB NetworksT2102 220kV CB SF6 Lockout - CB Op blocked off/on ESB NetworksT2102 220kV CB Insufficient SF6 - CB Op Blocked off/on ESB NetworksT2102 220kV CB Pole discrepancy Trip. off/on ESB NetworksT2102 220kV CB Mech box fault off/on ESB NetworksT2102 220kV Interlock bypassed switch off/on ESB NetworksT2102 110kV CB LOW SF6 Gas Pressure off/on ESB NetworksT2102 110kV CB SF6 Lockout - CB Op Blocked off/on ESB NetworksT2102 110kV CB Insufficient SF6 - CB Op Blocked off/on ESB NetworksT2102 110kV CB Mech box fault off/on ESB NetworksT2102 110kV Interlock bypassed switch off/on ESB NetworksT2102 SCS - BCU Internal Fault/Comms Fail to Prot. Device off/on ESB NetworksT2102 SCS BCU Comms Fail off/on ESB Networks
T2102 Tap Change in Progress off/on ESB NetworksT2102 Oil Temp Alarm off/on ESB NetworksT2102 Oil Temp Trip off/on ESB NetworksT2102 Low Oil Alarm off/on ESB NetworksT2102 Winding Temp Alarm off/on ESB NetworksT2102 Winding Temp Trip off/on ESB NetworksT2102 Buchholz Alarm off/on ESB NetworksT2102 Buchholz Trip off/on ESB NetworksT2102 Pressure Surge Trip off/on ESB NetworksT2102 Fan Fault off/on ESB NetworksT2102 Pressure Relief Alarm off/on ESB NetworksT2102 Hydran Fail off/on ESB NetworksT2102 Hydran Gas Alarm off/on ESB NetworksT2102 Mini Trans High Gas Alarm off/on ESB NetworksT2102 Mini Trans Unit Fail Alarm off/on ESB NetworksT2102 OLTC Gas Pressure Alarm off/on ESB NetworksT2102 OLTC Mech Box Fault off/on ESB Networks
Ballyvouskill 220kV CB LOW SF6 Gas Pressure off/on ESB NetworksBallyvouskill 220kV CB Pole discrepancy Trip. off/on ESB NetworksBallyvouskill 220kV CB Insufficient SF6 - CB OP blocked off/on ESB NetworksBallyvouskill 220kV CB SF6 Lockout - CB Op Blocked off/on ESB NetworksBallyvouskill 220kV CB Mech box fault off/on ESB NetworksBallyvouskill I220 kV interlock bypassed switch off/on ESB NetworksBallyvouskill 220 kV SCS -