Upload
tranthuan
View
231
Download
1
Embed Size (px)
Citation preview
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION
Engineering Specification
Electrical Networks
MESP 000003-10
MODULAR SUBSTATION USER REQUIREMENTS
Version: 2
Issued: November 2015
Owner: Head of Engineering/Electrical
Approved By:
Head of Engineering/Electrical
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 2 of 16
Approval
Name Position Signature
Document Author
George Marulli Manager
Substation Engineering
Document Endorsers
Stel Mottek Design and
Review Manager
Approving Manager
Andrew Russack Head of
Engineering/ Electrical
Amendment Record
Approval Date Version Description
07/04/2014 1 Initial issue under MTM
10/11/2015 2 Revised
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 3 of 16
Table of Contents
1 Purpose ........................................................................................................................... 4
2 Scope ............................................................................................................................... 4
3 Abbreviations .................................................................................................................. 4
4 Definitions ....................................................................................................................... 5
5 References and Legislation ........................................................................................... 6
5.1 MTM References .............................................................................................................. 6
5.2 Rail Industry References .................................................................................................. 7
5.3 Australian References and Legislation ............................................................................. 7
5.4 International References ................................................................................................... 7
6 Related Documents ........................................................................................................ 8
7 Safety and Environmental .............................................................................................. 8
8 Type Approval ................................................................................................................. 8
9 System Requirements .................................................................................................... 8
10 Functional Requirements ............................................................................................... 8
11 User Requirements ......................................................................................................... 9
11.1 Design Criteria .................................................................................................................. 9
11.2 Process for Module Determination of Module Configuration ............................................ 9
11.3 Module Configuration ...................................................................................................... 10
11.4 Standard Modules ........................................................................................................... 13
11.4.1 1500V DC Power Switching Module ............................................................. 13
11.4.2 AC/DC Power Conversion Module ............................................................... 13
11.4.3 HV AC Switching Module .............................................................................. 14
11.4.4 Essential Services (Signal) Power Conversion and Switching Module ........ 15
11.4.5 Industrial Substation Module ........................................................................ 15
11.5 Future Modules ............................................................................................................... 16
11.6 Housing and Civil Requirements .................................................................................... 16
11.6.1 Module Arrangement .................................................................................... 16
11.6.2 Civil Requirements ........................................................................................ 16
11.6.3 Transport ....................................................................................................... 16
11.6.4 Design Requirements ................................................................................... 16
12 Equipment Specifications ............................................................................................ 16
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 4 of 16
1 Purpose
This document details the MTM technical and performance User Requirements for new Standardised Modular Substations.
2 Scope
This document shall apply to all new MTM Substations, Tiestations, Switching Substations, Industrial Substations and Essential Services (Signal) Power Substations.
For the purposes of this document Standardised Modular Substations shall refer to all five configurations, as defined in Section 4.
This User Requirements specification is a high-level document that details the Module Inputs and Outputs, defines the functional Modules, the interfaces between the Modules and the interface between the Modules to the existing Rail Network.
This document covers only details which are not site-specific. Electrical facilities designed in accordance with the requirements of this document should be standardised, aside from site-specific issues which shall be considered case by case.
The scope is based on the fundamental principle of standardisation of design, constructability, operation and maintainability.
3 Abbreviations
ACCB Alternating Current Circuit Breaker
DCCB Direct Current Circuit Breaker
Electrol Electrical Control and Monitoring Centre
MTM Metro Trains Melbourne
OEM Original Equipment Manufacturer
PTV Public Transport Victoria
RAMS Reliability, Availability, Maintainability, Safety
RTU Remote Terminal Unit of SCADA system
SCADA Supervisory Control and Data Acquisition
TDU Thyristor Drainage Unit
HV High Voltage
DC Direct Current
AC Alternating Current
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 5 of 16
4 Definitions
Module An assembly, including the building which contains all the electrical apparatus necessary to perform a specific electrical function.
Substation The part of the Traction, High Voltage Distribution, Industrial Power Supply or Essential Services System concentrated in a given place, including mainly the terminations of transmission or distribution lines switchgear and housing and which may also include transformers and facilities necessary for system security and control. According to the nature of the system within which the substation is included a prefix is used to qualify it as per AS 1852 (605-01) -1988. Accordingly for the purpose of this document the following shall be defined:
Traction Substation
The building and all equipment including transformers and rectifiers providing energy for the metropolitan railway (Refer MEST 000002-01 Part 4)
Industrial Substation
The building and all equipment including transformers and switchgear providing energy to industrial and customer facilities such as train maintenance depots, wash plants , workshops, yard lighting and railway stations . The Industrial Substation converts HV AC power from the Industrial Power Supply system or High Voltage Distribution Network to LV AC power. (Refer L1-CHE-STD-015 Part 4.7).
Essential Services (Signal) Power Substation
The building and all equipment including switchgear, sourced from Traction Substations or other source providing energy for the signalling, communications and other electrical systems essential for the safe and reliable operation of the railway as defined in L1-CHE-STD-015 Section 17.
Switching Substation
The building and all equipment including HV AC switchgear and protection, but excluding power transformers for the purpose of the distribution of incoming HVAC supplies to HVAC feeders.
Tiestation
The building and all equipment including DCCB’s for the sectioning of the traction power system (Refer L1-CHE-STD-009, Part 4).
Standardised Modular Substation
A Substation which is comprised of a number of standard modules, which is often prefabricated off site and transportable
Functional Requirements
Requirements for a Standardised Modular Substation at a particular site to provide functionality in line with the System Requirements
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 6 of 16
System Requirements
Requirements of the electrical system, including the High Voltage Distribution System (* Refer 4.5), Essential Services Distribution System (*Refer 4.6), Industrial Power Supply System (*Refer 4.7) and 1500V DC System. (*Refer 4.8 )
* Refers to the Document L1-CHE-STD-015
User Requirements
Requirements of MTM, as the user of the Substation, to provide the desired facility for operational, maintenance and other purposes.
Shall Is used as the descriptive word to express a requirement that is mandatory to achieve conformance to the standard.
Should Is used as the descriptive word to express a requirement that is recommended in order to achieve compliance to the standard. Should can also be used if a requirement is a design goal but not a mandatory requirement.
5 References and Legislation
The Standardised Modular Substations shall be designed and constructed in accordance with this specification, relevant MTM Standards and specifications and Australian, Rail Industry and International Standards.
The design, construction and maintenance of the Standardised Modular Substations shall comply with all legislative requirements and codes, as far as they are applicable.
5.1 MTM References
Document Number Document Title
L0-SQE-PLA-005 Environmental Management Plan
L1-CHE-STD-011 Standard - Overhead Line Electrification
L1-CHE-STD-015 Electrical Networks Principles and Performance
L1-CHE-STD-001 MTM Requirements - Metropolitan Train Stabling
L1-CHE-STD-009 Traction Substations and Tiestations
L1-CHE-STD-006 MTM Requirements - Spares for New Assets
IPGOR-01 PTC Train Infrastructure Electrical Safety Rules (HV Rules)
L1-AMS-MAN-005 RAMS Manual
L1-AMS-PRO-003 RAMS Procedure
L2-ELN-REP-002 RAMS Requirements – MTM Substation Standardization
L1-SDD-STD-006 Train Maintenance Buildings Electrical Systems – Earthing And Bonding
L1-CHE-GDL-005 Chief Engineer Guideline
Engineering Standards Listing
L1-CHE-MAN-001 Engineering Management Systems (EMS) Methodology
L2-ELN-PRO-012 Asset Acceptance Process
L4-ELN-INF-009 List of Substation Technical Specifications
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 7 of 16
5.2 Rail Industry References
Document Number Document Title
IPGOR -01 PTC Train Infrastructure Electrical Safety Rules (High Voltage Rules)
N/A Victorian Traction Industry Electrical Safety Rules 2014 (Orange Book)
5.3 Australian References and Legislation
Document Number Document Title
AS/NZS 3000 Wiring Rules – 2007 Electrical Installations
AS 2067 Substations and high voltage installations exceeding 1kV AC - 2008
AS 62271 High-voltage switchgear and control gear
N/A Electricity Safety (Installations) Regulations 2009
N/A Electricity Safety (Cathodic Protection) Regulations 2009
N/A Building Code of Australia
AS/NZS 1170 Structural design actions
AS/NZS 1680 Interior Lighting / Interior and Workplace Lighting
AS/NZS 1158.3.1 Lighting for roads and public spaces
VSIR Victorian Service and Installation Rules
AS 1852 (605) International Electro technical Vocabulary –Generation, Transmission and Distribution of Electricity -Substations
5.4 International References
Document Number Document Title
EN 50122-1 Railway Applications - Fixed Installations - Electrical Safety, Earthing and the Return Circuit - Part 1: Protective Provisions Against Electric Shock
EN 50122-2 Railway Applications - Fixed Installations - Electrical Safety, Earthing and the Return Circuit - Part 2: Provisions Against the Effects of Stray Currents Caused by D.C. Traction Systems
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 8 of 16
6 Related Documents
Document Number Document Title
L4-CHE-FOR-016 Electrical Networks Form – Traction Substation and Tiestation Functional Requirements
7 Safety and Environmental
The Standardised Modular Substations shall be designed, manufactured, operated and maintained in accordance with all relevant Acts, Legislation and Regulations, Codes of Practice and Standards, and shall be designed with a focus on the reduction of the whole of life cost of the installation.
MTM is committed to minimising the impact of its activities on the environment. Accordingly the design of the Standardised Modular Substations shall source and promote a product range which will minimise its environmental impact over its entire asset life cycle, including construction, ongoing operation and disposal. In particular, MTM has a focus on reduced electrical losses in its substation equipment.
8 Type Approval
The Modular Substations shall be subject to MTM’s type approval process.
9 System Requirements
The system requirements for the following systems will be specified separately:
High Voltage Distribution System (22kV)
Essential Services Distribution System (2.2kV, 1.0kV and 650Vac)
Industrial Power Supply System (22kV,11kV, 6.6kV)
1500V DC System
Refer to ELECTRICAL NETWORKS PRINCIPLES AND PERFORMANCE (L1-CHE-STD-015) for the definitions.
10 Functional Requirements
The functional requirements of the Substation, dictated by the System Requirements, will be specified separately for each Standardised Modular Substation and its individual location on Form Number L4-CHE-FOR-016.
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 9 of 16
11 User Requirements
11.1 Design Criteria
The following objectives should be realised:
Through standardisation of layout and design achieve improved cost effectiveness in construction , installation and ongoing maintenance
Reduced delivery time
Improvement on the current functionality, reliability and maintainability
Avoidance of design change from location to location.
More flexibility and reduced costs of future upgrades or additions.
The configuration of modules shall be able to be expanded or altered with the minimum of works, by the installation or removal of a module/s and the necessary interconnections.
The footprint of each Module shall be optimised, to ensure a minimum size is realised whilst achieving required clearances and maintainability of equipment.
The interfaces between the standard functional blocks and between the blocks and external connections will be managed by MTM to be consistent, which will help create a “Plug-and-Play” setup that will minimise Project Management and external design costs as far as practicable.
The achievement of standardisation may encompass off site construction and testing techniques and transportable plant to provide the opportunity to minimise site installation and commissioning time, on site civil works and the required footprint. If this technique is used, the Standardised Modular Substation shall be transportable in a non-divisible assembly if possible.
The Head of Engineering/Electrical may vary the extent of site building, installation and testing works subject to site conditions, cost, maintainability, constructability and other factors.
11.2 Process for Module Determination of Module Configuration
Owing to the variable nature of the configuration of the Modules, it is vitally important that the system requirements are determined in the planning stage of a project. The process for determination of the system and functional requirements and ongoing design shall follow L1-CHE-MAN 01. The effective and efficient management of the procurement of equipment is dependent on these processes being followed, particularly for protection and control and other electrical system interfaces.
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 10 of 16
11.3 Module Configuration
The Modules shall consist of the basic units detailed in Table 1
Table 1 – Module Numbers and Descriptions
Module Number
Module Description
1 1500VDC Power Switching
2 Rectification-AC/DC Power Conversion
3 HV AC Switching
4 Essential Services (Signal) Power Conversion with UPS
5 Industrial Substation Power Conversion
The modules shall be combined to produce the standard configuration types listed in Table 2. Each standard configuration shall consist of the modules listed in Table 4.
Table 2 – Standard Modular Configuration Types
Configuration Type
Description
1 TieStation
2 Traction Substation
3 Switching Station
4 Industrial Substation
5 Essential Services Power Substation
The Configuration types may be combined as detailed in Table 3 as subsets of configuration 2.0 for Traction Substations.
Table 3- Combinations of Standard Module Configurations
Configuration Type
Description
2.1 Traction Substation Base with Essential Services Power Distribution Substation
2.2 Traction Substation Base with Essential Services Power Distribution Substation and Switching Substation
2.3 Traction Substation Base with Essential Services Power Distribution Substation, Switching Substation and Industrial Substation
2.4 Traction Substation with Switching Station
2.5 Traction Substation with Switching Station and Industrial Substation
2.6 Traction Substation with Industrial Substation
Any configuration stipulated shall be approved by the Head Engineer/Electrical
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 11 of 16
Table 4 Standard Configuration Module Makeup
Standard Configuration
1500VDC Power
Switching
Rectification-AC/DC Power Conversion
HV AC Switching
Essential Services (Signal) Power
Conversion
Industrial Substation
Power Conversion
TieStation Yes No No No No
Traction Substation
Yes Yes Yes No No
Switching Station
No No Yes No No
Industrial Substation
No No Yes No Yes
Essential Services Power
Substation
No No *Yes Yes No
* Essential Services Supply sourced from HV Feeder
Figure 1 details the standard functional modules and the interfaces between modules and the MTM network in a typical Substation. The equipment in each module will be controlled and monitored by the Railway Electrical Systems Control Centre via a SCADA system connected through a fibre optic network.
For any standard substation configuration the combination of standard modules allows for those functional requirements which may be necessary to meet the System requirements. It also allows for convenient segregation of operational functions.
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 12 of 16
VicTrack Fibre Network
Essential Services Power
1500V Overhead Wiring
MTM or Power Company HV Feeder MTM HV Feeder
HV AC (11kV / 22kV)
1500V DC Positive
Essential Services Voltage AC
Fibre Optic Comms
Control Wiring
LV DC Supply
Rail
LV AC Supply
1500V DC Negative
Essential Services
(Signal) Power Conversion and
Switching Module
HV AC
Switching
Module
AC/DC Power
Conversion
Module
1500V DC Switching
Module
Negative Pillar
Electrolysis
Electrolysis Feeder
Industrial Power
Conversion
Module
Fleet
Maintenance
Facility Low
voltage 400V AC
Switchboard
Train Station
400V AC
Switchboard
400V AC
Figure 1- Module Interfaces
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 13 of 16
11.4 Standard Modules
11.4.1 1500V DC Power Switching Module
The 1500V DC Power Switching Module is the fundamental building block for connection to the Overhead Wiring.
The standard configuration of the 1500V DC Power Switching Module contains all the required apparatus for connection to the Overhead Wiring as a standalone unit (known as a Tiestation) or as part of a Traction Substation.
The 1500V DC Power Switching Module shall contain the following Electrical Apparatus:
One, two or three 1500VDC Switchgear Assembly
Each 1500V DC Switchgear Bus Assembly containing:
o Feeder DCCBs (typically four)
o 1 no. Rectifier DCCB (if combined with a rectifier power conversion module)
1500V DC Negative Bus
Stationary Control Battery System and DC Auxiliary Power Switchboard.
AC Auxiliary Lighting and Power System (for connection to either an Auxiliary Transformer or the Public LV Mains)
Earth Bar
SCADA RTU and communications equipment (including telephone)
Isolating switches for each outgoing 1500V DC feeder which are mounted on the wall may be utilised if required.
The 1500V DC Power Switching Module forms an integral part of the Overhead Wiring system, and is the primary wiring protection element.
11.4.2 AC/DC Power Conversion Module
The AC/DC Power Conversion Module shall contain all the necessary Electrical Apparatus for the conversion of HV AC Power to 1500V DC.
The AC/DC Power Conversion Module shall contain the following Electrical Apparatus:
1500V DC Traction Rectifier Transformer –(One, two or three units )
1500V DC Traction Rectifier Assembly- (One, two or three units)
Rectifier Unit Control and Protection System- (One, two or three units)
1500V DC Negative Bus
Auxiliary Transformer (One or two units)
DC Auxiliary Power Switchboard
AC Auxiliary Lighting and Power System
Earth Bar
SCADA RTU and communications equipment (including telephone)
Electrolysis Mitigation Drainage Bus and TDU
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 14 of 16
11.4.3 HV AC Switching Module
The AC Switching Module shall contain all the required equipment for the switching and protection of the AC Systems of the MTM’s High Voltage Distribution, Essential Services Distribution System or Industrial Power Supply System HV AC Distribution System.
The number of ACCB’s within the Module will vary depending on the Modular Substation Configuration as detailed in Table 5. The number of ACCB’s within each system will depend on the number of feeders specified.
The ACCB configuration of any combination of standard module configuration as detailed in Table 3 can be deduced from Table 5.
The following ancillary equipment shall be included with any type of HV AC switching module
Earth Bar
Stationary Control Battery System and DC Auxiliary Power Switchboard
AC Auxiliary Lighting and Power System (for connection to either an Auxiliary Transformer or the Public LV Mains)
SCADA RTU and communications equipment (including telephone)
The Module shall contain all the necessary Control and Protection equipment for the switching and protection of each of the Circuit Breakers.
Table 5- HV AC Module Makeup of ACCB’s
Feeder Type
Incoming HV System Feeder
Incoming HV Industrial Feeder
Outgoing Rectifier Feeder
Outgoing Auxiliary Transformer Feeder
Essential Services Feeder
Outgoing Industrial Supply Feeder
Outgoing HVAC System Feeder
Su
bs
tati
on
Co
nfi
gu
rati
on
Traction Substation Yes No Yes Yes No No No
Switching Station Yes Yes No No No Yes Yes
Industrial Substation
Yes Yes No No No Yes No
Essential Services Power Substation
Yes No No No Yes No No
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 15 of 16
11.4.4 Essential Services (Signal) Power Conversion and Switching Module
The Essential Services (Signal) Power Conversion and Switching Module shall be utilised for:
The conversion of HV or LV AC Power to a voltage level suitable for integration into the MTM Essential Services (Signal) Power Distribution System, and;
The protection and switching of the MTM Essential Services (Signal) Power Distribution System.
The Essential Services (Signal) Power Conversion and Switching Module shall contain a one or two bus AC signal switchboard having the following Electrical Apparatus:
One or two Essential Services (Signal) Power Transformer (ST) to match the number of buses
Dual Convertor Uninterruptable Power Supply (UPS) for connection to the ST to match the number of buses
Circuit Breaker between the ST and UPS unit.
AC Auxiliary Lighting and Power System (for connection to either an Auxiliary Transformer or the Public LV Mains if not connected to a Substation)
Facility for the installation of a Stationary Control Battery System
Earth Bar
SCADA RTU and communications equipment (including telephone)
All the protection and control required for the Module
11.4.5 Industrial Substation Module
The Industrial Substation Module shall be utilised for conversion of HVAC power to low voltage AC Power. The Module shall include the following electrical apparatus
Power Transformer (normally 22kV/400Vac)
AC Auxiliary Lighting and Power System and switchboard
Facility for the installation of a Stationary Control Battery System
Earth Bar
SCADA RTU and communications equipment (including telephone)
All the protection and control required for the Module
ELECTRICAL NETWORKS SPECIFICATION
STANDARD MODULAR SUBSTATION USER
REQUIREMENTS
MESP 000003-10 Version: 2 Effective from:10th November 2014
L2-ELN-SPE-024
Approving Manager: Chief Engineer Approval Date: 10/11/2015 Next Review Date: 10/11/2018
PRINTOUT MAY NOT BE UP-TO-DATE; REFER TO METRO INTRANET FOR THE LATEST VERSION Page 16 of 16
11.5 Future Modules
The Standard Modular Substation design shall allow flexibility for future network expansion and upgrade, or the addition of new technology as it becomes available.
Future standard functional blocks may include:
Energy Storage Module
Bidirectional Energy Conversion Module
Static Switching Module
11.6 Housing and Civil Requirements
11.6.1 Module Arrangement
The standard Module configurations shall be composed of a number of separate Modules for each function which may be arranged longitudinally, side-by-side, and/or vertically to a maximum of four Modules high. The Modules must be designed to facilitate easy interconnection between different Modules via cabling in any configuration, and easy and safe access by staff for maintenance purposes, including in the vertical configuration.
The size of the Modules shall be reduced as far as reasonably practicable within regulatory compliance, in order to optimise the physical footprint of the overall Substation arrangement.
11.6.2 Civil Requirements
The modules shall be designed to be installed on pillars to allow cables to be readily connected to equipment.
11.6.3 Transport
Housings shall be readily transportable by road preferably without the need for vehicle piloting. The Modular Substation shall be able to be transported and loaded and unloaded as a non-divisible unit.
11.6.4 Design Requirements
Further requirements for the construction of suitable housings are located in MESP 000003-05 Modular Substation Housings.
12 Equipment Specifications
All of the Electrical Equipment in the Modules shall comply with their respective MTM technical specifications.
The list of Equipment Specifications is given in the MTM List of Substation Equipment Technical Specifications (L4-ELN-INF-009).