Services Erected Above Overhead Wiring T HR EL 08006 ST Standard
Transcription
Services Erected Above Overhead Wiring T HR EL 08006 ST Standard
T HR EL 08006 ST Standard Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 Important Warning This document is one of a set of standards developed solely and specifically for use on the rail network owned or managed by the NSW Government and its agencies. It is not suitable for any other purpose. You must not use or adapt it or rely upon it in any way unless you are authorised in writing to do so by a relevant NSW Government agency. If this document forms part of a contract with, or is a condition of approval by, a NSW Government agency, use of the document is subject to the terms of the contract or approval. This document may not be current. Current standards are available for download from the Asset Standards Authority website at www.asa.transport.nsw.gov.au. © State of NSW through Transport for NSW T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 Standard governance Owner: Lead Electrical Engineer, Asset Standards Authority Authoriser: Chief Engineer Rail, Asset Standards Authority Approver: Director, Asset Standards Authority on behalf of ASA Configuration Control Board Document history Version Summary of change 1.0 First issue For queries regarding this document, please email the ASA at standards@asa.transport.nsw.gov.au or visit www.asa.transport.nsw.gov.au © State of NSW through Transport for NSW T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 Preface The Asset Standards Authority (ASA) is an independent unit within Transport for NSW (TfNSW) and is the network design and standards authority for defined NSW transport assets. The ASA is responsible for developing engineering governance frameworks to support industry delivery in the assurance of design, safety, integrity, construction, and commissioning of transport assets for the whole asset life cycle. In order to achieve this, the ASA effectively discharges obligations as the authority for various technical, process, and planning matters across the asset life cycle. The ASA collaborates with industry using stakeholder engagement activities to assist in achieving its mission. These activities help align the ASA to broader government expectations of making it clearer, simpler, and more attractive to do business within the NSW transport industry, allowing the supply chain to deliver safe, efficient, and competent transport services. The ASA develops, maintains, controls, and publishes a suite of standards and other documentation for transport assets of TfNSW. Further, the ASA ensures that these standards are performance based to create opportunities for innovation and improve access to a broader competitive supply chain. This standard supersedes RailCorp standard EP 08 00 00 14 SP Services Erected Above Overhead Wiring, Version 2.1. The changes to previous content include: updates to reflect organisational changes and resulting changes in responsibilities minor amendments and clarification to content conversion of the standard to ASA numbering, format and style © State of NSW through Transport for NSW Page 3 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 Table of contents 1. Scope and application...........................................................................................................................5 2. Reference documents ...........................................................................................................................6 3. Terms and definitions ...........................................................................................................................6 4. Risks associated with service crossings............................................................................................6 5. Installation requirements ......................................................................................................................7 5.1. 5.2. 5.3. 5.4. 5.5. 5.6. 5.7. 5.8. 5.9. Materials................................................................................................................................................................. 7 Clearance requirements ....................................................................................................................................... 7 Position .................................................................................................................................................................. 8 Crossing angle ...................................................................................................................................................... 8 Support .................................................................................................................................................................. 8 Joints...................................................................................................................................................................... 8 Bonding.................................................................................................................................................................. 8 Cables .................................................................................................................................................................... 9 Access prevention barriers .................................................................................................................................. 9 6. Impact on maintenance of overhead wiring......................................................................................10 7. Data set associated with the services ...............................................................................................10 7.1. 7.2. 7.3. Tunnels, overline bridges and air space developments .................................................................................. 10 Services attached to overhead wiring structures............................................................................................. 10 Pipeline bridges................................................................................................................................................... 10 © State of NSW through Transport for NSW Page 4 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 1. Scope and application This document specifies the minimum requirements in order to ensure electrical safety for service crossings above the 1500 V overhead wiring where the service spans the rail line or is attached to a fixed structure that spans the rail line. For example: in tunnels beneath overline bridges attached to portal structures beneath air space developments at pipeline bridges The types of services may include the following: high voltage cables low voltage cables signal cables communication cables water pipes sewerage pipes fire detection and sprinkler systems The requirements for electric aerials crossing RailCorp infrastructure is contained in document EP 10 01 00 05 SP Requirements for Electric Aerials Crossing RailCorp Infrastructure. Services carrying dangerous goods, such as gas pipes, may require additional measures. These are not included in this document. Details of such installations are to be assessed by the relevant AEO and submitted to the Lead Electrical Engineer ASA for approval prior to installation. This document applies to all new service crossings and where modifications are carried out to existing service crossings. © State of NSW through Transport for NSW Page 5 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 2. Reference documents Australian standards AS 1214: 1983 Hot-dip galvanized coatings on threaded fasteners (ISO metric coarse thread series) Transport for NSW standards EP 08 00 00 01 SP Overhead wiring standards for the electrification of new routes EP 10 01 00 05 SP Requirements for Electric Aerials Crossing RailCorp Infrastructure EP 12 10 00 21 SP Low Voltage Installations Earthing EP 12 20 00 01 SP Bonding of Overhead Wiring Structures to Rail EP 20 00 00 20 SP Testing of high voltage and 1500V dc cables ESC 215 Transit space ESC 330 Overhead wiring structures and signal gantries T HR EL 08001 ST Safety Screens and Barriers for 1500 V OHW Equipment T HR EL 12002 GU Electrolysis from Stray DC Current 3. Terms and definitions AEO Authorised Engineering Organisation ASA Asset Standards Authority PFC Parallel Flange Channel TfNSW Transport for New South Wales 4. Risks associated with service crossings The installation of service crossings above 1500 V overhead wiring is not desirable as this situation may reduce the clearance above the overhead wiring and will lead to risks involving: overhead wiring touching the service due to temperature variations, dynamic wire movements, or failure of equipment such as pantographs, resulting in dangerous potentials being transferred to the service the service falling on the overhead wiring due to failure of the support arrangements resulting in dangerous potentials being transferred to the service objects falling from the services installation or from persons accessing the services above the overhead wiring © State of NSW through Transport for NSW Page 6 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 damage to overhead wiring equipment and / or disruption to traffic due to objects falling from the services installation damage to structure or services due to electrolysis touch potential between services connected to a remote earth and overhead wiring structures effects on services due to exposure to heat and diesel exhaust emitted from locomotives work near live 1500 V equipment due to construction and maintenance activities for the services Where installation of services above the overhead wiring can not be avoided, the requirements of this document shall be complied with. 5. Installation requirements 5.1. Materials Service ducts and other components of the service crossing shall be capable of withstanding, at their installed positions, heat and diesel exhaust emitted from locomotives when stationary beneath the ducts. Materials used in the service crossing shall not fail due to corrosion or degradation within the design life of the service crossing. Fasteners shall be made of material such as stainless steel or mild steel galvanised in accordance with AS 1214: 1983. Commercial grade plated steel fasteners and wood products shall not be used. Non-metallic ducts shall be made of ultraviolet stabilised material. 5.2. Clearance requirements The minimum clearances to 1500 V equipment are stipulated in EP 08 00 00 01 SP. Reduced and special reduced clearances are applicable to non-conducting material only, and can only be used after assessment by the appropriate design authority of the relevant Authorised Engineering Organisation (AEO) and approval of the Lead Electrical Engineer ASA. Clearance requirements to the transit space are set out in ESC 215 Transit space. Greater clearances should be adopted as far as practicable, and shall be adopted if required from the outcome of a risk assessment. © State of NSW through Transport for NSW Page 7 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 5.3. Position Services shall be positioned to minimise the risk of being struck by damaged pantographs and the effects of heat and diesel exhaust emitted from locomotives when stationary beneath the services. For example, where services are attached to a bridge beam, they should be positioned above the lowest point of the beam and, where possible, on the side of the beam that is opposite to the approach side of train travel. For 'I' type bridge beams, the services shall be positioned between the flanges of the beam where possible. 5.4. Crossing angle To minimise the exposure to the risks as listed in Section 4, services shall cross tracks at approximately right angles wherever possible. The angle between the service crossing and the track shall not be less than 45 degrees. 5.5. Support Services shall be rigidly supported in such a way that they will not fall down with the failure of any one of the support brackets. To minimise the risk of objects falling onto the overhead wiring, support brackets shall not be located directly above 1500 V overhead wiring or equipment. Support brackets within 3 m of 1500 volt equipment shall be positioned at half the normal spacing for that type of installation. Support systems shall positively secure the services on both sides of the overhead wiring. 'Spring clip' saddles and single sided saddles shall not be used. Where a structure is used to support both the service crossing and the overhead wiring, an analysis on the strength of the structure shall be done to ensure that it is adequate for the application. 5.6. Joints There shall be no joints in services and ducts located within a horizontal distance of 1.5 m from 1500 V equipment. 5.7. Bonding In all cases EP 12 20 00 01 SP Bonding of Overhead Wiring Structures to Rail, EP 12 10 00 21 SP Low Voltage Installations Earthing and T HR EL 12002 GU Electrolysis from Stray DC Current shall be referenced to determine requirements on bonding and earthing. © State of NSW through Transport for NSW Page 8 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 5.8. Cables 5.8.1. Position of cables on overhead wiring structures Refer to ESC 330 Overhead wiring structures and signal gantries for the range of standard overhead wiring structures. Where cables are supported on portal bridges or booms of cantilever masts, the cables shall not be positioned below the lowest surface of the portal bridge or boom. Where the portal bridge consists of an 'I' beam or parallel flange channel (PFC), and there is sufficient space, cables shall be installed between the flanges and close to the web of the portal bridge beam. The position of the cables shall be such that the cables will not be damaged by activities such as rigging on the boom or portal bridge. 5.8.2. Cable support systems High voltage and 1500 V cables may be installed without service ducts, provided that: the cables are supported at intervals in accordance with design and manufacturer’s recommendation for 1500 V negative cables, the insulation resistance between any metallic cable supporting structure and the conductor is tested and confirmed to be satisfactory. See EP 20 00 00 20 SP for details of insulation resistance tests All other cables shall be installed in service ducts. Lids for cable troughings shall be positively secured. 'Snap on' lids shall not be used. Cables supported on cable trays shall be positively secured. Unsecured cables on cable trays are not acceptable. Cables inside metallic ducts shall be double insulated if the metallic ducts are not connected to the earthing system for the cables. Where conduits are used, rigid conduits shall be used for straight runs, while flexible conduits are permissible for bends only. 5.9. Access prevention barriers If, as a result of the installation of the service, unauthorised persons could come near or above exposed 1500 V equipment, barriers shall be installed to prevent such access. Refer to T HR EL 08001 ST Safety Screens and Barriers for 1500 V OHW Equipment for requirements of such barriers. © State of NSW through Transport for NSW Page 9 of 10 T HR EL 08006 ST Services Erected Above Overhead Wiring Version 1.0 Issued Date: 10 October 2014 6. Impact on maintenance of overhead wiring Service crossing installations shall not adversely affect the maintainability of the overhead wiring. Such installations shall not restrict the replacement of overhead wiring support brackets or the relocation of such brackets on existing overhead wiring structures. Maintenance access to overhead wiring support brackets and the associated fasteners shall not be impeded as a result of the service installation. 7. Data set associated with the services Appropriate data of the services shall be maintained for the maintenance and future modification of the overhead wiring. The data requirements for the cases covered in Sections 7.1, 7.2 and 7.3 are detailed below. Data maintenance requirements may be needed for other cases by agreement between the OHW Maintainer and the Lead Electrical Engineer ASA. 7.1. Tunnels, overline bridges and air space developments Where services are installed below the lowest level of any structural beam or deck, the location of the services shall be shown on the overhead wiring layout and relevant cross sections and arrangement drawings, such as overline bridge fitting arrangement drawings and wire profiles, if: 7.2. 1500 V equipment is attached to the structural beam or deck, or the clearance between the services and any 1500 V equipment is less than 1.0 m Services attached to overhead wiring structures Where services are attached to a cantilever mast boom or a portal bridge, such services and any associated bonding arrangement drawings, shall be indicated by a note and referenced on the overhead wiring layout. 7.3. Pipeline bridges Where a service crossing above the overhead wiring consists of a pipeline and/or its supporting structure only, the location of the pipeline crossing, and any associated bonding arrangement drawings, shall be shown on the overhead wiring layout. If the overhead wiring is attached to the structure supporting the pipeline, details of the attachment shall be shown on arrangement drawings and wire profiles. A note shall also be made on the overhead wiring layout referencing the arrangement drawings. © State of NSW through Transport for NSW Page 10 of 10