Awarded contract
Published
Architectural, construction, engineering and inspection services
9 Suppliers have already viewed this notice
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Buyer
Close date
2019-07-26
Description
The purpose of this procurement is to establish a Framework Agreement to procure engineering consultancy services (the Framework Agreement) for Transport for London (TfL), The Greater London Authority (GLA), and all 32 London borough councils and the City of London. This Framework, is part of a suite of TfL Professional Services Frameworks and TfL's primary means of accessing engineering, planning and project management support and expertise from the external supply chain. In line with its Commercial Strategy, TfL continues to work within a category management approach for replacing the current suite of frameworks. Fundamental to the success of the programme is ensuring that the intended users have access to the necessary technical and specialist skills and services to meet their requirements. The key strategic objectives of the new suite of Frameworks includes higher quality service provision, reduced costs and greater value for money. Multidisciplinary Services may include but will not be limited to a combination of the following sub categories, which have been detailed high level: — civil engineering and structures, — mechanical and electrical engineering, — project and programme management, — asset management, — architectural services. Multidisciplinary Services may include but will not be limited to a combination of the following sub categories on Rail: General Railway Infrastructure Rolling Stock and Assets Advice Railway Infrastructure, Rolling Stock and Asset Research Railway asset management Stations - including access, property, parking, mobility and security, Depots and stabling - strategy and advice Signalling and systems - strategy and advice Rolling stock - strategy and advice, management, acceptance, planning Technical due diligence Rail engineering, feasibility & operating advice Power / electrification - strategy and advice Telecommunications / CIS - strategy and advice Railway infrastructure and assets commercial advice Electrical and Mechanical (E&M) Services Engineering, also known as Building Services Engineering, is the discipline responsible for the building services within stations, depots, train crew accommodation, rail tunnels, road tunnels and other operational buildings. Fire Engineering involves specification, design, installation, inspection and audit necessary to support the delivery of Fire Engineering requirements. These services specifically enable the safe human habitation of buildings and aim to minimise the disruption to operations and maximise building use. TfL require the collection of underground utilities to ensure asset owners are aware of their assets and locations and to also reduce the number of deaths and injuries due to underground asset strikes. Knowing utility locations can also determine the outcome of proposed highway works and to reduce unforeseen costs of future work. Pumps, Hydraulics and Drainage is the provision of drainage and systems design (foul, surface and combined .), assessment and modelling (e.g. InfoWorks (ICM) / Microdrainage or similar), flood risk assessments, developing sustainable drainage strategies, advice on sustainability (SuDS) issues, hydrological analysis. Earth Structures are generally defined as cuttings and embankments and other natural slopes which have been constructed to provide a corridor and support for roads and rail transport infrastructure. Geotechnical Engineering is the provision of expert advice and support in assessing the stability and strength of soil and rock materials, as well as groundwater conditions. Ground Investigation services are required to meet TfL Project requirements. A full range of services are required, including but not limited to: 1. Cable Percussive Boring (Standard and Modular) 2. Rotary Drilling (All Methods) 3. Cone Penetration Testing (All Types) 4. Dynamic Sampling (Hand Held, Modular, Tracked) 5. Dynamic Probing (All Types) 6. Hand Dug and Machine Dug Trial Pitting and Trenching 7. Foundation Inspection Pitting 8. Concrete Coring 9. Geophysical Surveys 10. Utility Surveys to PAS 128 11. In-situ (Field) Testing (CBR, Plate Load Bearing, Self-Boring Pressuremeter 12. Soil and Rock Logging 13. Site Supervision 14. Instrumentation and Monitoring (Groundwater, Gas, Ground Movement) 15. Materials Testing 16. UXO Surveys and Supervision 17. UKAS/MCERTS Accredited Geotechnical/Environmental Soil, Rock and Aggregate Testing 18. Topographical Surveys 19. Ground Investigation Report (Factual) 20. Provision of AGS Data Land and Measured Survey services are required to meet TfL Project requirements. A full range of measured survey services is required, including but not limited to: Track, tunnel and platform surveys Tunnel gauging Embankment and cuttings – earthworks General topographical surveys Control networks High Definition Scanning (HDS) surveys for 3D modelling of stations, tunnels, bridges and buildings Track and structure monitoring Tunnel to surface correlation surveys Highway surveys Measured building surveys Setting-out of new works Engineering Business Management Consultancy Support may include but will not be limited to a combination of the following: Capabilities Details: Provision of business management consultancy for TfL Engineering. Provision of expertise to support the TfL Engineering’s matrix management. Provision of expertise to support engineering business performance measurement and improvement (i.e. business process and business change management in an engineering environment) Provision of expertise to support the development of a culture of innovation and technology led change. Provision of expertise in the application of new technologies. Provision of strategic and technical advisory services Road Tunnels comprise of a number of specialist M&E assets along with General building service requirements which span across a range of asset types found in the other areas of this section. The supplier shall demonstrate their ability to provide technical and professional support with regards to Road Tunnels and their Tunnel Service / plant room buildings BIM is a process involving the collaborative production, use and management of digital representations of the physical and functional characteristics of a facility / asset. Standards, Methods & Procedures (SMPs) and Digital Engineering are key components of BIM: Standards, Methods & Procedures: provide a consistent collaborative approach to the production, use and management of data and information Digital Engineering: the use, manipulation, simulation and analysis of digital data to inform decisions. Examples may include the use or application of virtual design (3D), virtual construction (4D), virtual estimating (5D), virtual energy / carbon management (6D), digital fabrication and the use of mobile technology Building surveyors advise on the maintenance and repair, redevelopment and/or alterations to existing buildings. They advise on the continued fitness for purpose of buildings, within client requirements and applicable Legislation, Regulation and LU Standards. They also provide advice on the design and construction of new and altered buildings on the TfL estate. Some parts of TfL are “Statutory Undertakers” with some exemption of procedural obligations under the Building Act 1984 but still require all new work and alterations to existing buildings to comply with the Building Regulations contained within Schedule 1. Other TfL modes do not act as “Statutory Undertakers” & so are required to engage independent Building Control Bodies (BCB) to ensure full compliance with procedural & substantive requirements of the Building Act 1984 & associated legislation. Timely TfL & Building Control advice is required to be given on new and altered TfL premises within the framework of relevant legislation relating to building works within TfL operational boundaries. Such works include demolitions, alterations, installations, maintenance, change of use, additions, removals and temporary works. Bridges – Design and Assessment Engineering involves the design and assessment of rail and road bridges. It includes a wide range of bridge structures including overbridges, underbridges, footbridges, arches & viaducts, tenanted arches, pipe bridges, culverts, subways, retaining structures and gantries. Buildings and Structures services include initial advice for business cases and feasibility studies, through concept and detailed design stages to full construction and handover. It requires the utilisation of computer software packages to undertake analysis, design and specialist assessment, such as vibration, dynamic response and fire resistance. The supplier shall be able to demonstrate their knowledge and ability to communicate with and advise their client in the following areas in the marine environment: a) Marine Structures Engineering b) Architecture c) Marine Vessel Engineering d) Marine Asset Incident Investigation IEC 62402 defines obsolescence as the, “Transition from being obtainable from the original manufacturer to becoming unobtainable”. The objective of Obsolescence Management in TfL is to ensure that the risks of obsolescence are effectively and economically managed to meet TfL's commitment to provide a world class, safe and reliable transport system for London. Tunnelling Engineering describes the provision of a conduit or space under or through an obstacle, e.g. a road or rail system under a busy city centre or a road link underneath a river. Critical to the construction of the tunnel is the length, size and the ground & groundwater conditions. The scope of this lot includes the design of new buildings, extensions to existing buildings and remodelling or refurbishment of existing buildings. This applies to all stages of the project lifecycle from Outcome Definition to Handover and suppliers should demonstrate their capabilities within each stage. This applies to all stages of the project lifecycle from Outcome Definition to Handover and suppliers should demonstrate their capabilities within each stage. Buildings under the section ‘non-station architecture’ include: Office and Staff Support buildings – eg train crew accommodation, bus driver facilities 30 Staffed Operations buildings – eg control centres, surface transport ticket kiosks Un-staffed Operations buildings – signal equipment rooms Maintenance buildings – eg depot train sheds Storage buildings Architectural Commercial Support includes initial advice for business cases and feasibility studies, through concept and detailed design stages to full construction and handover. This applies to all stages of the project lifecycle from Outcome Definition to Handover and suppliers should demonstrate their capabilities within each stage. The supplier shall demonstrate their ability provide technical and professional support for architectural projects across a range of scales. Projects are most likely to include retail, office, residential and mixed use schemes but may include other typologies. Services may be procured across one or all of the RIBA stages (or equivalent), including concept design, feasibility, detailed design, construction information and monitoring. Works may be new build or refurbishment. Urban design involves the design, and advice on the design of new public realm, streetscape, public space and landscape architecture. Many of TfL’s projects involve or include changes to or new the creation of new areas of public realm, which in turn provide the setting for new, renewed or upgraded transport infrastructure. This applies to all stages of the project lifecycle from Outcome Definition to Handover and suppliers should demonstrate their capabilities within each stage To support the design of Architectural projects this lot seeks specialist structural engineering and design expertise associated with the following; — Station Canopies — Bridges, cantilevered walkways and cycleways — Visual Concrete — Architecturally designed retaining structures — Complex internal structural adjustments — Complex, lightweight or specialist building structural design The Lot applies to all stages of the project lifecycle from Outcome Definition to Handover and suppliers should demonstrate their capabilities within each stage. The supplier shall demonstrate their knowledge and ability to communicate, advise and for the following business portfolios: • 20mph Speed Limits/Signing and Line marking design • Bus Priority and Bus Stop Accessibility schemes • Road Safety studies and collision analysis • Small Multi-Modal Schemes inclusive of junction and link design, parking, enforcement, loading and freight studies • Transformational Schemes (Interchanges, gyratory removal, grade separation, pedestrianisation) • Cycling schemes (Inclusive of significant infrastructure interventions) • Designer and Principal Designer responsibilities as per CDM Regulations 2015 The supplier shall demonstrate their knowledge and ability to provide, support and deliver for the following engineering workstreams/skillsets: • Production of public consultation information including visualisations and use of Adobe Illustrator • Urban/Streetscape Design • Street Lighting Design • Hostile Vehicle Mitigation and Vehicle Restraint System Design • Local Area Traffic Modelling (using packages as LINSIG2, TRANSYT, PICADY) • Highway Drainage/SUDS design • AutoCAD Civil 3D • Environmental Impact Assessments • Sustainability Audits • Risk Management • Assurance/Quality Management/Design Auditing • Engineering support for assessment of planning applications and development control • Whole life project cost estimating • Healthy Streets Designer Checks • Scheme Monitoring/Benefits realisation The supplier shall demonstrate their knowledge and ability to deliver and analyse if required the following surveys: • PAS 128 Survey (Cat A-D)/Statutory undertaker surveys • Traffic Counts (OD/Classified/Pedestrian/Speed) • Topographic/Sign Surveys • Kerbside Activity Surveys • Drainage CCTV Surveys • Street Lighting Surveys • Noise and Vibration Surveys • Ground Conditions/Site Investigations/Trial Holes • Air Quality Surveys • Archaeological Surveys • Environmental Surveys Highway Engineering services are required to enable the safe and cost efficient operation and maintenance of the TfL road network. This involves investigation, specification, design at all stages, inspection, and assurance as necessary for the delivery of engineering activities throughout all stages of asset life cycle. Traffic Control Engineering (TCE) forms part of the TfL Engineering Highways and Traffic Profession. TCE is accountable for discharging engineering technical authority for all TfL owned traffic control Infrastructure including Traffic Signals, Over-height Vehicle Detection (OVD) and Variable Message Signs (VMS). The supplier shall demonstrate their ability to meet the delivery requirements for the writing and/or testing of Traffic Signal Controller Configurations. Ensuring what is specified in the detailed signal design (signal layout and controller specification) is reflected in the configuration. Intelligent Transport Systems Engineering discipline encompasses the specification, design, assessment, implementation, support and assurance of Intelligent Transport Systems technology, including but not exclusive to Urban Traffic Control (UTC) systems,, digital communications and detectors for traffic control featuring advanced functionalities such as vehicle counting and classification. Road Safety Auditing is a defined process that considers operational road safety of a change to the highway. The requirements and procedure for the completion and delivery of Road Safety Audits, within Greater London, is defined in TfL’s Road Safety Audit Procedure (SQA-0170), the current edition is dated May 2014. The supplier shall demonstrate their ability to adhere to the delivery requirements of TfL’s Road Safety Audit Procedure SQA-0170 (Current edition dated May 2014). The technical specialism Arboriculture covers all matters relating to the disciplines of arboriculture and urban forestry including the management of street trees and woodlands. The technical specialism of Horticulture covers all matters relating to the disciplines of landscape and horticulture, including shrub beds, bedding and grass verges. The technical specialism of ‘Built green infrastructure’ covers all matters relating to built green infrastructure including green walls and green roofs. The delivery of successful bus designs or bus modifications depends on the following skill sets: • Validation of project and stakeholder requirements • Liaising closely with bus OEM, DVSA, VCA and other road vehicle authorised testing bodies • Liaising closely with bus engineering specialist and maintenance staff during the design process • Interfacing with other TfL engineering disciplines e.g. roads and building infrastructure, bus garage, bus stations, surface engineering power engineering and operations. • Carrying out any necessary visits to depots to investigate failure modes, examine reports, analyse results and develop innovative, cost-effective solutions in collaboration with engineers • Carrying-out any necessary site visits to depots to examine a range of bus designs/models types and conducting design correlation activities • Provision of competent and M2/M3 category passenger vehicle experience and specialist resources to design, check and approve designs • Knowledge of, or obtaining knowledge of and implement London bus design standards, operational performance and assurance arrangements • Availability of the supporting tools e.g. CAD, Software Development tools, or other tools, to support the production of the designs and drawings • Delivering all documentation to ensure the works can be built, installed, tested, commissioned and maintained over its design life The supplier will need to demonstrate specialist knowledge and understanding of all professional engineering matters relating to Bus Engineering and be able to apply them to the operation of different propulsion systems, pure electric, hydrogen, high powered inductive and conductive changing The supplier will need to demonstrate specialist knowledge and understanding of all professional engineering matters relating to road passenger transport technical investigations and be able to apply them to the operation of different propulsion system; pure electric, hydrogen, high powered inductive and conductive charging. The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in the following areas: • Brake systems • Door systems • Car bodies • Bogie • Mechanical design • Electrical design, installation and protection (high / low voltage) • Auxiliary systems design • Pneumatic system design • Structural integrity • Fire performance of materials • Propulsion systems • Train management system design and functionality • Rolling stock maintenance • Rolling stock testing and commissioning • Depot equipment (and associated equipment/systems) • Rolling stock audits and inspections The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in the following areas: • Brake systems • Door systems • Car bodies • Bogies • Crashworthiness • Mechanical design • Electrical design, installation and protection (high / low voltage) • Auxiliary systems design • Pneumatic system design • Structural integrity • Fire performance of materials • Propulsion systems • Train management system design and functionality • On-train diagnostic systems – e.g. Rolling Stock CCTV, incident recorder systems • Automatic Train Operation (ATO) systems • Automatic Train Protection systems • Train performance • Wheelset design • Wheel rail interface • Optimisation of train performance in low adhesion conditions • Noise, ride & vibration • Vehicle Dynamics • Rolling stock maintenance • Rolling stock testing and commissioning • Depot equipment (and associated equipment/systems) • Rolling stock audits and inspections • Human factors, cab design and driver ergonomics • Incident investigation • Feasibility studies with business cases • ALARP justification and QRA The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in the following areas: • Brake systems • Door systems • Car bodies • Bogies • Crashworthiness • Mechanical design • Electrical design, installation and protection (high / low voltage) • Auxiliary systems design • Pneumatic system design • Structural integrity • Fire performance of materials • Propulsion systems • Train performance • Wheel rail interface • Noise, ride & vibration • Vehicle Dynamics • Rolling stock maintenance • Rolling stock testing and commissioning • ALARP justification and QRA • Depots and non-rolling stock depots • Fire compliance of materials for Depot equipment (Non E&M) • Fire engineering within a metro rail system and compartmentation • Specific Skills, Knowledge and Experience of roiling stock related depot, plant and equipment:- • Train washes • Wheel Lathes and associated equipment • Jacking / Lifting systems • Bogie press, drop tables and jigs • Equipment lifting tables/equipment The objectives of a transport system project development assignment are to: • Work with stakeholders and agree the requirements of the problem to be solved. • Identify possible solution options, their feasibility, benefits, costs and risks. • Prepare a business case to justify works to implement a solution. Incident Investigation involves accident investigation including accident assessment, repair assessment and brake investigations on assignments such as depot derailments and collision damage. Transportation Information, Security and Surveillance systems are deployed throughout TfL’s transport network to enable the safe and efficient operation of TfL’s multi-modal capability and are commonly considered vital to the organisation’s capability to offer services to its customers. These systems ordinarily interact with travelling customers, operational personnel, operational control systems and third party systems and therefore require complex systems engineering and systems integration to result in expected high levels of function, usability, performance and availability. As demand for public transport rises TfL needs to augment passenger capacity to meet this ever increasing demand. This increase in capacity necessitates a greater degree of automation and communication facilities to monitor and control services, ensuring the public are able to feel secure in our stations and rolling stock while travelling efficiently. In order to do this engineered systems are required to be developed integrating railway assets, procedures and people. Following the recent government spending review, TfL continues to increase passenger capacity to meet ever increasing demand, and improve customer service across all modes. Our service is now more reliant on computer, communication, and software systems and the interconnectivity between electronic systems is increasing unabated. This includes the connectivity between systems within our organisation and interfaces to external networks (such as the internet and COTS-based wireless communication systems). To improve the delivery of transport services and enhance the customer experience there is a desire to obtain, communicate and utilise the information that is generated and used by our systems. To protect against safety threats, deliver services reliability and consistently, reduce costs through unnecessary reactive controls, mitigations and recoveries, and to restrict the reputational damage to TfL from undesirable actions or threats, the electronic security of systems and information is critically important to us. Communication networks are deployed throughout TfL’s transport networks to enable and support operations, maintenance and support services in wide range of geographic locations. Support is provided locally and at line and network control centres. Communications networks provide key interfaces and functions to TfL’s staff, customers and third parties. They facilitate normal, degraded and emergency mode of service operation but also interface with the emergency services during incidents. Systems engineering is an interdisciplinary approach and a mean to enable the delivery of systems that will meet the customer/user needs. It focuses on defining customer/user needs and requirements early in the development cycle systematically, documenting them, and then proceeding with design synthesis, implementation and system verification and validation while considering the complete problem, including operations, cost and schedule, performance, training, test, manufacturing and disposal. Systems engineering is a combination of various techniques that aims to manage engineering risk throughout the projects / programmes lifecycle by considering the problem as a whole rather than disparate parts. Information security engineering is a set of risk-based technical and procedural controls to minimise vulnerabilities of engineering systems to electronic (or cyber) threats throughout the asset lifecycle. In the TfL environments, particular systems are critical to the safe and reliable operation of the railway, such a road and rail signalling systems, SCADA, customer information systems and CCTV systems. Software systems are increasingly at the core of modern transport networks. TfL undertakes the following roles within the transport network: operator, specifier, intelligent client and overall integrator. In general, TfL prefers not to specify and procure bespoke software, due to the impacts of risk, time and cost. This strategy results in the need to leverage supplier’s products where necessary, with adaptation and modification for the particular transport application’s environment and needs. Managing the specification, development, test, migration and performance of (supplier) software is often critical to the successful delivery of transport projects and transport systems. System Performance Engineering aims to understand the behaviour of railway performance as a whole and how constituent parts interact. Modelling tool-sets are used to improve and optimise network capacity through the identification and mitigation of system constraints. In delivering this capability, TfL develops in-house software based engineering tools to allow for detailed understanding of the railway as a whole. TfL applies this engineering capability at different stages of the programme lifecycle to ensure the railway performs as intended, efficiently and effectively System safety engineering is the identification, understanding, management and control of safety hazards that originate from incorrect operation or use and that could harm the customers or staff of a transport system. The objective of System Safety Engineering is to demonstrate that the transport system is free from harm and that safety risks are managed to acceptable levels. SCADA is an acronym for Supervisory Control and Data Acquisition. SCADA systems are used to monitor and control plant or equipment in many applications such as telecommunications, electrical power control and railway transportation. The supplier will be expected to supply advice, studies, test procedures, analysis, reports, design and supervision services which will, in turn, rely and depend on skill, competence and capabilities including but not limited to the following capability details: The supplier shall demonstrate competence in: • SCADA requirements including legislation and standards, operational and maintenance requirements • Design, development and implementation of SCADA architectures; distributed, networked, cloud-based O Telecoms networks – LAN’s / WAN’s, fibre-based transmission, wireless O PLC’s/ RTU’s design applications in SCADA type plant/ environments O PLC/ RTU programming / ladder logic/ IEC 61131-3 O SCADA protocols – Modbus-TCP, Ethernet, TCP/IP, DNP3, IEEE 60870-5 O SCADA standards - IEEE 60870, IEEE C37.1-2007 • SCADA testing and commissioning • Preparing SCADA documentation • TfL Transport Networks including TfL Railway Environment domain Knowledge Knowledge and understanding of the SCADA systems, other assets, processes and roles that are used in the railway environments of London Underground, the Docklands Light Railway, London Overground and Croydon Tramlink. Electronics is equipment that contains circuit boards, circuitry and components that are used for transmitting or processing analogue and/or digital data. On the TfL estate this ranges from hand-drawn and built circuitry from the 1950s to modern microprocessor based systems with surface mount construction. TfL are seeking specialist support to undertake electronics design to support delivery and maintenance projects, primarily for signalling and fleet. The scale of this scope could be from a single design for one-off use through to design changes and upgrades that have network-wide implications. Electromagnetic compatibility is the understanding, management and control of electromagnetic interference arising from the emission of electromagnetic energy from systems and the impact of that phenomenon on other systems that are susceptible to it. The objective of EMC is to control emissions and susceptibility, so that adverse effects are avoided. Human Factors (HF) is the understanding of interactions between humans and other elements of a transport system, and the application of theory, principles, data and methods to the analysis and design of the transport system in order to optimise overall system performance through optimised human performance and well-being. TfL’s customers and stakeholders expect Transport Systems within London to be reliable and affordable. • Reliability is the probability that a system will continue to perform correctly to a particular time. • Availability is the ability of a system to be in a state to perform correctly at any time. • Maintainability is the probability that a maintenance action can be carried out within a stated time interval. Maintainability also includes the cost of planned maintenance activities required to support safe and reliable operation in service. The objective of RAM within TfL is to manage the reliability, availability and cost of transport networks so that the performance of these three parameters improves continuously and the adverse effects of any changes are avoided. • Assessment of track railborne and non railborne equipment for track renewals • Assessment of track railborne and non railborne equipment for track maintenance • Approval of track railborne and non railborne equipment • Standards including specifications • Strategy • Feasibility Design • Track Component design • Noise and Vibration • Wheel Rail Interface • Standards including specifications The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in one or more of the following areas: • Signalling installation, testing and commissioning • Signalling maintenance & repair • Signalling audit and inspection • Incident investigation • Signalling asset management / asset performance • Point operating equipment • Remote condition monitoring • Risk based maintenance • Assurance activities for product and system acceptance • General technical support The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in the following areas: • Signalling design process • Interfaces with a variety of equipment including, but not limited to, Point operating equipment, Passenger information systems, Remote condition monitoring. • Fixed block legacy signalling systems • Automatic Train Control (ATC) systems, including coded track and Communications Based Train Control (CBTC) systems that provide Automatic Train Operation (ATO) and Automatic Train Protection (ATP) • Automatic Train Supervision (ATS) systems • Assurance activities for product and system acceptance • General technical support The supplier shall demonstrate their knowledge and ability to communicate with and advise their client in the following areas: • Power SCADA specialism • AC Power Modelling and Studies (including DNO and National Grid infrastructure assessments) • DC Power Modelling • Train Simulation and Multi Train Simulation for Power System Modelling • Power Quality Studies (including DNO and National Grid infrastructure assessments) • Power System Reliability Modelling • Harmonic Profile Modelling (including DNO and National Grid infrastructure assessments) • AC Protection Studies • Asset Management deep technical support e.g. review of age profiles and specialist asset condition assessments • High Voltage specialist technical support e.g. Specialist advice and support on partial discharge monitoring and testing • Development of HV Power electrical design, including concept and detailed design • Earthing systems specialist advice and technical support • All aspects of DC Electrical Track Equipment (ETE) including conductor rail design • Overhead Line Equipment (OLE) design and maintenance
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