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British Rail Class 165

The British Rail Class 165, commonly known as the Networker Turbo, is a class of suburban diesel-hydraulic (DMU) passenger trains designed and built by (BREL) at its Works between 1990 and 1992. A total of 76 units were produced for the Network SouthEast sector of , consisting of 39 Class 165/0 units (28 two-car sets and 11 three-car sets) and 37 Class 165/1 units (20 two-car sets and 17 three-car sets), each powered by two 2006-TWH inline-six turbocharged diesel engines rated at 350 hp (261 kW) apiece and equipped with T211rz hydrodynamic transmissions. These trains were specifically engineered for high-frequency local and regional services on non-electrified lines, featuring automatic doors, air-operated brakes, and capacities ranging from 186 seats in two-car formations to 288 seats in three-car configurations. Initially introduced to replace older first-generation DMUs on Thames Valley and Chiltern routes out of , the Class 165 units were subdivided into the 165/0 variant (top speed of 75 mph or 120 km/h) for Chiltern line operations and the 165/1 variant (top speed of 90 mph or 145 km/h) for Thames line services, with some 165/1 units incorporating tripcock safety systems for shared running on tracks. Following the in the mid-1990s, the fleet was split between operators: the 165/0 units allocated to for services from to Birmingham Snow Hill and , and the 165/1 units initially to Thames Trains before transferring to First Great Western (now Great Western Railway or GWR) for and routes. Today, as of 2025, operates 39 Class 165 units alongside its Class 168 fleet, while GWR manages 36 Class 165 units on regional services including those from to , Didcot Parkway, and . Over their service life, the Class 165 trains have undergone several upgrades to enhance reliability and passenger comfort, including interior refurbishments in the early and more recent modifications for better and in select units. In , GWR completed a three-year, £10 million refurbishment programme on its entire Class 165/166 Turbo fleet, which included new seating, improved lighting, USB charging points, and enhanced across 20 two-car Class 165 sets serving routes like to Weymouth and local services. Despite their age exceeding 30 years, the units remain a of non-electrified suburban operations in , with ongoing discussions about potential replacement by battery or bi-mode trains as part of broader electrification and decarbonisation initiatives. One unit, 165115, was scrapped following damage in the 1999 , leaving 75 in active service.

Development and Introduction

Background and Ordering

In the late , British Rail's sectorization program, initiated in 1982, led to the formation of to oversee and south-eastern passenger services, emphasizing modernization of suburban and regional routes. This sector focused on replacing aging first-generation diesel s (DMUs) with more efficient stock to improve reliability and capacity on non-electrified lines, particularly in the and Chiltern regions. The Class 165 emerged as part of this effort, designed as a diesel-hydraulic to suit routes without overhead , drawing on British Rail's experience with hydraulic transmission systems for better performance in stop-start operations. The procurement process began with formal approval on 31 August 1989 for an initial batch of Networker family units, including the Class 165, awarded to at York Works as the primary builder. Specifically, 39 Class 165/0 units—comprising 28 two-car and 11 three-car sets—were ordered for deployment on Chiltern and Thames lines under , addressing the need for versatile suburban and regional services. This order was influenced by government-backed modernization plans from the 1980s, which allocated funding for fleet renewal to enhance efficiency amid rising passenger demand. A follow-on order for 37 Class 165/1 units was placed in early , expanding the fleet to a total of 76 units and further supporting operations. BREL remained the key stakeholder in production, collaborating with on specifications to ensure compatibility with existing infrastructure while prioritizing diesel-hydraulic propulsion for cost-effective operation on unelectrified networks. These procurements formed part of broader strategies aimed at revitalizing British Rail's passenger services without extensive electrification.

Construction and Entry into Service

The British Rail Class 165 Networker Turbo units were constructed by (BREL) at Works from 1990 to 1992, marking the first production multiple units (DMUs) to feature welded body construction for enhanced lightweight design and efficiency. The build process incorporated both two-car and three-car configurations, with assembly drawing on underframes produced at BREL's facility to support the modular er family design. Production emphasized rapid assembly techniques, including automated welding and pre-fabricated components, to meet SouthEast's demands for modernizing suburban services on non-electrified routes. The total fleet comprised 76 units, with the majority allocated to and Chiltern operations. Key milestones in construction included the completion of the prototype unit 165001 in September 1990, followed by initial deliveries to starting on 15 February 1991, when the first production unit rolled out from York Works. Subsequent units underwent rigorous testing on Western Region lines, incorporating experimental Automatic Train Protection (ATP) systems to evaluate safety and performance under operational conditions. These trials addressed early integration of the hydraulic transmission and engine setup, ensuring reliability before widespread deployment. By early 1992, the full fleet had been delivered, allowing for progressive rollout across designated sectors. Entry into passenger service began with the Class 165/0 units on 9 September 1991, initially operating Chiltern routes from London Marylebone under 's . Comprehensive service expansion to both Chiltern and Thames subdivisions followed by January 1992. Class 165/1 variants joined Thames services on 13 April 1992, completing the initial deployment phase. Early operations faced teething issues with hydraulic transmissions during trials, including occasional power delivery inconsistencies, which were resolved through modifications by mid-1992 to achieve full fleet availability. These units, overseen by Network SouthEast project director Jim Vine, represented a significant step in British Rail's transition to second-generation DMUs, prioritizing acceleration and passenger comfort for suburban networks.

Design and Variants

Class 165/0

The Class 165/0 subclass comprises 28 two-car units numbered 165001–165028 and 11 three-car units numbered 165029–165039, forming a total of 39 sets built specifically for suburban services on non-electrified routes. These units feature a diesel-hydraulic , with each equipped with a Perkins 2006-TWH 12-liter, six-cylinder turbocharged diesel engine delivering 350 hp (261 kW) at 1,900 rpm, resulting in a combined output of 700 hp for two-car sets and 1,050 hp for three-car sets. The Voith T211rz hydrodynamic transmission and Gmeinder final drive enable reliable performance in frequent stop-start operations typical of commuter duties. With a maximum speed of 75 mph (121 km/h), the Class 165/0 was optimized for slower, intensive suburban workings rather than express services, distinguishing it from the higher-speed Class 165/1 variant. The body measures 9 ft 3 in (2.82 m) in width and approximately 75 ft 2 in (22.91 m) in per , constructed from welded aluminum for on routes like the Aylesbury line to . All units were assembled at BREL Works between 1990 and 1991, emphasizing robust to handle the demands of diesel-only without . Internally, the units originally provided 186 seats in two-car configurations (including 16 first-class and 170 standard-class) and 288 seats in three-car sets (24 first-class and 264 standard-class), arranged in a mix of and layouts to balance capacity and comfort. Standard-class areas dominated, with facilities like toilets and luggage space tailored for daily commuters; early designs lacked but included tripcocks on the bogies for safe operation over third-rail sections shared with lines. Double-leaf sliding doors on each side per facilitated quick boarding in high-frequency services.

Class 165/1

The Class 165/1 subclass was developed specifically for Thames Valley services under Network SouthEast, featuring adaptations for longer-distance suburban routes with higher operational speeds compared to the Class 165/0. These units share the overall Networker Turbo design but incorporate modifications such as re-geared transmissions and yaw dampers on the bogies to handle main line running. The configuration originally comprised 17 three-car units numbered 165101–165117 and 20 two-car units numbered 165118–165137, providing flexible formation options with similar seating capacities to the 165/0 but optimized for routes requiring greater speed; unit 165115 was scrapped following the 1999 Ladbroke Grove rail crash, leaving 16 three-car units (165101–165114, 165116–165117) and 20 two-car units. Each three-car set consists of a driving motor composite with lavatory (DMCL), an intermediate motor standard (MS), and a driving motor standard (DMS), while two-car sets feature a driving motor composite with lavatory (DMCL) and a driving motor standard (DMS). This setup allows for 264 standard-class seats (plus 24 first-class) in three-car units, emphasizing capacity for commuter flows on Thames Valley lines. Propulsion is provided by the same 2006-TWH 6-cylinder turbocharged engines as the 165/0, rated at 261 kW (350 hp) per , with one per powered vehicle. These are paired with T211rz hydrodynamic transmissions and Gmeinder GM190 final drives, tuned with a modified gear ratio for smoother and a top speed of 90 mph (145 km/h) on longer routes. This performance enhancement supports mixed-traffic operations along the , where units must integrate with higher-speed intercity services. Interior features include enhanced braking systems designed for reliable stops in mixed-traffic environments, utilizing disc brakes with electro-pneumatic control for improved response. Unlike some earlier designs, no tripcock equipment is fitted, as these units do not require compatibility with signaling. Passenger flow is facilitated by slightly wider gangways between vehicles, aiding movement during peak hours on busy Thames services. All Class 165/1 units were constructed in 1992 by at Works, entering service on routes that year. One unit, 165115, was later scrapped following a 1999 incident, leaving 36 units in total. These shared a timeline with the earlier 165/0 subclass but incorporated Thames-specific tuning from the outset.

Operations

Chiltern Railways

Upon the privatisation of British Rail in 1996, inherited a fleet of 34 Class 165/0 diesel multiple units from , which formed the backbone of its initial operations on the . These units were primarily deployed on suburban and regional services from London Marylebone to destinations including and , as well as longer-distance express routes to Snow Hill via and . The remaining five Class 165/0 units, which had been temporarily allocated to Thames Trains since 1993, were returned to in 2004 following the end of that franchise, completing the operator's allocation of all 39 original units. The Class 165 fleet has been central to ' services on key routes such as the to line (including stops at and the shuttle) and the mainline to Parkway, , and , supporting both commuter and inter-urban travel patterns. Maintenance for these units is primarily handled at the depot, a facility originally constructed in 1990-1991 and expanded under 's management to include wheel lathe capabilities and routine servicing bays, ensuring high availability for the operator's diesel fleet. Over the years, has implemented several upgrades to enhance passenger comfort and accessibility on its Class 165-operated services. Between 2003 and 2005, all units underwent a major refurbishment that introduced air-conditioning systems and replaced opening hopper windows with sealed units, addressing reliability issues on non-electrified routes. Further modifications from 2015 focused on toilet areas to achieve full compliance with the (DDA), including the installation of accessible facilities during heavy overhauls. In line with evolving service demands, announced plans in 2025 to reintroduce seating on select routes, initially as an on-the-day upgrade option to cater to business travellers on Marylebone-Birmingham workings. As of 2025, an ongoing refurbishment programme for the Class 165 fleet includes the installation of LED lighting, new flooring, seat cushion renewals, and interior repaints to extend operational life and improve the onboard experience. Looking ahead, has confirmed plans for partial fleet replacement starting in 2026, with 13 refurbished Mark 5A push-pull sets entering service on to West Midlands routes, thereby cascading Class 165 units to bolster capacity on shorter suburban services like those to and . This transition aims to add up to 10,000 additional seats per day while maintaining the Class 165's role in the operator's diesel fleet.

Great Western Railway

First Great Western Link assumed operation of the Class 165/1 fleet from Thames Trains in April 2004, with the units deployed on suburban and regional services from London Paddington. The franchise was later incorporated into the Greater Western franchise in 2007. By 2010, the 17 three-car Class 165/1 units were fully integrated into GWR's fleet for non-electrified routes, displaced from longer-distance services due to electrification projects and reassigned to support local operations in the Thames Valley area. In the , Class 165/1 units provide stopping s on lines including those to Windsor & Eton Central, , and Marlow, connecting at key junctions such as , , and Twyford to the . These routes, characterized by short platforms and tight curves, suit the compact design of the Class 165/1 variant, enabling efficient operation on low-demand leisure and commuter flows; for example, the Marlow , known locally as the "Marlow Donkey," relies on these units for its daily shuttles via Bourne End. To maximize capacity on these busy suburban lines, GWR removed first-class accommodation from all Class 165/1 units in 2015 during a rebranding and interior refresh, converting the dedicated sections to additional standard-class seating. From 2018 onward, following the introduction of (IEP) bi-mode trains on mainline routes, Class 165/1 units were cascaded to the area to bolster regional services, with the first diagrams commencing in of that year. They now operate on routes such as Temple Meads to , Central to , and the cross-country to Central service, often paired with Class 166 units to form longer consists for higher-demand legs. This redeployment, comprising up to 19 additional Class 165/1 units shifted from duties, addressed overcrowding on legacy Sprinter services and integrated the Turbos into GWR's broader network, providing relief capacity alongside the IEP fleet during peak periods and disruptions. As of November 2025, approximately 18 Class 165/1 units operate in the and area, with the remainder on branches.

Incidents and Accidents

Major Collisions and Derailments

On 2 November 1994, Class 165 unit 165102 collided with the buffer stops at station after passing a signal at danger (SPAD) under low conditions, resulting in a low-speed impact and . The incident injured seven people, including serious injuries to the driver, with no fatalities reported. The Railways Archive records this as a buffer stop collision without a formal published report, though subsequent reviews attributed it to poor railhead affecting braking performance. The most severe incident involving a Class 165 occurred on 5 October 1999 at Junction near , where unit 165115, operating a Thames Trains service from to Bedwyn, passed signal SN109 at danger and collided head-on with a First Great Western High Speed Train () traveling from to . The Turbo unit was traveling at approximately 50 mph (80 km/h) and the HST at about 80 mph (130 km/h), resulting in a closing speed of around 130 mph (210 km/h); the collision killed 31 people (24 on the Class 165 and 7 on the HST) and injured over 400 others, with 227 requiring hospitalization. The primary cause was identified as poor signal sighting exacerbated by sunlight, inadequate driver training at Thames Trains, and the absence of Automatic Train Protection (ATP), allowing the SPAD to go unchecked; systemic issues included signaller response failures and broader safety management deficiencies. The Cullen Inquiry, appointed by the Health and Safety Commission, recommended widespread reforms, including mandatory implementation of the Train Protection and Warning System (TPWS) across the network by 2003, enhanced signal visibility standards, improved driver competency assessments, and upgrades to train . Unit 165115 was scrapped following the extensive damage to its leading vehicle. On 16 June 2016, an empty Class 165 unit 165124, operated by Great Western Railway, derailed at trap points near Paddington station after the driver passed a red signal (SN6004) at around 18:12 hrs due to a misunderstanding of the route knowledge. The train, proceeding at low speed without passengers, derailed without causing injuries or fatalities, though it disrupted services at one of London's busiest stations for several hours. The Rail Accident Investigation Branch (RAIB) investigation highlighted contributing factors such as the driver's limited recent experience on the route (last trained in October 2015), non-compliance with local instructions by the signaller, and the driver's fasting state during Ramadan, which may have affected concentration after 16 hours without food. Recommendations included refreshing driver route knowledge periodically and reviewing trap point designs for higher-speed resilience, but no specific ATP failures were cited as the Class 165/1 variant involved lacked full ATP installation on this route. As of November 2025, no major collisions or derailments involving Class 165 units have been reported since 2016, according to Rail Accident Investigation Branch records.

Other Notable Events

In the 2005 tunnel collapse, the driver of unit 165037 observed the structure's failure from the station platform and immediately alerted control, halting the service just short of the collapse site and preventing what could have been a catastrophic incident involving passengers. The partial collapse occurred at approximately 7:34 pm on 30 June 2005, when excessive backfill material caused a 30-meter section of the artificial tunnel—built over the active for a supermarket development—to fail, spilling tonnes of debris onto the tracks and closing the line for seven weeks. This event underscored critical lapses in construction monitoring and rail infrastructure protection, prompting reviews by the on engineering practices near operational railways. A significant near-miss took place on 21 June 2020 at , where train 2C72—composed of Class 165 units 165015 and 165006—passed signal JT6 at danger due to the leading driver's fatigue, stemming from undiagnosed obstructive sleep apnoea and inadequate rest. The tripcock system activated approximately 900 meters beyond the signal, applying emergency brakes and stopping the train about 23 meters short of a stationary service, averting a . The Rail Accident Investigation Branch (RAIB) investigation identified underlying issues in ' fatigue risk management, including insufficient screening for sleep disorders in medical assessments, high managerial turnover affecting oversight, and lack of adherence to fatigue guidance; recommendations included enhanced driver competency evaluations and routine health checks for fatigue-related conditions. Class 165 units operating over London Underground's sections between and Harrow-on-the-Hill are fitted with tripcock devices, which remain active at all times to interface with trackside signal triggers and automatically apply brakes if a train passes a red signal. These systems have repeatedly prevented unauthorized runs and potential SPAD incidents during procedural operations, particularly in the early years following the units' introduction in the , by enforcing strict signal compliance on shared . The tripcock's role was again evident in the 2020 Chalfont & Latimer event, where it enforced an emergency stop despite the driver's unauthorized reset attempt, demonstrating its reliability in safeguarding against on mixed-use routes.

Fleet Details

Current Status and Allocation

As of November 2025, the British Rail Class 165 fleet totals 75 units in active , with 39 Class 165/0 units allocated to and 36 Class 165/1 units allocated to Great Western Railway (GWR). One unit, 165115, was scrapped following its destruction in the on 5 October 1999. There have been no further withdrawals, exports, or long-term storage of units since the , with the entire fleet remaining in operational use. All surviving units are owned by and leased to and GWR, with an average age of 33–35 years given their construction between 1990 and 1992. The fleet's configurations reflect their original builds, with no changes to unit lengths or variants in recent years.
OperatorVariant2-Car Units3-Car UnitsTotal Units
165/0281139
Great Western Railway165/1201636
Total482775
Following Great Western Railway's comprehensive refurbishment programme completed in 2024—including interior renewals, and lighting upgrades—the Class 165/1 fleet operates at full readiness across its allocated routes. ' Class 165/0 units continue to benefit from earlier upgrades, with a new refresh initiated in late 2025.

Refurbishments and Modifications

The Class 165 fleet underwent a major refurbishment programme by between 2003 and 2005, which included the installation of air-conditioning systems and the replacement of opening windows with sealed units to improve comfort and . This work addressed the limitations of the original design, enhancing ventilation across all 39 units operated by Chiltern. In 2015, Great Western Railway (GWR) removed all first-class accommodation from its Class 165 units as part of a optimisation initiative, converting these areas to class to better serve high-demand suburban routes in the and beyond. This modification increased overall seating by reallocating space previously dedicated to premium seating, aligning with evolving passenger patterns on shorter journeys. From 2021 to 2024, GWR invested in a comprehensive internal refresh of its entire Class 165 fleet, comprising 20 two-car and 16 three-car units, carried out by Rail Services at its facility. The programme, completed in September 2024, involved replacing seat coverings and foams where necessary, installing new flooring, repainting interior panels, and conducting deep cleans to modernise the passenger environment and extend unit life. These upgrades focused on durability and aesthetics, with anti-corrosion treatments applied to underframe components for improved reliability. In October 2024, GWR awarded Rail Systems a to overhaul the heating, ventilation, and air-conditioning (HVAC) systems on its 36 Class 165 units, with work scheduled to commence in January 2025. This initiative targets the 352 HVAC units across the fleet, aiming to enhance climate control performance and reduce maintenance downtime on services. By November 2025, had initiated a refresh programme for its Class 165 fleet, incorporating new seating, LED lighting, interior repaints, and information screens to improve and visual appeal. Concurrently, GWR progressed with the installation of (CCTV) systems across its Class 165 and 166 units under a procurement tender issued earlier in the year, bolstering passenger security features.

Special Projects

Named Units

As part of Great Western Railway's (GWR) practice of honoring long-serving employees through unit namings, two Class 165/1 diesel multiple units have received dedicated names to recognize their contributions to the railway and community. These namings highlight the company's tradition of commemorating staff achievements, often transferring names from other fleet members like Class 166 units as operational needs evolve. Unit 165119 bears the name "Norman Topsom ", dedicated to Norman Topsom, a railwayman who served for 53 years from 1962 until his retirement as Twyford station master in 2015. Known locally as "Mr. Twyford" for his dedication to passenger service, safety, and community engagement in the Henley area, Topsom received an in 2010 for his services to the railway and local residents. The name was first applied to Class 166 unit 166204 in a ceremony at station upon his retirement, before being transferred to 165119 around 2019 to align with GWR's operations; vinyl nameplates were updated in a distinct style by 2023. Similarly, unit 165120 is named "Roger Watkins - The GWR Master Planner" in tribute to Roger Watkins, a pivotal GWR train planning specialist who led timetable developments supporting the company's operational transformation in the . Watkins, a lifelong railwayman, passed away in October 2017, prompting the initial naming on Class 166 unit 166220 shortly thereafter as a memorial gesture. The dedication was transferred to 165120 in May 2023 via applied vinyl nameplates, reflecting its ongoing role in GWR's regional fleet. These namings underscore GWR's post-2010s emphasis on staff recognition within its allocated Class 165 fleet, with no additional units named as of November 2025.

Hybrid Powertrain Initiative

In September , announced the HyDrive project in partnership with Magtec and to convert existing Class 165 diesel multiple units (DMUs) into hybrid diesel-battery trains, aiming to reduce carbon emissions, fuel consumption, and in urban areas to support the UK's decarbonization goals. The initiative targeted retrofitting batteries and advanced systems to enable shut-off during approaches and energy capture, with the prototype expected to demonstrate up to 25% fuel savings based on initial modeling, though real-world figures were not fully validated before cancellation. Development progressed with the selection of two-car unit 165004 from ' fleet as the prototype, which was withdrawn from service and sent to LORAM's facility in for conversion in April 2020. The work involved removing the existing engine and hydraulic transmission, installing Magtec's lithium-ion traction batteries, modern electronic controls, and high-efficiency electric traction motors to create a self-charging capable of battery-only operation for short distances. By early 2022, the conversion had advanced to the stage where the technology was fitted to one vehicle and prepared for performance testing, focusing on seamless power transitions and emissions reductions. Limited on-track trials commenced in 2022, confirming potential for lower usage and emissions through battery assistance, but encountered integration challenges with the aging Class 165 underframe and control interfaces, alongside escalating costs estimated at £4 million for the single amid shifting industry priorities toward full . These issues, combined with projected per-unit conversion costs of £3-5 million, made scaling uneconomical compared to procuring new battery-electric trains. The project was abandoned in mid-2023, with no units entering operational hybrid service, as prioritized fleet replacement and studies over older DMUs. The unit 165004 was subsequently returned to service on 22 August in its original diesel configuration following partial reversal of modifications.

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