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Heathrow Terminal 5 Transit

The Heathrow Terminal 5 Transit is an (APM) system that connects the main terminal building (T5A) to the satellite buildings T5B and T5C at London Heathrow Airport in the . Operating entirely airside and underground via dedicated tunnels, it uses driverless trains to transport passengers between these facilities, minimizing walking distances and enhancing efficiency for the airport's high-volume operations. The system, part of the broader £4.3 billion Terminal 5 development, opened with T5A and T5B in March 2008 and extended to T5C in May 2010. Designed by a consortium including architects and engineers led by HOK, the employs vehicles on a rubber-tyred guideway, achieving speeds of up to 30 miles per hour (48 km/h). Journey times are approximately 45 seconds from T5A to T5B and under 90 seconds to T5C, supporting seamless transfers for departing and arriving passengers across the . With a of 6,500 passengers per hour, it handles the demands of , which serves primarily flights and accommodated around 35 million passengers in 2024. The system's control infrastructure incorporates safety-rated technology from , ensuring reliable operation with SIL 2 certification under EN 61508 standards. Distinct from the nearby (PRT) pod system that links Terminal 5 to parking areas, the focuses exclusively on intra-terminal movement and remains a critical component of Heathrow's passenger flow strategy. In October 2025, a new fleet of vehicles was launched to increase capacity and enhance the passenger experience. Ongoing investments, including infrastructure upgrades, continue to support its role in one of Europe's busiest hubs.

Overview

Description

The Heathrow Terminal 5 Transit is an underground, driverless (APM) system that employs rubber-tyred vehicles to transport passengers efficiently within the airport complex. In October 2025, new cars were introduced to enhance the system. This system exclusively serves airside areas, connecting the main Terminal 5A building to the satellite terminals 5B and 5C, and is accessible only to passengers and authorized personnel after screening. The route runs through a 0.67 km (0.42 mi) dual-lane , providing a seamless link between these key facilities. Operated by (formerly BAA), the Transit system commenced operations in March 2008 with the opening of T5A and T5B, and was extended to T5C in 2010.

Purpose and Integration

The Heathrow Terminal 5 Transit serves as an automated system designed primarily to transport passengers airside between the main Terminal 5A building, which houses and arrival facilities, and the piers 5B and 5C, where boarding are located, thereby reducing the time required for transfers that would otherwise involve lengthy walks of up to 15 minutes. This efficiency is crucial in a terminal complex spanning a vast area, as the transit covers distances that long corridors and moving walkways alone would make more fatiguing and time-consuming for passengers. Integration with airside facilities is seamless, providing direct connections to departure gates, areas, and checkpoints, while ensuring step-free access throughout the entire route to accommodate passengers with reduced mobility. The system enhances overall airport efficiency by managing peak passenger flows for , the primary operator at Terminal 5 as its dedicated hub, accommodating over 35 million passengers annually. Operating exclusively within the airside of Terminal 5, the Transit complements landside transport options such as the Heathrow Express train, Elizabeth Line services, and buses, which connect the airport to central London and other terminals but do not serve intra-terminal movements. By prioritizing rapid and accessible intra-terminal connectivity, it contributes to a smoother passenger experience in one of Europe's busiest aviation hubs.

History

Planning and Construction

The planning for the Heathrow Terminal 5 Transit system originated in 1986 as an integral component of the broader Terminal 5 masterplan developed by the British Airports Authority (BAA), now known as . This initiative aimed to enhance intra-terminal connectivity within the expanding airport complex to accommodate growing passenger volumes. The proposal underwent extensive scrutiny, culminating in a that began on May 16, 1995, and lasted nearly four years until March 17, 1999—the longest such inquiry in British history—addressing environmental, traffic, and infrastructure concerns. On November 20, 2001, the approved the Terminal 5 project, including the transit system, paving the way for construction. Construction of the transit system commenced in 2002 alongside the overall Terminal 5 , managed by BAA with a total project budget of £4.3 billion. was the primary contractor for the automated (APM) components, securing a €63 million in 1999 to supply the 200 vehicles and associated infrastructure. challenges included integrating the approximately 700-meter dual-track system into underground tunnels running beneath active runways, taxiways, and terminal structures, necessitating precise excavation and coordination to minimize disruptions to ongoing operations. The system's costs were allocated within the broader Terminal 5 budget, reflecting its role as a critical enabler for seamless passenger movement rather than a standalone expense. The design emphasized an automated, driverless to achieve high , targeting up to 6,000 passengers per hour in peak periods to support the terminal's initial annual throughput of 30 million passengers. This marked a significant deployment of advanced APM tailored for airside use, prioritizing reliability and efficiency in a high-density . and testing began in earnest in 2007, involving simulations and trial runs to validate performance ahead of the March 2008 opening. By late 2007, the transit infrastructure was substantially complete, ensuring readiness for operational handover.

Opening and Extensions

The Heathrow Terminal 5 Transit system, an automated connecting the terminal's satellite buildings, commenced operations on , 2008, aligning with the opening of Terminal 5 itself. Initial service was limited to shuttling passengers between the main Terminal 5A and the adjacent Terminal 5B, facilitating seamless airside transfers within the complex. The system carried its first passengers on that day, marking the start of automated intra-terminal transport at the facility. Equipped with an initial fleet of 10 Bombardier vehicles, the system was designed to handle peak demands efficiently from launch, operating on a dedicated loop. Early operations coincided with broader Terminal 5 challenges, including baggage handling disruptions that affected overall passenger flow, though the transit itself supported uninterrupted movement between the initial stops. In May 2010, the system underwent a key extension to incorporate the newly operational Terminal 5C satellite building, enhancing connectivity across the full Terminal 5 complex and accommodating increased long-haul traffic. This expansion aligned with ' transfer processes, as the airline, the primary operator at Terminal 5, integrated the transit into its hub operations for efficient passenger routing.

Upgrades and Modernization

In 2022, —having acquired Bombardier's transportation business in 2021—secured a contract to supply 20 additional 200 automated vehicles for the Heathrow Terminal 5 Transit system, augmenting the original fleet to address rising passenger volumes. Deliveries of these vehicles began in September 2022, with the units designed to integrate seamlessly with the existing along the 700-meter airside route connecting Terminal 5A to the satellite buildings 5B and 5C. The implementation phase culminated in the full integration and launch of the expanded fleet on October 8, 2025, marking a significant step in the system's modernization. This upgrade incorporated six new vehicles initially, along with a reconfigured track layout, to enhance operational efficiency and passenger flow within the terminal complex. The additions have increased the system's overall capacity, enabling higher throughput during peak periods while delivering smoother operations through improved vehicle performance. Modernization efforts extended beyond hardware to include software enhancements for advanced , ensuring more reliable service intervals and better synchronization with Heathrow's broader for real-time passenger updates. These improvements prioritize energy efficiency in the design, reducing operational costs amid growing demand. The upgrades position the transit system to support Terminal 5's designed capacity of 35 million passengers annually and align with the airport's proposals, which aim to boost total throughput to 150 million passengers per year through new runways and facilities.

Route and Infrastructure

Stations

The Heathrow Terminal 5 Transit system features three airside stations integrated into the terminal complex, facilitating seamless passenger movement between the main building and satellite piers. These stations are designed to support efficient transfers within the secure area, connecting to over 50 departure gates across the satellites. Terminal 5A station is situated at the base of the main terminal building, serving gates A1 to A23. It includes platform screen doors consisting of glass walls that separate the rail platform from the station concourse, with controlled openings for passenger access, enhancing safety and climate control. Access to the station is provided via escalators and lifts connecting to the departures and arrivals levels, ensuring connectivity for passengers post-security or upon arrival. Terminal 5B station, located mid-route in the first satellite pier, serves gates B32 to B48 and features a compact layout with direct walkways to the gates. The design emphasizes quick passenger flow, including seating areas near the platform for brief waits during transfers. Terminal 5C station marks the end of the route in the second satellite pier, serving gates C52 to C66; it was added with the opening of in May 2010. Similar in design to Terminal 5B, it provides direct access to gates and includes links for transfers back to lounges in Terminals 5A and 5B via the Transit. All three stations are fully enclosed within the airside environment, equipped with LED for real-time flight and directional information, as well as comprehensive for security. Platforms offer step-free access, with gap-free boarding enabled by the automated people mover's precise alignment and low-floor design. The stations support efficient passenger flow, accommodating transfers to the satellite gates with short dwell times at platforms to minimize delays.

Track and Tunnels

The guideway of the Heathrow Terminal 5 Transit system consists of dual concrete tracks, one dedicated to each direction of travel, designed to support the rubber-tyred automated vehicles. A central guide rail runs along the guideway to provide steering for the trains. The total length of the guideway spans approximately 0.6 km, with the section between Terminal 5A and 5B measuring about 0.45 km and the branch to Terminal 5C extending roughly 0.22 km. The infrastructure is enclosed within two parallel underground tunnels linking the main terminal building (5A) to the satellite buildings (5B and 5C). These tunnels were constructed primarily using cut-and-cover techniques and the Lasershell sequential excavation method, ensuring compatibility with the airport's dense subsurface environment. While specific diameters for the transit tunnels are not publicly detailed, the overall tunnel network incorporates bores up to 8.8 m to accommodate various utilities, with the transit tunnels optimized for the guideway's scale. The design accounts for the vibrations from nearby aircraft operations and taxiways, with ground movement closely monitored during construction to protect structural integrity. Ventilation systems within the tunnels include axial fans and smoke extraction mechanisms integrated into the life safety framework, enabling effective air circulation and supporting evacuation protocols during emergencies. The power supply for the utilizes a third-rail at 750 V , providing reliable energy to the with built-in to maintain high operational . As of 2025, the has been upgraded with new to enhance reliability and . Automated crossovers and guideway switches are installed exclusively for and operational recovery, positioned outside the primary route to avoid disruptions to . Maintenance access is facilitated through side shafts along the tunnels for inspections and repairs, with the system integrated into Heathrow's wider for coordinated upkeep.

Vehicles

Original Fleet

The original fleet of the Heathrow Terminal 5 Transit comprised 10 Bombardier 200 automated vehicles, deployed upon the system's opening in 2008. These driverless, rubber-tyred units operated on a guideway, enabling efficient airside between Terminal 5A and the satellite buildings 5B and 5C. Each vehicle measured approximately 12 meters in length, with dimensions supporting a low-floor design for enhanced accessibility, including for passenger comfort and interior LED lighting in later configurations. The fleet could run in single-car or coupled formations of up to four cars, providing a total of up to 200 passengers per four-car at a density of 4 passengers per square meter. Powered by 750 V third-rail electric motors with on-board rotary propulsion, the vehicles achieved a top speed of 50 km/h (31 mph) and an average operating speed of approximately 40 km/h, contributing to short journey times across the 0.67 km route. This setup supported high reliability, with the fleet serving alongside new additions as of 2025 and handling peak capacities exceeding 6,000 passengers per hour in each direction while maintaining minimal downtime.

New Fleet

Under a 1999 contract transferred to following its 2021 acquisition of , is supplying 20 additional 200 automated vehicles for the Heathrow Terminal 5 Transit system, with deliveries announced in 2022. These single-car units maintain similar dimensions to the originals but incorporate significant enhancements for improved performance and passenger comfort. Key upgrades in the new fleet include the latest-generation hardware and software for enhanced reliability, upgraded (HVAC) systems, improved air compressors and propulsion systems for better , a new with digital displays, and advanced lighting. The rubber-tyred design contributes to quieter operation compared to traditional systems, reducing noise and vibration in the underground tunnels. These vehicles also feature enhanced backups to support operations, ensuring greater resilience during power disruptions. Each Innovia APM 200 unit in the new fleet accommodates up to 220 passengers, with an optimized interior layout providing more standing space and accessibility features for diverse user needs. Performance specifications align with the system's operational requirements, maintaining maximum speeds of 50 km/h while offering faster acceleration through the upgraded propulsion, which reduces journey times slightly over the 0.67 km route. The design achieves approximately 20% lower per trip compared to the original fleet, supporting Heathrow's goals. The new vehicles began entering service in October 2025, augmenting the existing 10-unit fleet to increase total capacity to 30 vehicles. As of October 2025, the new APM service has launched, enhancing passenger capacity at Terminal 5. This expansion extends the system's service life beyond 2040, with the Innovia APM 200 platform known for its durability in high-traffic airport environments.

Operations

Service Patterns

The Heathrow Terminal 5 Transit operates in alignment with the terminal's flight schedules, providing service from approximately 4:00 AM, coinciding with the first departures, to around 1:00 AM following the last arrivals, enabling 24/7 capability during extended operations when required. The system runs bidirectional shuttles on a loop connecting Terminal 5A, 5B, and 5C, with short turns available for operational adjustments during maintenance periods. Peak frequencies achieve headways of 90 seconds, supporting up to 40 trains per hour in each direction to handle high passenger volumes efficiently. Off-peak intervals are typically 2 to 3 minutes, ensuring consistent connectivity without excessive dwell times at stations. Maintenance routines include overnight stabling of within the tunnels and weekly inspections to uphold reliability. With a fleet augmented by new for enhanced reliability, disruptions to the service are rare due to the automated nature of the , but pedestrian walkways provide a reliable option between terminals, supplemented by contingency measures for peak demands.

Capacity and Ridership

The Heathrow Terminal 5 Transit system was designed to transport up to 6,500 passengers per hour in each direction between the main terminal (T5A) and the satellite buildings (T5B and T5C), facilitating rapid airside transfers at speeds of 30 with journey times of seconds to T5B and under 90 seconds to T5C. This capacity supports peak demand from transfer passengers who rely on the system to connect flights efficiently within the Terminal 5 complex, which serves a substantial share of the airport's 83.9 million annual passengers as of 2024. Ridership on the transit system has mirrored broader airport trends, reaching pre-pandemic highs alongside Terminal 5's handling of approximately 34 million passengers in 2019 before declining sharply to around half that level in 2020 due to restrictions, with recovery to approximately 34 million at Terminal 5 by 2024 driven by resumed international travel. As of October 2025, new Innovia APM 200 vehicles were introduced to augment the original Bombardier units, increasing overall system capacity to accommodate growing demand while maintaining short headways of 90 seconds. The system's efficiency is evidenced by Heathrow's strong operational performance, contributing to the airport's recognition as Europe's most punctual major airport in 2025, supported by automated operations that minimize disruptions for intra-terminal movements. Economically, the reduces in the terminal complex by providing faster transfers than walking routes, enhancing overall throughput and connectivity for the UK's primary hub.

Technical Specifications

System Technology

The Heathrow Terminal 5 Transit system achieves full automation at Grade of Automation 4 (GoA4), enabling completely driverless operation without any onboard personnel or platform supervision. This level of automation relies on (CBTC), which facilitates precise train spacing through dynamic moving-block signaling, allowing vehicles to operate at close headways while maintaining safety margins. Propulsion is provided by electrically powered rubber-tyred vehicles, which run on a dedicated guideway to deliver controlled and deceleration for efficient, jerk-free motion. These vehicles enable the system to handle the underground route's geometry, including curves and gradients, with a top speed of up to 50 km/h (31 mph). The design emphasizes energy efficiency and low noise, contributing to the system's suitability for environments. Operations are managed from a centralized control center located in the Terminal 5 complex, where operators oversee the network using real-time data from trackside sensors for position tracking, health monitoring, and fault detection. The system incorporates redundant communication protocols to ensure continuous connectivity between vehicles and . Power delivery occurs via an electrified guideway, with systems achieving . Introduced in 2008 as one of the inaugural deployments of Alstom's (formerly Bombardier's) Innovia Automated People Mover (APM) technology, the system pioneered rubber-tyred, driverless transit integration in a major European airport hub. As of October 2025, capacity enhancements included the launch of 20 new Innovia APM 200 vehicles, featuring updated interiors, LED lighting, and improved energy efficiency to support higher ridership demands.

Safety and Accessibility Features

The Heathrow Terminal 5 Transit system prioritizes passenger safety through a combination of structural and automated measures. Platforms at all stations feature glass walls that separate the rail area from the , with designated openings for access; these walls are designed to contain in the event of a train fire, enhancing protection during emergencies. The overall system adheres to (SIL) 2 standards under EN 61508, ensuring robust reliability for its automated operations and integration with safety-critical functions. Fire protection is integrated via a comprehensive life safety system, including smoke detection and a dedicated ventilation setup. This comprises 12 axial fans distributed across four fan stations, each capable of operating in supply or extract mode to clear and maintain air quality during incidents; backup modes automatically activate to compensate for any equipment . Materials throughout the tunnels and stations incorporate fire-resistant properties to limit fire spread, aligning with the terminal's fire-engineered design that combines detection, , and passive barriers. Accessibility is embedded in the system's to support inclusive . Stations provide step-free access via glass-enclosed elevators that connect directly from the terminal's departures and arrivals levels to the platforms, facilitating easy entry for users and those with mobility aids. The automated vehicles offer dedicated spaces for wheelchairs in each unit, ensuring seamless boarding without gaps or steps. Audio and visual announcements, available in multiple languages, guide passengers, while tactile and elements on signage and controls aid those with visual impairments, in line with broader accessibility protocols. Emergency protocols emphasize rapid response and evacuation. The system automatically stops vehicles upon detection of obstacles or faults through interfaces with the train controller, using high-reliability digital signals to pinpoint locations. In fire or other emergencies, operators select the optimal evacuation route via a dedicated interface, triggering illuminated signage along tunnel walkways to direct passengers to fresh air; this process supports a targeted evacuation time of approximately 2 minutes to safe areas. Emergency walkways and potential slide options in tunnels further enable quick egress. The Transit complies with UK rail safety regulations overseen by the Office of Rail and Road (ORR) and accessibility directives, reflecting its under rigorous guided standards. Since opening in , it has recorded zero serious incidents, underscoring the effectiveness of these features in a high-volume environment handling millions of passengers annually.

References

  1. [1]
    Heathrow Terminal Five - British Airways Media Centre
    An underground track transit system has been installed throughout Terminal 5 to transfer customers between the buildings. The system will move 6,500 ...
  2. [2]
    Terminal 5, Heathrow Airport – Transport – Projects - RSHP
    A light rail system known as the Track Transit System links the terminal buildings and driverless trains (the Automated People Mover) will transport passengers ...
  3. [3]
    Case Study: Track Transit Control – Heathrow T5
    The terminals are connected by two underground tunnels which house a Track Transit System (an Automated People Mover or commonly referred to as a train) that ...
  4. [4]
    Heathrow Pod Parking at Terminal 5
    Fast transit to terminal. Heathrow Pod Parking allows you to get to and from Terminal 5 in a driverless, electric vehicle in just six minutes.
  5. [5]
    TMS® wins project to provide TPMS in APMs at Heathrow Airport
    The APMs operate from Terminal 5 at Heathrow. APMs smoothly transport passengers between locations as fully automated, guided rubber-tired vehicles.Missing: tyred | Show results with:tyred
  6. [6]
    Extra Heathrow peoplemover cars to be delivered from September
    Feb 24, 2022 · UK: Alstom has told Metro Report International that the 20 Innovia APM 200 automated peoplemover vehicles ordered for use on the Terminal 5 ...
  7. [7]
    Plane passenger's relaxing 'Heathrow tip' avoids crowds at airport
    Nov 21, 2024 · Heathrow's Terminal 5 Transit is an automated people mover system ... The tunnel totals 0.67 kilometres (0.42 miles) in length. Article ...
  8. [8]
    About Heathrow
    Find out more about our company, Heathrow Airport Holdings Limited including our history, who runs the airport and facts and figures.Heathrow's Strategy · Company FAQs · Our History · Executive CommitteeMissing: Transit | Show results with:Transit<|control11|><|separator|>
  9. [9]
    [PDF] The opening of Heathrow Terminal 5 - Parliament (publications)
    Nov 3, 2008 · I started a couple of weeks before my official starting date, which was 1 April. I had intended to use two weeks to be out in the operation ...
  10. [10]
    How To Get Between Terminals at London Heathrow Airport [LHR]
    Jul 23, 2025 · Walking between Terminal 5 main building and the 5C satellite terminal: around 15 minutes. Advertisement. Connecting to any other terminal ...
  11. [11]
    Flight connections | Information - British Airways
    Transferring within Terminal 5 (A, B or C Gates): you can arrange to travel in an electric buggy, which takes 10-15 minutes depending on the arrival and ...
  12. [12]
    What's it like to walk underneath Heathrow airport? - Pointszilla
    Jul 22, 2025 · Why would you want to walk between terminals? The transit trains are efficient, taking less than a minute between the three parts of Terminal 5.
  13. [13]
    Heathrow Terminal 5 Information
    Find your way around Terminal 5. Our interactive maps cover everything from roads and car parks to shops, stations and departure gates.Missing: System | Show results with:System
  14. [14]
    Heathrow Terminal 5 - Improving Delivery Models
    Oct 16, 2021 · T5 is a complex multi-modal transport interchange designed to handle 30 million passengers per year over a 260 Ha site. The program included ...Missing: Transit ridership
  15. [15]
    [PDF] Heathrow (SP) Limited
    Dec 31, 2018 · Terminal 5 handled 32.8 million passengers in 2018 (2017: 32.3 million). Heathrow airport's terminal capacity is currently estimated to be ...<|separator|>
  16. [16]
    [PDF] ANNUAL REPORT 2023 - Heathrow Airport
    In 2023, 33.3 million passengers travelled through. Terminal 5 (2022: 26.7 million). Our total terminal capacity is estimated to be 85 million passenger per ...
  17. [17]
    Heathrow (Terminal 5) (Hansard, 20 November 2001)
    Nov 20, 2001 · The inquiry into terminal 5 was the longest in British planning history. It opened in May 1995 and closed in March 1999. The inspector, Mr. Roy ...
  18. [18]
    Moving people into the future at Heathrow Terminal 5
    Jan 21, 2020 · The TTS, built by Bombardier Transportation, comprises 10 cars that can move up to 6,000 passengers an hour. The trains depart every 90 ...
  19. [19]
    IT failure at Heathrow T5: What really happened | ZDNET
    Apr 7, 2008 · “Devices are deployed, connections are being integrated and 2007 will be testing year. The airline is moving onto the T5 systems, so they run ...
  20. [20]
    Our History - Heathrow Airport
    His plan saw the creation of a central area which was accessed via a 'vehicular subway' running underneath the original main runway. The focal point of ...<|separator|>
  21. [21]
    Transport Interchange, Heathrow Terminal 5 - RSHP
    In 2008 BAA completed its £4.3 billion Terminal 5 capital improvements project with the opening of its landside rail station and airside track transit system.<|control11|><|separator|>
  22. [22]
    Terminal 5 opens its doors | Airline industry - The Guardian
    The first passengers through Heathrow's £4.3m Terminal 5 spoke of their delight at using Britain's newest airport building this morning.<|separator|>
  23. [23]
    [PDF] BAA (SP) Limited Results for the six months ended 30 June 2011
    Jul 27, 2011 · Completion of these activities was followed by partial live operation and full operation of. Terminal 5C commenced in June 2011, consistent with ...
  24. [24]
    London Heathrow Terminal 5 | Airport information - British Airways
    Terminal 5 offers a seamless airport experience with stylish shops, restaurants and luxurious lounges. Our partner Iberia also operates from Terminal 5, making ...
  25. [25]
    Most punctual hub in Europe - results for the nine months ended 30 ...
    Oct 22, 2025 · One of these projects includes an upgrade to the passenger transit system in Terminal 5 - adding a further six new vehicles to the fleet and ...
  26. [26]
    [PDF] Expanding-Heathrow-proposal-summary-31-07-25.pdf
    Jul 31, 2025 · As part of our expansion plans, we would invest in building a new terminal complex to the west of Terminal 5, “T5X”, consisting of a processing ...
  27. [27]
    T5 prepares for take-off - Construction News
    Dec 13, 2001 · a 600 m cut-and-cover tunnel for new 'people-mover' linking Core building with the two Satellites The project includes plans for parking, hotels ...
  28. [28]
    Engineering the space below Terminal 5 | Ingenia
    The immense size of the structures and their basements posed significant challenges for both BAA's designers and constructors. These included excavation in ...
  29. [29]
    None
    ### Summary of Heathrow T5 Track Transit System Details
  30. [30]
    [PDF] Technology Scan White Paper - NCTCOG
    May 9, 2018 · Bombardier INNOVIA APM 200/300​​ These two models are very similar. The INNOVIA APM 300 offers increased passenger capacity, higher top speed and ...
  31. [31]
    Innovia people mover and monorail: Efficient solutions for urban and ...
    Jeddah's Innovia APM system moves people from the check-in area to the boarding area in only 85 seconds with a capacity of 4,000 passengers per hour. Since 2020 ...Missing: Terminal | Show results with:Terminal
  32. [32]
    Innovia automated people mover (APM) systems - Alstom
    Jeddah's Innovia APM system moves people from the check-in area to the boarding area in only 85 seconds with a capacity of 4,000 passengers per hour. Since 2020 ...Missing: Heathrow launch<|control11|><|separator|>
  33. [33]
    What time can I enter London's Heathrow Airport if I have a flight ...
    Mar 4, 2025 · There are also no scheduled departures between 23:00 and 06:00. The difference in aircraft movements permitted (5,800) and the voluntary ...
  34. [34]
    Departures - Heathrow Airport
    Find the latest status information for flights departing from Heathrow, updated minute-by-minute. Pick a date Current time 00:01 01:00 02:00 03:00 04:00 05:00 ...
  35. [35]
    Heathrow Terminal 5: shifting BA's baggage - The Telegraph
    Feb 29, 2008 · Heathrow Terminal 5: shifting BA's baggage. The Telegraph Group's ... 90 seconds. T5 A and T5 B will open on March 27 and by the end of ...
  36. [36]
    Heathrow's Terminal 5 — worth the wait - NBC News
    Feb 12, 2008 · Terminal 5's departure hall is very spacious and contains 96 metallic blue check-in kiosks. ... gates, none of which is more than six minutes walk ...
  37. [37]
    [PDF] HEATHROW TRAVEL REPORT
    In 2024, transfer passengers made up 21.4% of total passenger numbers. These passengers do not touch surface access networks at or around Heathrow. This ...Missing: Transit | Show results with:Transit
  38. [38]
    London Heathrow Airport Uses Real-Time Analytics for Improving ...
    Sep 24, 2020 · We developed and implemented a pilot study of a real-time data-sharing and collaborative decision-making process, selected to improve the efficiency of ...
  39. [39]
    https://www.heathrow.com/content/dam/heathrow/web/common/documents/company/heathrow-2-0-sustainability/futher-reading/STZ-2024-annual-report.pdf
  40. [40]
    London's Heathrow Airport Reports Record Air Travel Demand In 2024
    Feb 26, 2025 · Indeed, 2020 saw just 22.1 million passengers pass through Heathrow's doors, with this figure plummeting further to 19.4 million in 2021.Missing: numbers | Show results with:numbers<|separator|>
  41. [41]
    Alstom's Post - LinkedIn
    Oct 8, 2025 · We're proud to announce the launch of our new automated people mover (APM) service at Heathrow's Terminal 5! ✈️ Our new Innovia APM cars ...
  42. [42]
    Heathrow Airport T5A T5B T5C shuttle train. | RailUK Forums
    Nov 2, 2025 · ✈️ Our new Innovia APM cars will increase passenger capacity, offering a smoother, smarter journey for travellers flying from one of the world's ...
  43. [43]
    Heathrow Airport named Europe's most punctual hub
    Oct 22, 2025 · London Heathrow Airport crowned Europe's most punctual hub as passenger numbers, investments, and sustainability progress soar.
  44. [44]
    [PDF] Automated Transit Networks (ATN): A Review of the State of the ...
    Sep 3, 2014 · Terminal 5, London's Heathrow Airport - Transports passengers between the terminal and Terminal 5's designated. Business Car Park. System ...
  45. [45]
    Alstom's automated people mover at Phoenix Sky Harbor ...
    Dec 20, 2022 · Successful delivery of the extension to the PHX Sky Train® automated people mover (APM) system at Phoenix Sky Harbor International Airport.
  46. [46]
    Heathrow Terminal 5: rail transportation systems - Emerald Publishing
    May 1, 2008 · Critical to opening the new £4·3 billion Terminal 5 at London's Heathrow airport was the availability of a public transport service on ...
  47. [47]
    Terminal 5 – The fire detection and alarm system - IFSEC Global
    Apr 29, 2008 · T5's design and construction is fire engineered, combining the fire detection and alarm system with passive fire protection and material science.
  48. [48]
    Heathrow International Airport Transit Stations - HOK
    HOK led the design team for Heathrow's Terminal 5 multimodal interchange and contributed to the design of the tracked transit system at the terminal.
  49. [49]
    Accessible travel - Heathrow Airport
    Heathrow's Underground stations have step-free access to the platforms. ... Terminal 5 using the free rail shuttle from the Heathrow Express station. If ...Missing: Transit integration