Making trains smarter: how Alstom’s components are changing the game

“This approach optimises our customer’s total cost of ownership, not only through the lower energy consumption achieved by the significant reduction in weight, but also through savings on repair costs, as the bogie’s low unsprung mass reduces track and wheel wear. Additionally, accessibility to parts – such as brake pads and brake discs – has been greatly improved for faster replacement times, and therefore less costly maintenance interventions. This translates into savings of up to 25% on lifecycle costs.” 

To date, more than 10,000 Flexx Eco bogies have been sold by Alstom to 20 metro, commuter and high-speed customers worldwide. An interesting point is that inboard bearing bogies can be covered, due to their small space envelope, leading to further benefits in high-speed applications, as this reduces the air drag and thereby allows for energy savings. 

One way of making components smart is by following megatrends and keeping pace with the latest technological evolutions available, whether in the rail market or in other industries. 

“With silicon carbide technology and permanent magnet motor propulsion systems, implemented on auxiliary converters for Dubai (UAE), Hanoi (Vietnam) and Riyadh (Saudia Arabia) metros as well as on traction converters for Chengdu Metro Line 7 (China), Alstom is able to offer not only quieter operations, but also a power consumption that’s reduced by up to 30%,” says David Hughes, Head of Traction. “Other technological innovations include sealed-conservator transformers and traction on auxiliary batteries via a reversible battery charger, which allows us to supply the traction at a high voltage using a low-voltage battery.”

Similarly, the control/command implemented by Agate Control™ and Agate Net™ solutions are demonstrating that Alstom is handling components in a smarter way, particularly through the extensive use of the latest digital technologies.

Within the train system, the control and command system provides an information and communication infrastructure based entirely on IP (Internet Protocol) technology to link all the various constituent sub-systems, such as traction, for example. It makes extensive use of the latest digital technologies available, based on market standards, to ensure train interoperability and equipment interchangeability in compliance with IEC standards.

Thanks to its highly modular electronic architecture, it is so flexible that it can be fitted to all types of rolling stock, guaranteeing the ability to operate safely and securely throughout the life of the equipment, whether for operating or maintenance operations. Passenger information provides a first-class passenger experience, integrating even more digital technologies, mainly from the IT (Information Technology) sector, to create a cloud on board the train. This highly innovative infrastructure can host and run both third-party and operator applications.

"These different solutions make it possible to offer highly advanced services to improve passenger information and provide multimedia infotainment. These solutions provide the opportunities to offer new services to enhance passenger safety and comfort, throughout the entire life of the train", explains John Roberts, Director of TC&IS. Also based on market standards such as ITxPT® and ONVIF®, the passenger information system is completely modular and flexible to ensure interoperability with the majority of electronic equipment suppliers in the field. "To date, more than 130,000 rail vehicles have been equipped with purely digital native solutions from our comprehensive digital solutions offering, ensuring not only safe and secure operations, but also more comfortable journeys for passengers."

Smart components for rail vehicles provide numerous benefits to passengers. By enhancing comfort, safety and accessibility, they contribute to more seamless and enjoyable journeys.

When it comes to accessibility, Alstom’s portfolio also offers innovative, smart solutions. As we all know, people with reduced mobility often face significant challenges when attempting to embark and disembark from trains. Stations typically have height differences between the platform and the train itself, making it difficult for wheelchair users, for instance, to smoothly transition on and off. To remedy this, Alstom has developed an advanced levelling system to allow quick vertical adjustment of trains to platform height. Electronic valves activate the system at bogie pneumatic secondary suspension level.

This system, part of the bogie architecture and compliant with the main standards in rail, can be applied to any type of train (from light rail vehicles to high-speed trains), while also being adaptable to non-Alstom bogies, for modernisation purposes. Its immediate effects on operations include fluid passenger access (no steps, no gaps) and therefore better flow management. The combination of Alstom’s control/command, system integration, and the possibility of measuring the gap to be filled between the train and the platform makes the solution unique in the market so far.

To ensure more accessible and inclusive mobility for all, Alstom addresses the requirements of people with reduced mobility not only through mechanical solutions but also through digital innovations, such as information systems. These innovations include adjusting font size on displays, enhancing the clarity of announcements and facilitating the identification of assistance requests from passengers using wheelchairs.