Scania pioneers vehicle-to-grid through Megawatt Charging System for heavy transport

Scania has successfully demonstrated one of the world’s first vehicle-to-grid (V2G) implementations for heavy commercial vehicles using Megawatt Charging System (MCS), marking an important step towards integrating heavy electric transport into the wider energy system.

The innovative demonstration shows how battery-electric trucks can do more than transport goods. Through bi-directional charging, trucks can also support the power grid by providing flexibility services such as peak shaving, grid balancing, and energy storage.

As the electrification of heavy transport accelerates, the need for flexibility in energy systems is increasing. Large-scale charging of heavy vehicles places new demands on local grids and electricity infrastructure. At the same time, electric trucks represent significant mobile battery capacity that can be used when vehicles are parked.

Using bi-directional power transfer within depot operations can also improve the utilisation of local renewable energy generation such as solar power, while creating greater flexibility around grid connection and energy management.

“Electric trucks will not only consume electricity, they can also become an active resource in the energy system,” says Tobias Ejderhamn, Global Manager, Transformation & New Business, Scania. “This shift transforms the fleet operator’s role from solely providing transport services to also offering energy flexibility.”

The demonstration was carried out using Megawatt Charging System (MCS), the new generation of ultra-fast charging technology that is now being introduced for heavy electric trucks. MCS is expected to play a key role in enabling long-distance electric transport and future energy services such as vehicle-to-grid.

The system enables secure real-time communication between the truck, the charger, and energy management systems. This allows charging and discharging to be dynamically controlled, based on transport needs and conditions in the power grid.

“What makes this significant is not only the bi-directional energy flow itself, but the ability to combine megawatt charging with intelligent energy management,” says Yorben Muller, Product Manager Charging, TRATON. “To our knowledge, this is one of the world’s first demonstrations of vehicle-to-grid functionality using MCS for heavy commercial vehicles. The truck, charger and energy system can communicate with each other in real time, creating the foundation for heavy electric vehicles to become active and controllable assets in the energy system.”

“The ability to combine high-power charging with intelligent and secure energy management could also strengthen the business case for battery electric trucks by creating new ways for fleet operators to optimise energy usage and lower their operational costs,” adds Ejderhamn.

The demonstrated solution supports:

• Bi-directional charging and discharging through MCS
• Advanced real-time communication between vehicle, charger and energy management systems
• Backend-controlled energy management
• Integration with external charging and energy management systems
• Bi-directional energy flow through the charging interface (known as EVSE)

By enabling trucks to interact with the energy system, fleet operators could:

• Reduce energy costs
• Support grid stability
• Optimise depot energy usage
• Improve utilisation of local renewable electricity
• Participate in future energy flexibility and balancing markets

The technology also creates opportunities for charge point operators and energy providers by improving utilisation of charging infrastructure and local grid capacity.

By creating additional value streams around electric trucks and charging infrastructure, vehicle-to-grid technology also has the potential to support faster adoption of battery electric transport.

Initially, the technology is expected to be most relevant in depot charging environments where vehicles are parked for longer periods and charging can be coordinated with energy demand and grid conditions.

Facts

• Vehicle-to-grid enables electricity to flow both to and from the vehicle battery
• MCS is designed for megawatt-level charging of heavy commercial vehicles
• The set-up in Scania’s demonstration reached up to 1000 A / 750 kW
• To Scania’s knowledge, this is one of the world’s first demonstrations of bi-directional power transfer through MCS for heavy-duty trucks
• The system enables secure and advanced communication between vehicle and charging infrastructure
• The demonstrated set-up supports both charging and discharging through the same charging interface
• The concept is designed to support future energy flexibility services such as peak shaving and frequency balancing

Learn more about Scania’s battery electric transport solutions.

Scania is a world-leading provider of premium transport solutions. Together with our partners and customers, we are driving the shift towards a sustainable transport system. Founded in Sweden in 1891, Scania now operates in more than 100 countries and employs around 53,000 people. Production takes place in Europe, Latin America and Asia. Research and development is carried out globally with our main site in Södertälje, Sweden. As part of the TRATON Group, we are empowered by shared industrial strength, scale and expertise to accelerate innovation and the shift towards a sustainable transport system. In 2025, Scania delivered 87,600 trucks, 6,500 buses and coaches as well as 9,200 industrial and marine power systems to our customers. Net sales totalled over SEK 198 billion, of which about 20 percent were services related. For more information visit: www.scania.com

For further information, please contact:
Erik Bratthall
Corporate Public and Media Relations Manager, Scania
Phone: +46 76 724 45 27 
E-mail: erik.bratthall@scania.com

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