Ford Transit Plug-In Hybrid Debuts In London
Ford’s new plug-in hybrid electric (PHEV) Transit Custom van, designed to help improve air quality by running solely on electric power for the majority of city journeys, has made its dynamic debut at the Cenex Low Carbon Vehicle 2017 event in Millbrook, UK.
The vehicle makes its first appearance as Ford prepares 20 PHEV Transit vans for the 12-month fleet customer trial in London that begins in late 2017, which will explore how the hybrid electric vans can contribute to cleaner air targets and enhanced productivity in city use – the toughest working environment for vehicles.
Scheduled for volume production in 2019 as part of Ford’s global promise to provide customers with affordable and capable electric vehicles, the Transit Custom PHEV has an advanced hybrid system that targets a zero-emission range in excess of 31 miles, and features the multi-award winning Ford EcoBoost 1.0-litre petrol engine as a range extender. The EcoBoost engine charges the on-board batteries when longer trips are required between charging stops, providing operators with outstanding efficiency and flexibility.
“For more than 50 years businesses have relied on Ford Transit to get the job done, and we are determined to maintain that tradition as we move into the electric age,” said Mark Harvey, Director, urban electrified van programme, Ford of Europe. “Seeing the PHEV Transits on the road is an exciting milestone, and we look forward to teaming up with our London partners and customers to explore how these vans can reduce emissions and operator costs in the city.”
Commercial vehicles in London make 280,000 journeys on a typical weekday, travelling a total distance of eight million miles (13 million kilometres). Vans represent 75 per cent of peak freight traffic, with more than 7,000 vehicles per hour driving at peak times in Central London alone.
“Cleaner vans, like those being used in this trial, will be vital in helping the freight and fleet sector to reduce the emissions and play its part in tackling the Capital’s air quality crisis. We are also using the data from the trial, which will be an invaluable resource for our LoCITY programme that encourages commercial businesses to use greener vehicles,” said Lilli Matson, Transport for London’s Director of Transport Strategy.
The London fleet trial project is supported by Transport for London, and features a cross-section of city-based businesses,* including Metropolitan Police, British Gas and Clancy Plant, that will integrate the vans into their day-to-day operations. To help understand how the benefits of electrified vehicles could be maximised, the 20 PHEV Transits will use an advanced telematics system to collect real-time data on the vans’ performance.
In addition, the vehicles will feature geofencing technology, which is capable of automatically modifying vehicle settings based on each van’s current location. This could be used, for example, to ensure the hybrid system is switched to electric-only mode when a vehicle enters a low-emission zone within an inner-city area.
Ford is the first volume manufacturer to offer PHEV technology in this segment of the van market. The technology enables the vehicle to be charged with mains electricity for zero-emission journeys, while the compact and fuel-efficient EcoBoost engine generates additional charge for the batteries when required. The Transit Custom PHEV uses a series-hybrid driveline configuration, with the vehicle’s wheels driven exclusively by an electric motor, rather than by the combustion engine.
The battery pack is a compact liquid-cooled lithium-ion design located under the load floor, preserving the full cargo volume offered by the standard Transit Custom van.
The PHEV approach provides city-based commercial vehicle operators with a range of benefits. In addition to the zero-emission capability exceeding 31 miles, the Transit Custom PHEV uses petrol fuel for a target total range of more than 310 miles (500 kilometres) to eliminate range anxiety. The PHEV also has an increased payload capacity compared with battery-only electric vehicles, and the ability to offer quick and easy recharging from a standard electricity supply.