Riversimple


Riversimple is a United Kingdom-based car manufacturer of hydrogen-powered fuel cell electric vehicles. It is based in Llandrindod Wells, a town in Wales, where there is a research & development centre and the company's offices. Riversimple was founded by former motorsport engineer and racing driver Hugo Spowers.

History

Until 2014 the head office was in Ludlow, England. The offices were located at Dinham, by the River Teme, which gave the business its name.
Riversimple has a diverse team which includes those with F1, motor racing, yacht design, engineering and automotive design backgrounds.

Business model

Riversimple aim to create strategically placed, smaller-scale manufacturing plants as opposed to traditional, large-scale factories. Riversimple are advocates of a circular economy.
The company production of their vehicles on a ‘sale of service’ model, under which vehicles are not sold, but instead, users have use of a Riversimple vehicle for a monthly fee, which covers road tax, insurance, fuel and maintenance costs. A number of the large multinational car vehicle manufactures, such as Volvo, have now also adopted this model. Volvo predict that by 2025, half of their vehicles will be supplied to end users in this way, rather than via any form of sale.
Riversimple state that they sell ‘mobility as a service, not cars as a product’ and that this approach incentivises them to make cars that last longer, use less resource and to maximise recovery at the end of the vehicle’s life.
Though the UK hydrogen refuelling infrastructure is in its infancy Riversimple’s model sees the company initially supplying their vehicles in the vicinity of hydrogen refuelling facilities. As of December 2018, several public and private sector organisations were signed up and over 3,000 individuals had expressed an interest in being customers.
The Riversimple company designs energy-efficient automobiles, including the Morgan LIFEcar and the Riversimple Urban Car. Several elements are considered during each design, including hydrogen fuel cell power sources, lightweight carbon fibre composite materials, open-source development and design, leasing instead of selling the cars, distributing manufacturing among many small manufacturing plants, and broad corporate ownership.

Rasa

Riversimple unveiled its working 'alpha' prototype, the two-seat Rasa on 17 February 2016. This was the culmination of 15 years of development of the concepts developed and espoused by Riversimple founder, Hugo Spowers, whose first FCEV design was the LIFECar, a research project developed by a consortium with Morgan, followed by a tech demonstrator urban vehicle..
The company’s ‘beta’ prototype, features several improvements over its predecessor, to drivetrain, wheels, interior equipment, headlights and aerodynamics. The ‘beta’ prototype also utilises a fully carbon fibre monocoque chassis.
The Rasa was designed by car designer Chris Reitz, who styled the new Fiat 500. The Rasa has a range of 300 miles on 1.5 kg of hydrogen, and achieves the equivalent of 250mpg with a top speed of 60 mph. Emissions are zero at tailpipe and c.40gCO2/km Well-to-Wheel. Hydrogen refuelling for the Rasa takes three minutes.
The Rasa is powered by an 8.5 kW hydrogen fuel cell, and a regenerative braking system, which recovers up to 50% of the cars braking energy. The vehicle also utilises a 1.9MJ lithium-ion hybrid capacitor set, providing additional power for acceleration. Electric motors in each wheel produce a combined 16 kW continuous power and 55 kW peak power.
The Rasa is an open source vehicle. Riversimple cite the reason for this as wanting to work towards common goal of reducing environmental damage.

Beta testing

A €2m European FCHJU SWARM grant was utilised to support the development and build of 20 Riversimple Rasas, to install and commission a hydrogen fuelling station and to support the rollout of a ‘clean mobility trial’, in and around Abergavenny, in mid-Wales. A further £1.25m grant from the Office for Low Emission Vehicles’ Hydrogen for Transport Programme, was awarded in February 2019.
The trial will see over 200 testers, drawn from households, car clubs and businesses. It is estimated that each vehicle will generate on average 20Gb of data per day, during the trial.