Power
Breakthrough In Ricardo Kinergy ‘second Generation’ High-speed Flywheel Technology
Following intensive research and engineering development, Ricardo has today announced a breakthrough in its revolutionary Kinergy hermetically sealed high-speed flywheel energy storage device. A significant improvement in the magnetic coupling and gearing system has now taken its efficiency to better than that of a conventional geared drive, consolidating Kinergy’s position as perhaps the most promising high speed flywheel concept currently available
The This first Kinergy prototype has resulted from a fast-track engineering development process intended to deliver the unit that will be at the core of the Flybus high-speed flywheel mechanical hybrid powertrain demonstrator vehicle. Following precise balancing of the flywheel rotor during construction and assembly, the unit was installed on a specially constructed dynamometer for development testing. Successive tests have been carried out at increasing speeds and compared with the results of engineering simulations of performance and efficiency. A major thrust of that development has been the elimination of stray magnetic losses in the coupling, and breakthroughs have been made that are critical to the success of the technology.
The 960kJ rated Kinergy system provided for use on Flybus has been developed by Ricardo as part of its involvement in the KinerStor project, which also includes a longer term development process planned for completion towards the end of 2011. This work will focus on the further optimization of the Kinergy system, primarily integration with an improved continuously variable transmission, and with electrical power take-off devices for recharging vehicle batteries. Also being explored are improvements to the design of the magnetic gearbox for better manufacturability and efficiency, and designs for improved component concepts including low loss magnetic bearings and lighter containment systems. The prototype Kinergy system – as delivered to the Flybus project – will be on display at the Ricardo and Torotrak booths at the Cenex LCV2011 event at Rockingham, UK, on 7-8 September 2011.
Commenting on today’s announcement Nick Owen, project director for research and collaboration at Ricardo UK, said:
“The efficiency improvements announced today represent a significant milestone in the development of this highly promising Ricardo patented energy storage technology. This next-generation, cost-effective, high energy density flywheel system technology genuinely moves the state of the art forward, offering the prospect of effective mechanical hybridization of low-carbon powertrain applications in all types of vehicles from passenger cars to high speed railway rolling stock.”
Ricardo Kinergy research collaborations: Flybus and KinerStor
Ricardo is currently engaged in two research collaborations through which it is developing and refining its Kinergy high-speed flywheel technology. Each of these projects is supported by an investment from the UK Government-backed Technology Strategy Board with balancing resources provided by the respective research partners. The first of these research collaborations – Flybus – involves the development of a Ricardo Kinergy flywheel energy storage device incorporating a Torotrak patented Continuously Variable Transmission (CVT) for installation in a demonstrator vehicle based on an Optare Solo commercial bus. The Flybus project is being led by Torotrak and includes partners Optare and Ricardo along with support from Allison Transmission.
The KinerStor project led by Ricardo comprises a consortium of industrial partners including CTG, JCB, Land Rover, SKF, Torotrak and Williams Hybrid Power. The project aims to demonstrate the potential of using high-speed flywheel technologies – including both Kinergy and competitor systems – in delivering hybrid systems with the potential for 30 per cent fuel savings (and equivalent reductions in CO2 emissions) at an on-cost of below £1000, thus enabling the mass-market uptake of hybrid vehicles in price-sensitive vehicle applications.