Ricardo has signed a multi-year deal with Pratt & Whitney Canada under which the Ricardo aerospace engineering team will support Pratt & Whitney Canada in the development of advanced hybrid-electric propulsion technologies for next-generation aircraft.
The project is part of Pratt & Whitney Canada’s regional hybrid-electric flight demonstrator program. The company is targeting a 30% improvement in fuel efficiency and commensurate reduction in carbon dioxide emissions, compared to today’s most advanced turboprop engines for regional aircraft. Generator 50 Kw
The Pratt & Whitney Canada Regional Hybrid-Electric Flight Demonstrator is based on a De Havilland Canada Dash 8 experimental aircraft.
Hybrid-electric propulsion technology is a core element of our strategy for continually advancing the efficiency of aircraft propulsion systems, in support of the industry-wide goal of achieving net zero carbon dioxide emissions for aviation by 2050. Our collaboration with Ricardo brings valuable expertise around component design, system integration, and testing, which will ultimately enable us to demonstrate the potential of this technology, with ground testing starting later this year and eventual flight tests in 2024.—Jean Thomassin, Executive Director new products and services, Pratt & Whitney Canada
The deal represents a significant investment in Ricardo’s aerospace capabilities and resource, as it looks to explore new opportunities to work with customers in the global aerospace sector, which includes policy, strategy, technology implementation and consultancy.
Posted on 18 July 2022 in Aviation & Aerospace, Engines, Hybrids, Market Background | Permalink | Comments (3)
And the usual crucial question - which is frustratungly usually left unmentioned and unaddressed in press releases and articles: are we also talking about series hybrid technology ? As in - propellers/rotor blades etc are always electric-powered and the battery/supercap etc powerpack is charged when needed by an ICE generator or perhaps even by a micro-turbine or two? (After all, Canadian rocker Neil Young's weighty 2009 Lincvolt series hybrid plugin-able conversion used/uses a Capstone microturbine - not an ICE - to charge the battery-pack if/when the need arises: https://en.m.wikipedia.org/wiki/LincVolt ) Paul G(Editor: EVUK...since 1999)
Posted by: EVUK_co_uk | 18 July 2022 at 09:33 AM
A turbine engine is an internal combustion engine just not a piston IC engine.
Yes the article was very light on technical details. I would guess that they are using a somewhat smaller turbine engine and running at a higher power rating during cruise and using an electric assist for takeoff and climb out. Larger turbine engines are more efficient but turbine engine efficiency is strongly dependent on power setting. They are very inefficient at low power settings.
Posted by: sd | 18 July 2022 at 11:05 AM
Use turbines and motors to climb then fuel cells and motors for cruise.
Posted by: SJC | 18 July 2022 at 12:54 PM
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