Are electric planes the future of aviation?
Since the dawn of aviation, planes have primarily been powered by carbon-based fuels such as gasoline or kerosene. These contain a lot of energy for their weight, providing the vast power required to lift large commercial airliners on journeys across the globe. But with oil resources declining and penalties on greenhouse gas emissions increasing, the future of aviation is dependent on finding an alternative power source. Is electricity the answer?
A first step is to develop “more electric aircraft” – jet-powered planes that maximise the use of electricity for all the other aircraft systems. The idea is to significantly reduce fuel consumption by improving overall energy efficiency. In practice, this means reducing the weight of the aircraft, reducing drag with improved aerodynamics and optimising the flight profile to use less fuel.
But though these improvements can save on fuel, that alone isn’t enough. The shift to more sustainable aircraft requires major, longer-term solutions.
Such significant innovations have often been driven by military requirements. The jet turbine engine was developed during World War II and the US Air Force’s Chuck Yaeger first broke the sound barrier in the Bell X-1 as part of the Cold War race to achieve supersonic speeds. The drive for new technologies led to massive improvements in performance and reliability, which has since filtered through to commercial aviation and made mass intercontinental air travel a reality.
Concorde was the ultimate expression of this transformation from military to high-performance commercial aircraft, but despite its phenomenal performance it was plagued by complaints of excessive noise and pollution. Modern jet air travel still consistently raises such environmental concerns and, while the military has an obvious incentive to design the fastest aircraft, its motivation to go green is less obvious. We may need to look elsewhere for the next big innovation.
Cleaning up the skies?
Solar-powered endurance aircraft have received a lot of attention recently, with the Solar Impulse team attempting to make the first round-the-world flight. But solar power, while an interesting technical challenge, is not a particularly realistic option for mass transit of passengers. As can be seen from the Solar Impulse aircraft, the power output from the Solar Panels on a very wide wingspan is able to transport only the aircraft and the pilot for any significant distance.
Battery storage is the key limiting factor for electric aircraft. If electric aircraft are held back by either weight or fuel restrictions, it’s probably down to the battery. Aircraft typically have a longer fuelling time than a car, so rapid recharging is possible and effective, as current jet aircraft take about the same time to refuel (and also for passenger and cargo turnaround) so electric charging of about 1hr is reasonable, however the critical problem is energy density – how much energy does the battery provide for its weight?
Typical lithium-ion batteries in use today have a maximum energy density of around 1,000,000 joules of energy per kilogram, and while newer research promises the possibility of higher densities, these are not available commercially. A million joules sounds like a lot. However, compare this with 43 million joules per kilogram for aviation fuel. Swapping the fuel tanks for a battery weighing 43 times as much isn’t a viable option – clearly there’s a significant storage problem to be solved before electricity can power large aircraft over long distances.
The future for electric air travel
So where does electric power fit in the long-term vision for consumer air travel? Despite the obvious technical challenges, The Airbus prototype E-Fan aircraft is due to be put into production by 2017. The E-fan is a very light two-seater plane powered by two electric motors, with a relative speed and carrying capacity far lower than those required by commercial carriers. However,
Within the next decade, this technology may extend to short-range commuter and business aircraft – especially targeting routes that still use conventional propeller propulsion. Airbus has medium-term plans for such an aircraft, with a target capacity of perhaps 60 passengers – making it a suitable platform for short-haul commuter flights.
Safety and reliability must be addressed before electric aircraft are adopted by commercial airlines. Much as the electric car still has to achieve a critical level of public confidence, perceived reliability will have a significant impact on consumer trust in new aircraft.
If prototypes such as the E-Fan can build public confidence, this may mark a “tipping point” in overcoming the technical challenges inherent in any new form of transportation, especially in aviation which has a track record of rapid innovation. Advances – particularly in new materials, storage and power electronics technology – may offer the prospect of purely electric commercial aircraft within the next two decades.
This article is published in collaboration with The Conversation. Read the original article.. Publication does not imply endorsement of views by the World Economic Forum.
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Author: Peter Wilson is Professor of Electronics & Systems Engineering at University of Bath
Image: An E-Fan aircraft participates for its first public flight during the e-Aircraft Day at the Bordeaux Merignac airport, southwestern France. REUTERS/Regis Duvignau
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