Category: EV Aircraft

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Pratt & Whitney say Electric Aircraft Require Innovations Not Yet Invented

Though electric aircraft technology continues to improve, an engineer at Pratt & Whitney says the technology must make revolutionary leaps before being applicable to commercial or military aircraft.

P&W has looked into electric aircraft and determined that three technological “miracles” must occur before electric flight goes mainstream, Alan Epstein, P&W's vice president of technology and environment, tells reporters.

First, battery technology must improve by 50 to 100 times, says Epstein, noting that a commercial aircraft like a Boeing 737 require about 10MW of energy during cruise.

Battery-powered aircraft could be viable with current technology only “If you want to fly one-hundredth of the distance in the same size airplane,” says Epstein, who made his comments during a question and answer session at the company’s Connecticut headquarters earlier this week.

P&W has also spoken with engineers at the Massachusetts Institute of Technology about developing an electric engine capable of powering large aircraft.

Such powerplants could be built, they determined, but would require new, complex superconductivity technology. Also, engineers would need to remove the engine’s magnetic shielding to reduce its weight.

That is a problem, Epstein says, because without magnetic shielding the engine would “kill the people sitting next to the motors.”

“Three miracles are about two-and-a-half too many for an industrial organisation and one-and-a-half too many for most companies,” Epstein says. “I don’t see major commercial electric aircraft without innovations that have yet to be invented.”

Some might beg to differ. In 2012 German aerospace research institution Bauhaus Luftfahrt released details of a concept for a zero-emissions 190-seat aircraft which could potentially enter service in 2035. Designated the Ce-Liner, the electric aircraft would rely on twin super-conducting electric motors supplied by a bank of up to 16 battery containers.

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Airbus Electric Airplane Flies—For an Hour Per Charge [VIDEO]

The Airbus E-Fan, an all-electric trainer aircraft made of composite material, made its first flight last month–proving once again that it is possible to fly without jet fuel.

That’s with one caveat however: The plane can fly for about an hour on a single charge. But still, this seems like a big deal mainly because the largest aerospace and defense company in Europe and the world’s leading commercial aircraft manufacturer is backing it.

The successful first public flight of the electric E-Fan experimental aircraft was the highlight of Airbus Group’s E-Aircraft Day in Bordeaux, France on April 25. The electric E-Fan training aircraft is an experimental demonstrator based on an all-composite construction. Airbus Group and its partners intend to perform research and development to construct a series version of the E-Fan and propose an industrial plan for a production facility close to Bordeaux Airport. In addition, the group’s research efforts support the environmental protection goals of the European Commission, as outlined in its Flightpath 2050 program.

Built with an all-composite construction, the E-Fan is 22 feet long and has a wingspan of 31 feet. It looks like a toy version of a jet aircraft with a pair of nacelles that aren’t really jets, but two ducted, variable pitch fans spun by two electric motors with a combined power of 60 kW. The ducting increases the thrust while reducing noise, and by centrally mounting them, the fans provide better control. The E-Fan flies at only 114 miles per hour.

Powering the fans are a series of 250-volt, lithium-ion polymer batteries made by Kokam of South Korea. These batteries are mounted in the inboard section of the wings and carry enough charge for up to one hour of flight. They can be recharged in one hour. Worried about the “recharge” light coming on while up in the air? There’s a backup battery for emergency landings.

Another key technology on the E-Fan is its e-FADEC energy management system, which automatically handles the electrical systems. According to Airbus, this simplifies system controls and, since E-Fan is a trainer, eases the workload of instructors and students.

The E-Fan has zero carbon dioxide emissions in flight and should bring a significant reduction in noise around airfields, according to Airbus, “thus improving relations between local residents and flight schools with long-term prospects for the discreet and economical initial training of future professional pilots.”

“It will not only lead to a further reduction in aircraft emissions and noise to support our environmental goals but will also lead to more economic and efficient aircraft technology in the long run. Our focus is to develop innovations that will help define what tomorrow’s aerospace industry will look like,” said Airbus Group Chief Technical Officer Jean Botti.

So today the E-Fan is a learning platform, tomorrow a larger hybrid version that can fly 80 passengers on short regional trips. That’s apparently the plan. From small beginnings, a revolution in the air.

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Airbus Developing Hybrid Electric Jet Aircraft

Airbus is learning from automakers as it works on developing a small aircraft powered by hybrid electric engines that could represent its first move into the market for regional jets.

The development of a regional plane, seating between 70 and 90 people, that can take off and land using electric power could take between 15 and 20 years, Airbus Group Chief Technology Officer Jean Botti told reporters in Munich.

Airbus, which with Boeing dominates the market for passenger jets, presently makes planes that seat more than 150 people.

Airbus is already working on an all-electric two-seater plane, powered by two electric motors with a combined output of 60 kilowatts, hoping this technology will serve as a step to bringing electric motors on to larger aircraft.

The two-seater, which Airbus says is suited for short missions such as pilot training and aerobatics, can run on its lithium-ion polymer batteries for half an hour, with the aim to get it up to an hour.

The batteries are tricky, Botti said. "They're causing us a lot of headaches."

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Airbus signs MoU to develop electric taxiing for A320 Family

As part of on-going research and development into future technology options, Airbus has signed a memorandum of understanding (MoU) with EGTS International, a joint venture company between Safran and Honeywell Aerospace, to further develop and evaluate an autonomous electric pushback and taxiing solution for the A320 Family.

The agreement marks the selection of EGTS International’s Electric Green Taxiing System to be evaluated as a new option on the A320 Family – referred to by Airbus as eTaxi. This option would allow the aircraft to push-back from the gate without a tug, taxi-out to the runway, and return to the gate after landing without operating the main engines.

eTaxi will use the aircraft’s Auxiliary Power Unit (APU) to power electric motors fitted to the main landing gear wheels. The architecture will include the ability for pilots to keep full control from the cockpit over their aircraft’s speed and direction during taxi operations.

Olivier Savin, EGTS Programme Vice President, Safran said: “We are extremely pleased to strengthen our relationship with Airbus, a key customer and industry leader in innovation. Through this agreement we are creating the ideal context to collaborate to best utilize our own landing gear systems expertise to develop a green taxiing solution for the A320 Family.”

Brian Wenig, EGTS Programme Vice President, Honeywell Aerospace said: “Following our demonstration of the technology at this year’s Paris Airshow, this MoU marks the next critical milestone in the advancement of the Electric Green Taxiing System as an option for Airbus’ A320 Family, by securing Airbus’ support in the development of the system. Airbus will provide extremely valuable insight to facilitate a seamless integration into the aircraft.”

Daniel Baubil, Airbus EVP, Head of A320 Family Programme said: “Today Airbus delivers the world’s most eco-efficient single-aisle aircraft – the A320 Family. This is the result of our permanent research for innovative enhancements to make our aircraft even more efficient and capable.” He adds: “We therefore look forward to working with our EGTS International expert partners – Honeywell and Safran – with whom we share the common view that the A320 Family is a natural fit for an electric taxiing capability.”

The eTaxi option will offer several operational and environmental benefits for the A320 Family:

  • Per trip, the projected fuel savings and CO2 reductions would be approximately four percent;
  • It would contribute to significantly more efficient taxiing operations and save around two minutes of time on pushback;
  • Taxiing-related carbon and nitrous oxide emissions would be cut by more than half.

    Over the next few months the partners will jointly develop and present a global commercial case and implementation plan to determine the feasibility of an electric taxiing solution for the A320 Family. To this end, Airbus and EGTS International are reinforcing their existing teams to finalize validation studies, define specifications and converge on market requirements for a fully tailored forward-fit and retrofit technological solution.

    To regularly enhance the A320 Family’s capabilities and performance, Airbus invests approximately 300 million euros annually in keeping the aircraft highly competitive and efficient. More than 10,000 A320 Family aircraft have been ordered and over 5,800 delivered to operators worldwide. With a record backlog of over 4,200 aircraft, the A320 Family reaffirms its position as the world’s best-selling single-aisle aircraft family.

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    e-volo VC200 18 rotor 2 person electric helicopter – first flight [VIDEO]

    E-volo’s Volocopter is a revolution in aviation Made in Germany. Safer, simpler, and cleaner than normal helicopters, it has a unique way of moving – a groundbreaking innovation. The Volocopter is an environmentally friendly and emission-free private helicopter. Instead of one combustion engine, eighteen electrically driven rotors propel it.

    The maiden flight and first test flights were conducted in the dm-arena in Karlsruhe with the prototype of the 2-person VC200 on Sunday, November 17, 2013. Based on this model, it will be prepared for series production in the coming years. “There are already numerous requests for the Volocopter from around the world,“ said Alexander Zosel, managing director of e-volo.

    With multiple flights lasting several minutes reaching the nearly 22 m high ceiling of the dm-arena, including a number of smooth takeoffs and landings, the Volocopter concept exceeded all expectations. “Rich and incredibly quiet sound, absolutely no noticeable vibrations in the flight, convincing structure with a great, new spring strut landing gear, and an extremely calm rotor plane,“ concluded the e-volo managing director, thanking the KMK. “New innovations that have the possibility to change our world are continually presented at the Messe Karlsruhe. Therefore it was natural to work in partnership with the e-volo team to enable the test flights in the dm-arena,“ announced KMK managing director Britta Wirtz. “The fair is not just a display of strengths in the technology field, but concretely supports pioneers of aviation as well.“

    The developing team of e-volo knew from the onset that the Volocopter was very easy to fly. Due to elaborate simulations at the Stuttgart University, they already knew that it was much more quiet than a helicopter. However, the pleasant low, rich sound and the lower-than-expected noise level caused great cheering among the e-volo team during the first flights.

    People were eager to know whether there would be disturbing or even dangerous vibrations in the mechanic structure of the rotor plane. “Such vibrations are a large problem for normal helicopters,“ stated e-volo managing director Stephan Wolf, adding that “there, the vibrations together with the deafening noise have lead to much discomfort on passenger flights in helicopters.“ Due to the complex structure of the Volocopter in carbon lightweight design, it was not possible to simulate the expected vibrations in the laboratory. “The result of the first flight created a euphoria among the entire project team.“ Wolf and Zosel further stated that “not even the HD video cameras secured to the exterior carbon ring of the rotor plane captured the least vibrations.“

    Nearly all problems of normal helicopters are thereby solved.

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    Airbus demonstrates electric taxiing system on an A320

    While the Paris Air Show is famous for its aerial displays, a more down-to-earth demonstration at Le Bourget Airport is showing the way for the increasingly electric future of aviation. A modified...

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    Siemens hybrid electric aircraft debuts in Paris [VIDEO]

    Siemens AG, Diamond Aircraft and EADS are set to present the world's first aircraft with a serial hybrid electric drive system at the Paris Air Show Le Bourget 2011. The two-seater motor glider...

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    JAXA develop Conductive Heat-resistant Insulating for EV motors

    Nippon Kayaku Co., LTD. (KAYAKU) and the Japan Aerospace Exploration Agency (JAXA) successfully developed a motor coil that can maintain its maximum power more than two times longer than a...

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