press release
Bye Aerospace, developer of the eFlyer family of all-electric aircraft, and Safran Electrical & Power, a world leader in aircraft electrical systems, announced that a Cooperation Agreement has been signed to equip the eFlyer 2 & eFlyer 4 aircraft with the ENGINeUS™ electric smart motors.
Bye Aerospace is FAA-certifying the two-seat, all-electric eFlyer 2 for the professional flight training mission and the four-seat eFlyer 4 for air-taxi and advanced training uses. All of Bye Aerospace's current and future families of aircraft feature exemplary engineering, research, and electric aircraft solutions producing no CO2 and are designed to answer compelling market needs. These needs include five-fold lower operating costs, no CO2 emissions, and decreased noise. Bye Aerospace estimates the eFlyer will eliminate the release of millions of metric tons of CO2 each year for flight training alone.
The ENGINeUS TM product line includes a broad range of electric motors with power outputs from single digit to 500 kW. The ENGINeUS TM 100 product line, that will equip eFlyer 2 & eFlyer 4, delivers very high performance and features a fully integrated motor controller within the machine. The thermal management is provided by an optimized air-cooling system, jointly integrated by Safran & Bye Aerospace into the aircraft structure.
"Bye Aerospace has concluded that Safran's ENGINeUS TM 100 smart electric motor is the optimal production solution to meet the requirements of our rigorous FAA and EASA certification schedules for eFlyer 2 and eFlyer 4," said George E. Bye, CEO of Bye Aerospace. "Our list of future eFlyer purchase agreements, currently at 711 units, continues to grow, and we must continue forward at a high-tempo pace to meet the demands of aviation enthusiasts worldwide who have been waiting years for all-electric airplanes to come to market."
"Safran is extremely proud to collaborate with Bye Aerospace, which has developed a strong vision for the future of electrical flights, from the eFlyer 2 and eFlyer 4 to the commuters and regional airplanes", said Hervé Blanc, Executive Vice President & General Manager of the Power division at Safran Electrical & Power. "This new contract demonstrates the success of our ENGINeUS™ product line and confirms the strong interest of the market in our approach to further increase the electric powertrain performance while simultaneously progressing the certification and production system readiness".
Safran is an international high-technology group, operating in the aviation (propulsion, equipment and interiors), defense and space markets. Its core purpose is to contribute to a safer, more sustainable world, where air transport is more environmentally friendly, comfortable and accessible. Safran has a global presence, with 84,000 employees and holds, alone or in partnership, world or European leadership positions in its core markets. Safran is listed on the Euronext Paris stock exchange and is part of the CAC 40 and Euro Stoxx 50 indices.
Safran Electrical & Power is one of the world's leaders in aircraft electrical systems. The company is a key player in the equipment electrification and in the electric and hybrid propulsion sector. It has 12,200 employees across 13 different countries.
For more information: www.safran-group.com and www.safran-electrical-power.com / Follow @Safran and @SafranElectric on Twitter
Bye Aerospace, based in Denver, Colorado, specializes in the design and manufacture of electric aircraft, including the eFlyer family of aircraft. Bye Aerospace, named "2020 Small Business of the Year" by the Aurora, Colo. Chamber of Commerce and recognized as "Most Innovative" in the 2020 Made in Colorado awards sponsored by ColoradoBiz magazine, was founded by George E. Bye, who is also Chairman and CEO.
For more information: www.ByeAerospace.com
jueves, 19 de noviembre de 2020
Bye Aerospace and Safran announce Cooperation Agreement to equip eFlyer all-electric aircraft with ENGINeUS™ electric smart motors
EUROJET signs contract with NETMA for provision of 56 new EJ200 engines for the German Air Force
RR press release
EUROJET Turbo GmbH (EUROJET), the consortium responsible for the EJ200 engine installed in the Eurofighter Typhoon, today signed a contract with the NATO Eurofighter & Tornado Management Agency (NETMA) to provide 56 new EJ200 engines for the German Air Force.
The contract, signed in Munich, between Miguel Angel Martin Perez, General Manager of NETMA, and Gerhard Bähr, CEO of EUROJET, covers EJ200 engines for a new order of Tranche 4 Typhoon fighter aircraft. Production of the engine modules will be carried out locally by the four partner companies of the EUROJET consortium; Rolls-Royce, MTU Aero Engines, ITP and Avio Aero. As partner for the German Air Force, final assembly of the engines will take place at MTU Aero Engines with deliveries to the German customer scheduled to begin in 2023.
Commenting on the finalisation of the contract Mr Bähr stated: “This contract signature is a clear statement of confidence in the platform and of the performance and sustainability of the EJ200 engines which power it. In addition, it also demonstrates a high level of confidence in the consortium and its European industrial base, and will secure highly skilled workplaces in the aerospace industry in the coming years.”
About EUROJET
The EUROJET consortium is responsible for the management of the EJ200 engine programme. EUROJET’s shareholders comprise Rolls-Royce (UK), MTU Aero Engines (Germany), ITP Aero (Spain) and Avio Aero (Italy). The engine represents outstanding and innovative technology and continually demonstrates its exceptional performance in the Eurofighter Typhoon. With its unprecedented performance record, combined with multi-role capability and highest availability at competitive life-cycle costs, the EJ200 engine is perfectly set to meet air force requirements, both of today and the future.
Since delivery of the first production engine in 2003, well over a thousand EJ200 production engines have been delivered to Air Force customer fleets of nine nations, and the EJ200 engine has achieved in excess of 1 million engine flying hours.
High Resolution images of the EJ200 can be downloaded from: http://www.eurojet.de/media
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The L-39NG passed the aerodynamic tests for armed version
https://youtu.be/bP2R8_7IX1I
press release
Shortly after the L-39NG training version certification, an important initial step in the preparation of its armed version has been completed. A series of L-39NG tests took place in the low-speed wind tunnel of the Czech Aerospace Research Centre in Prague (VZLU), this time the tests were focused on the ability of the aircraft to carry various weapon systems.
"In cooperation with the VZLU, we have completed the data collection phase from the wind tunnel before the aircraft will be converted to the armed version and before the flight tests will begin next year. Our goal was to experimentally verify the expected deviations of aerodynamic performance that might be different from the training version," said the head of the L-39NG program Vojtěch Labuda from Aero Vodochody. For the needs of measurement, a model of the aircraft was 3D printed using the scale of 1:6.6. The model was subsequently measured using six-component internal strain gauge balance in a low-speed wind tunnel (wind tunnel measuring space has a diameter of three meters).
At first, measurements on the aircraft without pods took place, and then the aircraft with different types of pods, weapons, flap settings and different types of wing ends was measured. All weapon models were also made by 3D printing.
The L-39NG aircraft has five pods for carrying a wide range of weapons, starting with a machine gun calibre 12.7 millimetres or cannons calibre 20 millimetres, bombs up to 250 kilograms, unguided air-to-ground missiles or air-to-air missiles. The integration of laser guidance of weapons is also in consideration.
Before the flight tests, it was necessary to verify the effect on flight characteristics and performance by tests in the wind tunnel. During the measurements, the influence of the angle of attack and the angle of sideslip on the aerodynamic characteristics of the aircraft with different variants of weapons and settings of the flaps was investigated.
In addition to static measurements, which determine the forces and momentum strengths on the aircraft, dynamic measurements were also performed. This determines the aerodynamic damping for the flying qualities purposes.
"In a half a year, we have performed more than 200 measurements, in 30 different configurations, from a clean aircraft to a fully equipped aircraft with tilted flaps. During these measurements, it turned out that the aerodynamic model is fully capable of carrying a wide range of weapons in various configurations," said Pavel Hospodář from VZLU. The measured data will be used for calculations of flight performance.
eVTOL: XERI Awarded New Halo Aircraft Patent
Press release
BOCA RATON, FL / ACCESSWIRE / November 18, 2020 / Xeriant, Inc. (OTC PINK:XERI), a new aerospace technology holding company, announced today that an additional utility patent has been issued by the U.S. Patent and Trademark Office related to its Halo aircraft technology, strengthening its October 2019 patent. Both utility patents are retroactive to Halo's original 2007 continuation patent application date, and therefore have the benefit of preceding numerous drone or UAV (unmanned aerial vehicle) patent filings and claims.
Halo is a development-stage eVTOL (electric vertical takeoff and landing) powered lift aircraft that has been designed to seamlessly transition from vertical to forward flight by altering the direction of its propulsive thrust by approximately 90 degrees. Powered lift aircraft combine the VTOL capability and small logistical footprint of helicopters with the cruise speed, fuel efficiency and range of conventional fixed wing airplanes. Halo's unique and scalable tiltwing configuration, which features a pivoting cylindrical wing structure and a central axle-mounted payload area, can also accommodate a range of propulsion systems, including ducted lift fans and distributed electric rotors, as well as various stability and control systems.
When fully developed, Xeriant plans to introduce the innovative Halo platform as a small high-performance UAV for commercial applications such as inspections, surveying, surveillance, delivery and imagery, which is expected to compete favorably with other eVTOL UAV aircraft in terms of speed, acoustics, payload, maneuverability, efficiency, range and safety. Depending on the success of the small UAV model, Xeriant may begin to develop a larger scale Halo aircraft model for the emerging UAM (urban air mobility) market or a variant for military applications. UAM, which is part of advanced air mobility, refers to on-demand passenger or cargo transport in congested environments.
Halo was chosen to be a finalist presenter, out of approximately 70 companies, at the November 2019 Florida Aerospace Capital Forum.
"UAVs represent one of the most dynamic growth sectors in aerospace, with applications expanding into almost every industry. Empowered by innovation, these new aerial vehicles promise to make aviation a greater part of our daily lives. The additional patent protection on the Halo technology supports our efforts to establish a strong position in this space," stated Xeriant CEO, Keith Duffy.
Read this and more news for Xeriant and Halo at: www.xeriant.com and www.xeriant.com/about/halo-aircraft