Tag: demonstrator

Lockheed Martin Photography By Garry Tice 1011 Lockheed Way, Palmdale, Ca. 93599 Event: X-59 - Glamour Shoot Day Date: 12/12/2023 Additional Info:

Skunk Works® Rolls Out X-59, NASA’s Newest X-Plane

January 12, 2024 / WIL BALDWIN

Palmdale, California, January 12, 2024, PRNewswire – Lockheed Martin Skunk Works^® (NYSE: LMT) rolled out the X-59, a unique experimental aircraft designed to quiet the sonic boom, at a ceremony in Palmdale, California. The ceremony marked a significant milestone in Lockheed Martin’s and NASA’s decades-long journey to solve one of the most persistent challenges of supersonic flight, the sonic boom.

Rollout ceremonies are a long-standing aviation tradition, and in the case of the X-59, it celebrated technical advancements, collaboration and innovation that stemmed from years of research, development and production of a one-of-a-kind technology demonstrator aircraft that will reduce the loudness of sonic booms to a gentle thump.

Next, the aircraft will complete ground tests including engine-run and taxi tests before its next major milestone, first flight, later this year. After the aircraft is validated in initial flight tests, it will move into the acoustic testing phase. This phase will include flights over populated areas to provide U.S. and international regulators with statistically valid data required to help approve new rules that could allow quiet commercial supersonic flight over land. This would cut commercial flight times to half of what they are today, transforming travel for people around the world.

Forward-Looking Statements

This press release may contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995, including expected delivery dates. Such statements are based on current expectations and projections about our future results, prospects and opportunities and are not guarantees of future performance. Such statements will not be updated unless required by law. Actual results and performance may differ materially from those expressed or forecasted in forward-looking statements due to a number of factors, including those discussed in our filings with the Securities and Exchange Commission.

Airbus Helicopters and Naval Group test unmanned aerial system

October 31, 2023 / WIL BALDWIN

Marignane, France, October 31, 2023 – Airbus Group SE (Paris: AIR) Helicopters and Naval Group, in collaboration with the French Armament General Directorate, DGA (Direction génerale de l’armement), and the French Navy, have tested the SDAM demonstrator (Système de Drone Aérien Marine/ Naval Aerial Drone System) from a multi-mission frigate (FREMM). The trials took place on board the French Navy frigate, Provence, in the Mediterranean Sea between the 2nd and the 9th of October. The vessel had previously been adapted by Naval Group to operate the SDAM. These sea trials were arranged to demonstrate the system’s high performance from an operational warship and the SDAM’s capabilities for surveillance and intelligence missions.

The derisking study for the SDAM programme was awarded to Airbus Helicopters and Naval Group by the DGA. The objective is to design, produce and test a rotary wing unmanned aerial system demonstrator for the French Navy. The system works with the Airbus Helicopters VSR700 unmanned aerial system and the I4Drones® mission system developed by Naval Group. Naval Group has also been tasked with the integration of the system onboard military vessels. The project also involves French SMEs like Hélicoptères Guimbal and Diades, contributing to the creation of a local naval UAS industry in France.

Forward-Looking Statements

This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995, including expected delivery dates. Such statements are based on current expectations and projections about our future results, prospects and opportunities and are not guarantees of future performance. Such statements will not be updated unless required by law. Actual results and performance may differ materially from those expressed or forecasted in forward-looking statements due to a number of factors, including those discussed in our filings with the Securities and Exchange Commission.

Airbus unveils PioneerLab twin engine flying laboratory

September 25, 2023 / WIL BALDWIN

Hamburg, Germany, September 25, 2023 – During the German National Aviation Conference in Hamburg, Airbus Group SE (Paris: AIR) Helicopters unveiled the PioneerLab, its new twin-engine technology demonstrator based on the H145 platform. It complements Airbus’ range of FlightLabs and focuses on testing technologies that reduce helicopter emissions, increase autonomy and integrate bio-based materials.

The PioneerLab aims to demonstrate a fuel reduction of up to 30% compared to a conventional H145, thanks to a hybrid electric propulsion system and aerodynamic
improvements. Aboard the demonstrator, Airbus Helicopters will also flight-test structural components made from bio-based and recycled materials, which aim to reduce the
environmental footprint across the entire aircraft life cycle. The company intends to produce the new parts using processes that reduce material and energy consumption and improve recyclability. Further research activities will include the integration of the latest digital technologies into the aircraft’s flight control system and associated sensors to increase autonomy and safety during critical flight phases such as take-off and landing.

PioneerLab is partially co-funded by the BMWK, the Federal German Ministry for Economic Affairs and Climate Actions through its national research program LuFo. Airbus Helicopters’ FlightLabs provide agile and efficient test beds to quickly test technologies. They are part of the company’s strategy to bring incremental innovation to improve its current products and as well as to mature technology for future platforms.

The PioneerLab’s flight campaign has already begun at the manufacturer’s largest German site in Donauwörth, with a rotor strike alerting system being the first techno-brick tested on board the demonstrator. The next phase will be to test an automated take-off and landing system.

NASA and Boeing unveiled the new X-66A livery at EAA AirVenture Oshkosh. (Image: Boeing)

U.S. Airlines to Support NASA-Boeing Sustainable Flight Demonstrator Project

July 27, 2023 / WIL BALDWIN

OSHKOSH, Wis., July 25, 2023 /PRNewswire/ – Boeing [NYSE: BA] and NASA will collaborate with U.S. airlines to advise the Sustainable Flight Demonstrator (SFD) project and development of the X-66A research aircraft. As part of a new sustainability coalition, Alaska Airlines, American Airlines, Delta Air Lines, Southwest Airlines and United Airlines will provide input on operational efficiencies, maintenance, handling characteristics and airport compatibility.

NASA and Boeing also unveiled the new X-66A livery today at EAA AirVenture Oshkosh.

The X-66A will test the Transonic Truss-Braced Wing (TTBW) airframe configuration and will be built from a modified MD-90 aircraft at a Boeing facility in Palmdale, Calif. It is NASA’s first X-plane focused on helping achieve its goal of net-zero aviation greenhouse gas emissions.

When combined with expected advancements in propulsion systems, materials and systems architecture, a single-aisle airplane with a TTBW configuration could reduce fuel consumption and emissions up to 30% relative to today’s domestic fleet of airplanes.

The U.S. airlines will offer feedback throughout the project, including:

Design: Airline participants will share feedback on sustainable operations and airport compatibility. While the X-66A will have a wingspan of 145 feet, the TTBW design could be used by airplanes of different sizes and missions and may benefit from folding wing tips to accommodate existing airport infrastructure.
Simulation and lab testing: Airline pilots will have a chance to experience the X-66A through a flight simulator and assess the vehicle’s handling characteristics.
Flight testing: Airline operations and maintenance teams will assess the X-66A as modifications are made to the airplane. Flight testing is slated for 2028 and 2029 out of NASA’s Armstrong Flight Research Center at Edwards Air Force Base.

Sikorsky-Boeing Reveals Advanced Assault Helicopter Design to Revolutionize U.S. Army Capability

January 25, 2021 / WIL BALDWIN

Sikorsky, a Lockheed Martin Company (NYSE: LMT), and Boeing (NYSE: BA) today released details of its advanced helicopter for the U.S. Army’s Future Long Range Assault Aircraft competition, known as FLRAA. The aircraft, named DEFIANT X, will be the fastest, most maneuverable and most survivable assault helicopter in history. Combined with the team’s unsurpassed experience in mission systems, training and sustainment, it will revolutionize the way the Army meets threats in 2035 and beyond.

DEFIANT X is a complete weapon system that builds on the handling qualities and transformational capabilities proven by the team’s technology demonstrator, SB>1 DEFIANT®. With unmatched range and survivability, DEFIANT X will to fly low and fast through complex terrain, land quickly, deliver soldiers and equipment to the objective area (referred to as “the X”) and get out.

DEFIANT X flies twice as far and fast as the venerable Black Hawk helicopter it is designed to replace. Currently undergoing testing in a digital combat environment, the aircraft continues to prove itself the most survivable platform for mission requirements.

“We are ready to deliver unparalleled capabilities backed by proven technologies that will truly transform the Army’s mission today – with room to grow and adapt to the missions of tomorrow,” said Andy Adams, Sikorsky vice president of Future Vertical Lift. “DEFIANT X not only includes the transformational aircraft, mission systems and revolutionary sustainment solution, but also leverages Sikorsky’s and Boeing’s advanced manufacturing capabilities.”

With its rigid coaxial rotor system and pusher propeller, DEFIANT X incorporates Sikorsky X2 Technology™ to operate at high speeds while maintaining low-speed handling qualities. This critical capability provides soldiers with increased maneuverability and survivability in high-threat air defense environments, allowing them to penetrate enemy defenses while reducing exposure to enemy fire.

“DEFIANT X is purpose-built for a modernized Army that requires expanded reach, survivability and lethality,” said Steve Parker, vice president and general manager of Boeing Vertical Lift. “This weapon system will give soldiers unequaled technological advantage and connectivity over adversaries in a multi-domain battle space.”

DEFIANT X will revolutionize the Army’s air assault capability with limited changes in tactics, techniques, procedures, training and infrastructure while maintaining the Black Hawk helicopter footprint and tight formation capability flown today.

The Army is expected to release a request for proposal on FLRAA later this year, with a contract award expected in 2022.

Embraer & EDP Announce Joint Effort in Electric Aircraft Research

November 22, 2020 / WIL BALDWIN

Embraer and EDP, a company that operates in all segments of the Brazilian energy sector, have signed a partnership for electric aircraft research. Through its EDP Smart division, the Portuguese-based multinational announced a financial contribution for the acquisition of energy storage and battery charging technologies for Embraer’s all-electric demonstrator aircraft project, utilizing the EMB-203 Ipanema as its test bed. The prototype, which is already in development, is scheduled to complete its inaugural flight in 2021.

The investment is part of the cooperation agreement signed by both companies to advance their shared knowledge of energy storage and battery charging technologies for aviation – one of the main challenges of the project. The partnership aims to investigate the applicability of high voltage batteries for the electric propulsion systems of small aircraft, in addition to evaluating the main operating characteristics, such as weight, efficiency and power quality, thermal control and management, cycling loading and unloading, and operational safety.

Technological Cooperation

This proposal for the technological development of aeronautical electrification was initially created as a cooperation between Embraer and WEG, in May 2019. The project was developed as an effective and efficient instrument for training and for the maturation of technologies prior to their application in future products.

The scope of the partnership with EDP is to develop shared research in the storage of high voltage energy, complementing Embraer’s ongoing research. These research and development initiatives seek to accelerate the combined knowledge of the technologies necessary for the use and integration of batteries and electric motors in order to increase the energy efficiency of the propulsion systems of aircraft.

For the evaluations, a small single-engine aircraft is being used as the test bed to perform a primary assessment of electrification technologies. Ground tests have taken place at Embraer’s facilities in Botucatu, in the interior of São Paulo, in preparation for the first flight, which will take place at Embraer’s Gavião Peixoto unit.

Electrification is just one project in a series of initiatives being developed by Embraer and the entire aeronautical industry aimed at ensuring a commitment to environmental sustainability, as already exemplified by biofuel developments to reduce carbon emissions.

EDP has a global commitment to electrify 100% of its fleet by 2030, as well as to develop new offers and commercial solutions that promote the energy transition. Last year, during Aneel’s Public Call on the topic of Efficient Electric Mobility, the Company approved an investment of about R$ 50 million in projects, via a Research and Development Fund consisting of both corporate and partner resources.

Boeing, U.S. Navy to Demo Future Ramjet Missile Technology

October 20, 2020 / WIL BALDWIN

– The demonstrator will help the Navy determine technical requirements for future carrier-based weapons systems

Boeing [NYSE: BA] and the U.S. Navy will demonstrate advanced missile technologies that will make carrier air wing strike fighters more lethal against threats into the next decade.

Boeing has been awarded a $30 million contract from the Navy to co-develop the Supersonic Propulsion Enabled Advanced Ramjet (SPEAR) flight demonstrator with the Navy’s Air Warfare Center Weapons Division. The contract award comes after the Department of Defense requested information from the defense industry to help the Navy determine technical requirements of future carrier-based land and sea strike weapons systems.

“The SPEAR flight demonstrator will provide the F/A-18 Super Hornet and carrier strike group with significant improvements in range and survivability against advanced threat defensive systems,” said Steve Mercer, Boeing’s SPEAR program manager. “We have a talented team of engineers to meet the challenging technical demands and schedule timeline that the SPEAR program requires. We look forward to working with Navy experts to advance technologies for the Navy’s future capabilities.”

Boeing and the Navy Air Warfare Center Weapons Division plan to fly the SPEAR demonstrator in late 2022. Prior successes by Boeing in developing supersonic and hypersonic technologies include the X-51 Waverider test vehicle in 2010 and the Variable Flow Ducted Rocket propulsion system under the Triple Target Terminator program in 2014.

Boeing is the world’s largest aerospace company and leading provider of commercial airplanes, defense, space and security systems, and global services. As a top U.S. exporter, the company supports commercial and government customers in more than 150 countries. Building on a legacy of aerospace leadership, Boeing continues to lead in technology and innovation, deliver for its customers and invest in its people and future growth.

Boeing Licenses Ultraviolet Wand to Healthe to Counter COVID-19

September 22, 2020 / WIL BALDWIN

Boeing [NYSE: BA] entered into a patent and technology license with Florida-based Healthe® Inc. today under which Healthe will manufacture an ultraviolet (UV) wand designed to sanitize airplane interiors. Boeing designed and developed the UV wand as part of the company’s Confident Travel Initiative (CTI) to support customers and enhance the safety and well-being of passengers and crews during the COVID-19 pandemic.

“The UV wand is designed to be more effective than similar devices. It quickly disinfects surfaces on an airplane and further strengthens other layers of protection for passengers and crew,” said Mike Delaney, who leads Boeing’s CTI efforts. “Boeing spent six months transforming an idea for the wand into a working model, and Healthe will now take that prototype and make it available to the world at large.”

Healthe will produce and distribute the commercial wand, helping airlines and potentially others combat the coronavirus pandemic. The technology could be available for airlines in late fall. The device is an addition to sanitizing and protective measures already in place, which include the use of high-efficiency particulate air filters that trap more than 99.9% of particulates and prevent them from re-circulating back to the cabin.

“We are proud to be assisting Boeing as they work with their partner airlines to enhance in-cabin plane sanitization efforts. This could also benefit schools, hospitals, offices, wherever pathogens go,” said Abe Morris, Healthe executive chairman. “As we ramp up deployment of our cutting-edge UVC and Far-UVC 222 light solutions across many sectors, this new commercial-grade wand will be another powerful tool in the sanitization arsenal to protect passengers against the spread of harmful viruses.”

The UV wand uses 222 nanometer UVC light. Research indicates 222 nanometer UVC inactivates pathogens effectively.

Using the self-contained apparatus that resembles a carry-on suitcase, crews can pass UV light over high-touch surfaces, sanitizing everywhere the light reaches. The UV wand is particularly effective in compact spaces and sanitizes a flight deck in less than 15 minutes.

As part of CTI, Boeing solicited feedback from multiple industry sources, which aided in quickly validating this technology. Etihad Airways was the first to evaluate the device, and the UV wand was demonstrated on the Etihad 787-10 ecoDemonstrator airplane on Aug. 21.

Embraer Advances Demonstrator Aircraft Electric Propulsion

August 18, 2019 / WIL BALDWIN

São José dos Campos-SP, August 16 2019 – Embraer unveiled today, on the eve of its 50th anniversary, images of the demonstrator aircraft with 100% electric propulsion technology, which is currently under development. The prototype has a special paint scheme and is ready to receive systems and components.

The aircraft’s electric motor and controller are being manufactured by WEG at the company’s headquarters in Jaraguá do Sul, Santa Catarina, Brazil, as part of the scientific and technological cooperation agreement for jointly development of electrification technologies.

Advances on the project include the partnership with Parker Aerospace that will be responsible to supply the cooling system for the demonstrator aircraft.

On the forthcoming months, the companies’ technical teams will continue to test the systems in the labs preparing the integration in the demonstrator aircraft for testing under real operating conditions. The first flight of the prototype is scheduled for 2020.

About the technological cooperation

The proposed scientific development program of aeronautical electrification, formalized through the cooperation between Embraer and WEG announced in May 2019, constitutes an effective and efficient instrument for experimentation and maturation of the technologies before they are applied in future products.

The partnership, in the context of pre-competitive research and development, seeks to accelerate the knowledge of the necessary technologies to increase the energy efficiency of an aircraft, considering the use and integration of electric motors into innovative propulsion systems. A small single-engine aircraft, based on the EMB-203 Ipanema, will be used as test bed, carrying out the initial evaluation of the electrification technology.

The electrification process is part of a series of efforts carried out by Embraer and the aeronautical industry aimed at ensuring the commitment with the environmental sustainability, as already done with biofuels to reduce carbon emissions.

By establishing strategic partnerships through more agile cooperation mechanisms, Embraer is stimulating knowledge networks to allow a significant increase in Brazil’s competitiveness and the construction of a sustainable future.

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