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Boeing evaluating the production rate of B737 max to 31 per month by end of 2022.

Boeing evaluating the production rate of 737 max to 31 per month by end of 2022.

The Boeing Company [NYSE: BA] reported third-quarter revenue of $15.3 billion, driven by higher commercial airplanes and services volume. GAAP loss per share of ($0.19) and core loss per share (non-GAAP)* of ($0.60) primarily reflects higher commercial volume ). Boeing recorded operating cash flow of ($0.3) billion.

  • Continued progress on global safe return to service of 737 MAX and focus on operational stability
  • Revenue of $15.3 billion, GAAP loss per share of ($0.19) and core (non-GAAP)* loss per share of ($0.60)
  • Operating cash flow of ($0.3) billion; cash and marketable securities of $20.0 billion
  • Commercial Airplanes backlog of $290 billion and added 93 net orders

Commercial Airplanes third-quarter revenue increased to $4.5 billion primarily driven by higher 737 deliveries, partially offset by lower 787 deliveries. Third-quarter operating margin improved to (15.5) percent primarily due to higher deliveries.

Boeing is continuing to make progress on the global safe return to service of the 737 MAX. Since the FAA’s approval to return the 737 MAX to operations in November 2020, Boeing has delivered more than 195 737 MAX aircraft and airlines have returned more than 200 previously grounded airplanes to service. 31 airlines are now operating the 737 MAX, safely flying over 206,000 revenue flights totaling more than 500,000 flight hours (as of October 24, 2021). The 737 program is currently producing at a rate of 19 per month and continues to progress towards a production rate of 31 per month in early 2022, and the company is evaluating the timing of further rate increases.

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Is China’s COMAC C919 better than B737max and A319neo ?

The company continues to focus 787 production resources on conducting inspections and rework and continues to engage in detailed discussions with the FAA regarding required actions for resuming delivery. The current 787 production rate is approximately two airplanes per month. The company expects to continue at this rate until deliveries resume and then return to five per month over time. The low production rates and rework are expected to result in approximately $1 billion of abnormal costs, of which $183 million was recorded in the quarter.

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Southwest Airlines Orders 100 Boeing 737 MAX Jets, Plus 155 Options

Commercial Airplanes secured orders for 70 737 MAX, 24 freighter, and 12 787 airplanes. Commercial Airplanes delivered 85 airplanes during the quarter and backlog included over 4,100 airplanes valued at $290 billion.

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Boom Supersonic to Roll Out Historic XB-1 Demonstrator Oct. 7

 

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He is an aviation journalist and the founder of Jetline Marvel. Dawal gained a comprehensive understanding of the commercial aviation industry.  He has worked in a range of roles for more than 9 years in the aviation and aerospace industry. He has written more than 1700 articles in the aerospace industry. When he was 19 years old, he received a national award for his general innovations and holds the patent. He completed two postgraduate degrees simultaneously, one in Aerospace and the other in Management. Additionally, he authored nearly six textbooks on aviation and aerospace tailored for students in various educational institutions. jetlinem4(at)gmail.com

Aviation

Japan to Construct Second Passenger Jet Following First’s Setback

Japan to build the 2nd passngers jet after its first one has got failure

The Japanese government is set to collaborate with a private firm to construct a new passenger jet, a project expected to require approximately USD 33 billion. The anticipated outcome of this endeavor could materialize by 2035, aiming to significantly reduce carbon emissions and establish a new standard in eco-friendly aviation.

Japan is strategically focused on developing its passenger aircraft to compete globally, following a previous unsuccessful attempt with the Mitsubishi Regional Jet, which failed to gain approval from the FAA and other aviation authorities. After years of research, the decision was made to innovate by revamping the aircraft and introducing a unique hydrogen-powered engine concept.

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While concrete plans are yet to be finalized, discussions revolve around various propulsion technologies, including hybrid electric systems and hydrogen combustion or fuel cell technologies. Notably, hydrogen emerges as a prominent contender, with the Japanese Ministry of Economy, Trade and Industry (METI) emphasizing the importance of leveraging Japan’s competitive advantage in technological innovation to drive the decarbonization of air transport.

Video: The First MRJ regional Plane from Japan is scrapped in United States

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Numerous aerospace companies are already pioneering hydrogen-powered electric aircraft as a promising solution to combat carbon emissions. Companies such as ZeroAvia and Universal Hydrogen are at the forefront, with projects ranging from small regional planes to larger passenger aircraft, reflecting a concerted effort towards sustainable aviation.

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In parallel, collaborations between budget airlines like EasyJet, engine manufacturers like Rolls-Royce, and industry giants like Airbus underscore the collective commitment towards developing hydrogen-powered aircraft. Airbus, for instance, aims to introduce hydrogen-powered planes into commercial service by 2035.

Despite setbacks like the failed SpaceJet aircraft program, which incurred substantial costs without achieving liftoff, Japan remains undeterred. The country’s new aircraft venture indirectly challenges competitors like China’s COMAC C919, signaling Japan’s determination to carve out a significant presence in the aerospace industry.

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Additionally, Japan’s collaboration with Britain and Italy in developing a sixth-generation fighter jet highlights its pursuit of cutting-edge aviation technology. This advanced fighter jet, featuring Rolls-Royce engines, laser targeting systems, and three-dimensional thrust vectoring engine nozzles, represents a leap forward in military aviation capabilities.

Under an MOU agreement, Japan retains the option to export these fighter jets to allied nations, potentially reshaping the global landscape of military aircraft manufacturing and distribution. With these ambitious projects, Japan aims to assert itself as a leader in both commercial and military aviation, pushing the boundaries of innovation and sustainability in the aerospace sector.

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Aviation

A New Era in Aviation: German Researchers Build a Plane, Controlled by the Brain

A New Era in Aviation: German Researchers Build a Plane Controlled by the Brain

Unlocking the potential of the human mind, German researchers have achieved an astonishing feat: a plane controlled solely by the power of your thoughts. Imagine taking to the skies without ever touching a control stick, relying instead on the incredible capabilities of your brain. This groundbreaking technology heralds a new era where the boundaries of possibility are redefined, offering the exhilarating opportunity to navigate the skies

In a groundbreaking advancement, a team of researchers from Technische Universität München and TU Berlin in Germany has developed technology enabling planes to be flown using only the power of thoughts. Led by Professor Florian Holzapfel, the scientists have not only achieved this feat but have also demonstrated its remarkable precision.

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Using a flight simulator, seven subjects, including one with no cockpit experience, successfully navigated virtual skies with enough accuracy to pass a flying license test. This achievement marks a significant milestone in aviation technology.

The key to this brain-to-plane communication lies in a cap outfitted with EEG electrodes, which capture signals from the subjects’ brains. These signals are then translated into commands through an algorithm developed by the TU Berlin scientists.

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Tim Fricke, head of the EU-funded project Brainflight, emphasizes the long-term goal of making flying more accessible to a broader range of people. While the prospect of the Average Joe donning an EEG cap and flying a plane may still be distant, the technology holds promise for enhancing flight safety and efficiency.

During tests, pilots managed landing approaches under poor visibility conditions, demonstrating the system’s reliability. Moreover, the technology has the potential to ease the workload of pilots, allowing them more freedom to manage other tasks in the cockpit. Following successful tests, researchers are now exploring how to adapt control systems and flight dynamics to accommodate this innovative control method. With brain control, flying could become more intuitive and less physically demanding, ushering in a new era of aviation safety and accessibility.

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Aerospace

Maeve Aerospace Unveils 80-Seat Hybrid Regional Airliner

Maeve Aerospace Unveils 80-Seat Hybrid Regional Airliner

Maeve Aerospace, a European aircraft developer, has announced the expansion of its operations to Oberpfaffenhofen Airport (Munich) and the introduction of a new hybrid-electric 80-seater aircraft.

This move is intended to accelerate work on the programme. With its regional jet performance and turbo-prop economics, the aircraft is built to support the growth of the regional aviation market in the future by providing a low-carbon, low-energy solution.

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The M80, a hybrid-electric aircraft with 800 nautical miles (1482 km) of range, 40% increased energy efficiency, and no impact on infrastructure, is being developed by Maeve. Maeve has refined the aircraft concept to meet best-in-class requirements in terms of lead time, energy consumption, passenger capacity, and range.

The Maeve M80 is a revolutionary aircraft that combines the efficiency of a turboprop with the performance of a jet. With its newly integrated hybrid propulsion system and clean sheet design, the M80 significantly reduces mission energy and fuel consumption. Because of this, the M80 is the ideal substitute for turboprops and regional jets.

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Maeve has a comprehensive integrated product development plan based on the knowledge and insights gained from multiple aircraft programmes and their industrial ramp-up, with an eye towards Entry-In-Service in 2031. Since a clean-sheet aircraft design like this calls for the greatest team in the business and a quick organisational ramp-up, a number of aviation professionals have joined Maeve for this next development phase. These specialists will work out of Maeve’s new location, which is close to Munich at the Oberpfaffenhofen Airport.

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Aerospace

Airbus and BMW Group launch Quantum Mobility Quest

Airbus and BMW Group launch Quantum Computing Competition

Airbus and BMW Group have joined forces to initiate a groundbreaking global Quantum Computing Challenge named “The Quantum Mobility Quest.” This unprecedented collaboration aims to address longstanding challenges in aviation and automotive industries that traditional computers have been unable to overcome.

Marking a historic milestone, this challenge represents the inaugural endeavor of its kind, uniting two major players in their respective industries to leverage quantum technologies for tangible industrial applications. The objective is to unlock possibilities that can lead to the development of more efficient, sustainable, and secure solutions, shaping the future of transportation.

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Even the most advanced computers available today cannot perform some of the most complex operations. However, quantum computing has the potential to greatly increase computational power. This cutting-edge technology may be especially important in modelling different industrial and operational processes for data-driven industries such as transportation, providing avenues to influence the development of future mobility goods and services.

Prospective challengers are requested to choose one or more of the following problem statements: enhanced corrosion inhibition with quantum simulation, future automated mobility with quantum machine learning, more sustainable supply chain with quantum optimisation, and improved aerodynamics design with quantum solvers. Besides, applicants may submit their own quantum technologies, which could be used to create native applications in the transportation industry that yet to be explored in the transportation sector.

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By the end of 2024, a jury made up of top quantum experts from around the world will review the submitted proposals in collaboration with experts from Airbus, BMW Group, and AWS. The winning team in each of the five challenges will receive a €30,000 prize.

Registration opens today, and submissions will be accepted from mid-January through April 30, 2024 here: www.thequantuminsider.com/quantum-challenge.

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