Tag: built (Page 3 of 5)

Boeing Built Space Force Satellite Passes Design Review

October 10, 2020 / WIL BALDWIN

Boeing [NYSE: BA] and the U.S. Space Force successfully completed the first major engineering design review for the Wideband Global SATCOM (WGS)-11+ communications satellite. This successful review demonstrates that Boeing is ready to proceed to the final system design phase. Production will begin next year at Boeing’s El Segundo factory, with delivery scheduled for 2024.

WGS-11+ features a modern digital payload that performs at twice the operational capability of its predecessors, increasing the availability of military-grade communications. Leveraging advances in Boeing commercial technologies, it will provide secure communications to connect U.S. and allied forces globally.

The current WGS constellation, consisting of 10 satellites, is the backbone of the U.S. military’s global communications system, providing flexible, high data-rate connectivity. Users include all U.S. military services, the White House Communications Agency, the U.S. State Department and international partners.

“Completing this engineering design review is a key milestone and brings us one step closer to delivering this groundbreaking satellite to the warfighter in record time, significantly improving capacity and coverage to our soldiers, sailors, airmen, Marines and allies,” said Col. John Dukes, chief of the Geosynchronous/Polar Division at Space and Missile Systems Center Production Corps.

“WGS-11+ uses narrower spot beams to deliver a stronger, more reliable connection exactly where it’s needed, which means better performance and greater flexibility than ever before,” said Troy Dawson, vice president of Boeing Government Satellite Systems.

In addition to U.S. military forces, the WGS constellation provides service to international partners including Australia, Canada, Denmark, Luxembourg, New Zealand, the Netherlands, the Czech Republic and Norway.

First Ever Purpose-Built Regional Freighter Takes Flight

September 16, 2020 / WIL BALDWIN

– The ATR 72-600F will provide cargo operators with advantages of the latest generation market-leading regional turboprop

ATR, the world number one regional aircraft manufacturer, today announces the successful first flight of its new purpose-built regional freighter aircraft. The flight took off at 14:00 from its Saint-Martin site and lasted two hours. During the flight, crew onboard performed a number of tests to measure the new aircraft’s flight envelope and flight performance. The first delivery of this aircraft will be to FedEx Express, the world’s largest cargo airline and express transportation company, who placed a firm order for 30 aircraft, plus 20 options, in November 2017. The arrival of this new freighter further cements ATR’s leadership position in the regional freighter market where ATR cargo aircraft already represent a third of the in-service regional freighter fleet.

The brand new straight-from-factory cargo aircraft will offer a number of unique advantages to operators. With a Large Cargo Door included as part of the original design and the same wide cross section as all ATR aircraft, the freighter will be able to accommodate bulk cargo and industry-standard pallets and containers. The aircraft will also provide operators with the very latest avionics suite, which can be continuously upgraded. This effectively futureproofs the -600F’s state-of-the-art cockpit by allowing cargo airlines to take benefit from future innovations, which will further enhance the aircraft’s efficiency.

Wasserstoff-Zug Copyright: ÖBB/Marek Knopp

Alstom Hydrogen Train Enters Regular Passenger Service in Austria

September 13, 2020 / WIL BALDWIN

In Vienna, a new era in passenger rail starts today. Until the end of November, a hydrogen train will run for the first time in regular passenger service for ÖBB, the Austrian Federal Railways. The Coradia iLint, built by Alstom in Salzgitter, Germany, uses on-board fuel cells to convert hydrogen and oxygen into electricity, thus reducing operating emissions to zero.

Following successful test operation in Northern Germany between 2018 and 2020, the Coradia iLint train will now demonstrate its worth in Austria over three months during which it will transport passengers on geographically challenging routes.

“With its use in regular passenger operations for ÖBB, our innovation train Coradia iLint has reached the next milestone,” said Dr. Jörg Nikutta, Alstom’s CEO in Germany and Austria, at the launch event in Vienna. “The train’s emission-free drive technology offers a climate-friendly alternative to conventional diesel trains, especially on non-electrified lines. I am particularly pleased that ÖBB, a strong and long-term partner in the European mobility market, is convinced of our technology and its advantages.”

“We clearly see ourselves as pioneers in testing hydrogen technology on rail. As the largest climate protection company in Austria, we are actively shaping the mobility of the future with technological alternatives,” emphasizes Andreas Matthä, CEO of ÖBB-Holding AG on the occasion of the premiere of the hydrogen train.

The operational success of Alstom’s fuel cell train started in September 2018, when two pre-series vehicles began regular passenger service in Lower Saxony, Germany. After 1.5 years of trial operation and more than 180,000 kilometres covered, the way was cleared for the delivery of 14 series trains beginning in 2022. Now, the Austrian ÖBB will test the Coradia iLint on regional railway lines in the country’s south, where they could replace diesel trains. Passengers can look forward to a low-noise train with a top speed of 140 km/h and zero emissions.

Airbus Solar Orbiter Ready for Close-Up With The Sun

June 8, 2020 / WIL BALDWIN

Currently traveling at some 105 million kilometres from Earth, the Airbus-built Solar Orbiter (SolO) is en route for an encounter to uncover the secrets of our closest star.

While humankind has been studying the Sun for hundreds of years, the research is limited because data was always collected from distances more or less equal to the star’s separation from Earth, according to Ian Walters, Airbus’ SolO Project Manager.

“Solar wind takes about two to four days to get from the Sun to Earth, and in that time, it transforms completely,” he explained. “We can better correlate what is seen with what is felt from the Sun if we can get up close. That’s the point of the Solar Orbiter mission…and it’s never been achieved before.”

Solar Orbiter was launched in February in a joint mission of the European Space Agency and the U.S. National Aeronautics and Space Administration. Travelling closer to the Sun than its nearest planet – Mercury – SolO will make comprehensive measurements of the nascent solar wind.

Beating the heat

For the spacecraft and its 10 instruments to survive extreme temperatures of up to 600 deg. Centigrade, Airbus designed a protective heat shield with openings for SolO’s five telescopes to peek through during the trek.

According to Walters, the most critical heat protection technology is the Stand-off Radiator Assembly (SORA) – a set of radiators sitting on the spacecraft’s side that is always in shadow, enabling them to quickly transfer heat from the instruments into space. SORA’s thermal straps are made from pyrolytic graphite, which is five times more conductive than copper wire but flexible like paper.

To avoid any molecular contamination that could compromise imagery from the telescopes, Airbus also built Solar Orbiter to levels of cleanliness far exceeding any other spacecraft built in the UK to date. Every item on SolO has been heated to over 120 degrees to make sure no gases are emitted in the vacuum of space.

Predicting solar events

Data from Solar Orbiter can help make significant improvements to everyday life, particularly when it comes to predicting solar flares and coronal mass ejections (CME) – the expulsions of plasma and its accompanying magnetic field from the sun, which can have a major impact on Earth.

“In 1859, one such episode took down the world’s telegraph network,” Walters said. “A similar event today would severely disrupt our power grids, mobile phone towers, navigation systems and many other critical technologies.”

He added: “If we could predict the CME was coming our way, we’d have about two days’ notice for emergency government committees to be activated and react, instead of the few minutes’ notice we receive today.”

Agreement Between Alstom & Snam for Development of Hydrogen Trains in Italy

June 5, 2020 / WIL BALDWIN

Alstom, a global leader in integrated solutions for sustainable mobility, and Snam, one of the world’s leading energy infrastructure companies, have signed a five-year agreement to develop hydrogen trains in Italy.

The agreement, after the conclusion of the first phase dedicated to feasibility studies planned in Autumn, aims to develop, already at the beginning of 2021, railway mobility projects including both hydrogen-powered trains and the related technological infrastructure, as well as management and maintenance services.

As part of the agreement, Alstom will manufacture and maintain newly built or converted hydrogen trains, while Snam will develop the infrastructures for production, transport and refuelling.

This co-operation stems from the joint commitment of the two companies on hydrogen: Alstom has launched the Coradia iLint, the first fuel cell train in the world, which has successfully been in service for one year and half on a regional route in Germany, while Snam has been one of the first companies in the world to experiment a 10% hydrogen injection into the natural gas transportation network.

Alstom’s Prima Electric Locomotive Begins Indian Railways Operation

May 27, 2020 / WIL BALDWIN

The first of the 12000-horsepower, Prima T8 electric locomotives has been put into commercial service by Indian Railways. Built by Alstom and certified by the Ministry of Railways and Commissioner of Railway Safety/RDSO, the electric locomotives – known locally by the designation WAG-12 – are the most powerful locomotives to run on Indian rails. The 2015 contract will see a total of 800 locomotives built for Indian Railways.

Set to revolutionise freight logistics in the country, the e-locos will allow faster and safer movement of heavy freight trains, capable of hauling 6000 tonnes at a top speed of 120 km/h. Planned for deployment on Dedicated Freight Corridors (DFCs), they will increase the average speed of freight trains in India by approximately 25 km/h. Equipped with Insulated Gate Bipolar Transistors (IGBT) propulsion technology, the e-locos will also allow considerable savings in energy consumption thanks to the use of regenerative braking.

“Alstom is very pleased to be delivering these electric locomotives to Indian Railways. The introduction of the Prima locomotives into the IR fleet demonstrates our commitment to the country. This revolutionary product which will be faster, safer and more environmentally friendly, and it will help write a new chapter for India’s sustainable mobility journey. We are immensely proud to be a partner in this,” said Ling Fang, Senior Vice President of Alstom Asia-Pacific.

In line with the Make-in-India mandate, all the 800 Prima locomotives are being manufactured locally. Designed at Alstom’s Engineering Centre in Bengaluru, the Prima T8 WAG-12 are being built in one of India’s largest integrated greenfield manufacturing facilities at Madhepura in Bihar. Spread across 250 acres, with a production capacity of 120 locomotives per year, the Madhepura site is built to international standards of safety and quality. Two ultra-modern maintenance depots in Saharanpur and Nagpur will ensure the high service availability of the locomotives. The Saharanpur depot is already operational and the one in Nagpur is under construction. Equipped with the latest features, these depots will play a critical role in maintaining India’s most advanced freight locomotives at significantly lower costs.

As part of the largest Foreign Direct Investment (FDI) project of Indian Railways, in 2015 the Ministry of Railways and Alstom signed a contract worth €3.5 billion (INR 25,000 crore) and created a joint venture for the project. The contract allowed for the manufacture of 800 double-section, 12000-horsepower electric locomotives for freight service and associated maintenance for a period of 11 years. The scope also included the set-up of a manufacturing plant at Madhepura (Bihar) for building the e-locos and two maintenance depots at Saharanpur (Uttar Pradesh) and Nagpur (Maharashtra). A true embodiment of India’s vision, the project will create more than 10,000 direct and indirect jobs in the country (primarily in the states of Bihar, Uttar Pradesh and Maharashtra).

Boeing X-37B Launches in Second Mission for U.S. Space Force

May 18, 2020 / WIL BALDWIN

The Boeing [NYSE: BA]-built X-37B autonomous spaceplane today launched on top of a uniquely configured United Launch Alliance Atlas V rocket.

Boeing is the prime contractor for the X-37B spaceplane and facilitates the integration of all experiments into the vehicle ensuring they receive the correct power, thermal and data services required. Boeing also works to identify future reusable platform experiment opportunities on each mission.

The X-37B’s sixth mission is the first to use a service module with additional payload capability to support a variety of experiments for multiple government partners. The mission will deploy FalconSAT-8, a small satellite developed by the U.S. Air Force Academy and sponsored by the Air Force Research Laboratory, to conduct experiments on orbit. Further, two NASA experiments will study the impact of radiation and other space effects on certain materials and seeds used to grow food. Another experiment by the Naval Research Laboratory will transform solar power into radio frequency microwave energy which could then be transmitted to the ground. In addition, the mission will test reusable space vehicle technologies.

The X-37B first launched in April 2010. Originally designed for missions of 270 days duration, the X-37B has set endurance records during each of its five previous flights. Most recently, X-37B spent 780 days on orbit before returning to Earth in October 2019.

“The X-37B has shifted the paradigm and redefined efficiency in space development, said Jim Chilton, Boeing Space and Launch senior vice president. “The rapid technology advancements enabled by the program will benefit the entire space community and influence the next generation of spacecraft design.”

The X-37B program is a partnership between the Department of the Air Force Rapid Capabilities Office and the United States Space Force. Boeing program management, engineering, test and mission support functions for the Orbital Test Vehicle (OTV) program are conducted at Boeing sites in Southern California and Florida.

Airbus Built BepiColombo Will Make Earth Fly-by on April 10th

April 6, 2020 / WIL BALDWIN

The Airbus built BepiColombo mission will make a fly-by past Earth on 10^th April 2020 as it continues on its epic journey to Mercury.

The joint European Space Agency and Japanese Space Agency spacecraft will swing past Earth at about 13,000 km away, closer than navigation satellites (GPS, Galileo). It will be BepiColombo’s final glimpse of Earth before it continues on its seven year, 8.5 billion kilometre journey to the Solar System’s innermost, smallest and least explored planet, Mercury. The last time the spacecraft saw Earth was 18 months ago in October 2018, when it was launched on an Ariane 5.

BepiColombo is not due to arrive at Mercury until 05^th December 2025, but to get there safely and at the right speed to be captured by Mercury’s gravity, it must do nine flybys of the inner planets, one past Earth, two at Venus and six flybys at Mercury. After arrival, the spacecraft will capture data for a year with the possibility of extending the mission.

BepiColombo will collect measurements to study the composition, geophysics, atmosphere, magnetosphere and history of Mercury as well as testing Einstein’s theory of general relativity. The 16 scientific instruments will also provide insights into the characteristics of Mercury’s magnetic field and how it interacts with the solar wind.

Philippe Pham, Head of Earth Observation, Navigation and Science said: “This flyby marks a great achievement and major milestone for Airbus. Teams across five countries worked together to successfully develop and launch the spacecraft on a complex mission to Mercury.”

The journey will total some 8.5 billion km, completing 18 orbits around the Sun before entering the spacecraft’s operational orbit and beginning scientific exploration of the planet Mercury.

Ford Bets More Businesses Want Carbon-Free Delivery Vans

March 4, 2020 / WIL BALDWIN

DETROIT (Reuters) – Ford Motor Co is putting more chips on a bet that it can profit from selling electric vans to delivery businesses that need to reduce carbon emissions.

Ford will roll out an all-electric version of its Transit van for North America in model year 2022, mirroring the timetable for launching a similar model for the European market, the company said on Tuesday in conjunction with the NTEA Work Truck Show in Indianapolis.

“Our electric bet as a company is different than our competitors,” Ford Chief Operating Officer Jim Farley said in an interview. “The most critical bet we will be making over the next several years will be our commercial vehicles.”

Two of three electric vehicles Ford has announced as part of an $11.5 billion investment in electrification through 2022 are aimed at commercial customers – the Transit and an electric version of the company’s best-selling model, the F-150 pickup.

Ford’s Mustang Mach-E electric SUV represents a low-volume challenge to electric luxury vehicle market leader Tesla Inc.

The electric Transit and F-150 will play in market segments Ford dominates in the United States and Europe.

“Half of the vehicles doing work in the U.S. are Ford Motor Co vehicles,” Farley said. Ford is also the No. 1 commercial vehicle brand in Europe, and has led the commercial van market in Britain, which is Europe’s largest, for 55 years.

Regulators in Europe and in some U.S. cities are stepping up pressure on businesses to replace diesel or gasoline-fueled delivery vans with electric models to reduce pollution in city centers.

In the United States, Amazon.com Inc, has ordered 100,000 electric delivery vans from start-up Rivian, the first of which will be delivered in 2021 and built in Normal, Illinois. Ford has a separate partnership with Rivian.

The electric Transit will not be related to the Rivian van, said Ted Cannis, Ford’s director of electrification.

The new Transit will be an early test of the company’s efforts to deploy new connectivity technology and services to go with it, Farley said.

Ford said the electric Transit will be built in America and cost more than the gasoline-powered version, which starts at $34,500. Research firm Auto Forecast Solutions said it will be built in Kansas City, Missouri, along with the gasoline version.

Supplier sources who asked not to be identified said Ford will launch production in late 2021, with plans to build around 2,000 that year and increase to 14,000 annually by 2023.

(Reporting by Ben Klayman in Detroit; Additional reporting by Paul Lienert; Editing by Richard Chang)

Boeing Reveals its U.S. Army Future Attack Reconnaissance Aircraft Design

March 3, 2020 / WIL BALDWIN

Agile, purpose-built and designed for the Army’s evolving missions

Boeing [NYSE: BA] is offering the U.S. Army an agile, fully integrated, purpose-built system for the Future Attack Reconnaissance Aircraft (FARA) prototype competition.

Boeing FARA is designed to meet the Army’s current mission needs while evolving as technologies and missions change. The thrust compounded single-main rotor helicopter boasts a six-bladed rotor system, a single engine, tandem seating and a modular, state-of-the-art cockpit with a reconfigurable large area display and autonomous capabilities.

“We’re offering more than a helicopter – we’re offering an affordable and fully integrated system for the Army, the mission and the future. We’ve blended innovation, ingenuity and proven rotorcraft experience with extensive testing and advanced analysis to offer a very compelling solution,” said Mark Cherry, vice president and general manager of Boeing’s Phantom Works.

The fly-by-wire design leverages more than 65 years of rotorcraft experience, proven advanced and additive manufacturing technology, and product commonality driving down risk and costs. The system will provide seamless capability within the Army ecosystem to include Long-Range Precision Fires and air-launched effects.

“We listened to the Army, assessed all alternatives, and optimized our design to provide the right aircraft to meet the requirements,” said Shane Openshaw, Boeing FARA program manager. “We are offering a very reliable, sustainable and flexible aircraft with a focus on safety and the future fight.”

FARA will fill a critical gap in Army aviation for an advanced light attack and reconnaissance capability, previously held by the now-retired Bell OH-58D Kiowa Warrior.

For more information about Boeing FARA and its features, visit www.boeing.com/FARA.

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