Tag: test (Page 7 of 9)

Bane NOR and Siemens Mobility Celebrate Milestone in Digitalization of Norway’s Rail Network

November 2, 2019 / WIL BALDWIN

Campus Nyland test, training and signaling simulation center opens
European Rail Traffic Management System (ERTMS) latest in intelligent infrastructure
Nordlandsbanen will open first digital signaling railway in October 2022

Bane NOR and Siemens Mobility celebrated the opening of Campus Nyland, a test, training and signaling simulation center which will help the rail network operator prepare for the digitalization of the entire system. Norway has committed to becoming the first country to operate with a single digital interlocking and ERTMS signifies one of the country’s largest digitalization projects. In 2022, the first digital line, Nordlandsbanen, will open. In advance, the Campus Nyland center will prepare workers for working within the digital system, ERTMS. The intelligent infrastructure behind ERTMS will reduce operating costs and increase capacity throughout the network. In addition, it will enhance safety, with real-time visibility of trains across the network. When complete in 2034, the system will include 4,200 km of track and more than 350 stations.

“Siemens Mobility is the main supplier to the Norwegian ERTMS program with their infrastructure, including interlockings and radio block centres (RBC). The Siemens Mobility solution is leading edge based upon an IP based architecture. With a strong technical roadmap and a proven ability to deliver, Siemens Mobility is the ideal partner for Bane NOR in this challenging program. We are thrilled to work together with Siemens Mobility to develop the digital rail,” said Sverre Kjenne, Executive Vice President Digitalisation and Technology, Bane NOR.

“Norway is on track to become the first country to operate in the “one country, one interlocking” architecture making it at the forefront of digitalization. Our intelligent infrastructure will ensure that the system operates efficiently. The digital interlocking, with IP controlled field components, and ERTMS are the backbone to greatly improving operations and maintenance. This architecture also opens the door for future developments such as implementing driverless technologies, moving the interlocking to the cloud, which would make proprietary hardware and spare parts a relic of the past, and would make data instantaneously available to transportation operators,” stated Michael Peter, Siemens Mobility CEO. “Campus Nyland is an important milestone in turning this vision into reality.”

Campus Nyland will be an industry center for digital education and will house more than 5,000 employees, who will learn the necessary digital skills needed to ensure ERTMS is successful when it goes operational. These will include individuals from Bane NOR, train companies, maintenance companies and contractors. Bane NOR will facilitate simulator training as well as physical training facilities. New technology, such as virtual reality, will be used to communicate how the tracks are built with ERTMS, as well as the design of trains and traffic control centers. More than 150 different scenarios are available for training within the highly digital training hub.

In the spring of 2020, the Roa – Hønefoss ERTMS test line opens. The new signaling technology will be monitored and tested from Campus Nyland.

The next important milestone in turning ERTMS into a reality will be the digitalization of the first Norwegian rail line. In October 2022, Nordlandsbanen, which operates from Grong to Bodø, and represents about 12 percent of the Norwegian railway will go operational.

Alstom to Test its Hydrogen Fuel Cell Train in the Netherlands

November 2, 2019 / WIL BALDWIN

First pilot project with Coradia iLint outside Germany

31 October 2019 – Alstom and the Province of Groningen, local operator Arriva, the Dutch railway infrastructure manager ProRail and the energy company Engie have signed plans for a pilot project to test the Coradia iLint, the world’s first passenger train powered by hydrogen fuel cells, for the first time in the Netherlands. The signature took place as part of the “Klimaattop”, or Climate Summit Northern Netherlands, taking place this week in Groningen.

The tests will be carried out on the track between Groningen and Leeuwarden at up to 140 km/h and will last about two weeks. The ambition is to organise the test during the first quarter of 2020. The objective is to demonstrate that hydrogen fuel cell technology is an appropriate way to achieve zero-emission rail traffic on non-electrified lines in the Netherlands where there are currently diesel trains running.

“Alstom is committed to developing and implementing mobility solutions that permit not only the emergence of fully sustainable transport systems but also help drive the broader energy transition. We look forward to demonstrating what has already been proven in Germany – that hydrogen represents a highly suitable way forward in both cases,” said Bernard Belvaux, Managing Director of Alstom Benelux.

The Coradia iLint is the world’s first passenger train powered by a hydrogen fuel cell, which produces electrical power for traction. The train is quiet and emission-free, emitting only water and steam during operation. It represents a clean alternative for railway operators and regional authorities wishing to replace diesel fleets for operation on non-electrified lines and meet ambitious zero-emission objectives.

The world’s first two hydrogen trains have already been in regular passenger service in Lower Saxony in Germany since September 2018. The local transport authority LNVG will operate 14 Coradia iLint trains on that line from 2021. Also in Germany, RMV this ordered 27 Coradia iLint – the largest fleet of hydrogen trains in the world – for operation from 2022.

The Dutch railway network has approximatively 1,000 kilometres of non-electrified line.

Porsche and Boeing Partner on Premium Urban Air Mobility Market

October 10, 2019 / WIL BALDWIN

– Companies sign MOU to investigate product development for premium market

– Builds on efforts to develop new urban air mobility ecosystem

STUTTGART, Germany and CHICAGO, Oct. 10, 2019 /PRNewswire/ — Porsche and Boeing [NYSE: BA] signed a Memorandum of Understanding to explore the premium urban air mobility market and the extension of urban traffic into airspace. With this partnership, both companies will leverage their unique market strengths and insights to study the future of premium personal urban air mobility vehicles.

“Porsche is looking to enhance its scope as a sports car manufacturer by becoming a leading brand for premium mobility. In the longer term, this could mean moving into the third dimension of travel,” says Detlev von Platen, Member of the Executive Board for Sales and Marketing at Porsche AG. “We are combining the strengths of two leading global companies to address a potential key market segment of the future.”

As part of the partnership, the companies will create an international team to address various aspects of urban air mobility, including analysis of the market potential for premium vehicles and possible use cases.

Boeing, Porsche and Boeing subsidiary Aurora Flight Sciences are also developing a concept for a fully electric vertical takeoff and landing vehicle. Engineers from both companies, as well as Porsche subsidiaries Porsche Engineering Services GmbH and Studio F.A. Porsche, will implement and test a prototype.

“This collaboration builds on our efforts to develop a safe and efficient new mobility ecosystem, and provides an opportunity to investigate the development of a premium urban air mobility vehicle with a leading automotive brand,” said Steve Nordlund, Vice President and General Manager of Boeing NeXt, an organization that is laying the foundation for a next-generation mobility ecosystem in which autonomous and piloted vehicles can safely coexist. “Porsche and Boeing together bring precision engineering, style and innovation to accelerate urban air mobility worldwide.”

A 2018 study by Porsche Consulting forecasts that the urban air mobility market will pick up speed after 2025. The study also indicates that urban air mobility solutions will transport passengers more quickly and efficiently than current conventional means of terrestrial transport, at a lower cost and with greater flexibility.

Boeing is the world’s largest aerospace company and leading provider of commercial airplanes, defense, space and security systems, and global services. As the top U.S. exporter, the company supports commercial and government customers in more than 150 countries. Boeing employs more than 150,000 people worldwide and leverages the talents of a global supplier base. 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.

Sikorsky Combat Rescue Helicopter To Enter Production

September 28, 2019 / WIL BALDWIN

STRATFORD, Conn., Sept. 24, 2019 /PRNewswire/ — Lockheed Martin (NYSE: LMT) today announced the Sikorsky HH-60W Combat Rescue Helicopter (CRH) program achieved a Milestone C decision from the U.S. Air Force, which moves the program into low rate initial production. The Combat Rescue Helicopter will perform critical combat search and rescue and personnel recovery operations for all U.S. military services. View the latest CRH video

The four instrumented test aircraft at the Sikorsky Development Flight Center in West Palm Beach, Florida, demonstrated their production readiness during rigorous U.S. Air Force (USAF) performance and flight load survey testing. The joint Sikorsky and USAF flight test team has executed over 150 hours of envelope expansion flights, which provided USAF the data necessary to execute a Milestone C decision. This decision allows Sikorsky to begin production of the aircraft, which is based on the venerable BLACK HAWK helicopter.

“This affirmative Milestone C decision validates the modifications to Sikorsky’s most successful BLACK HAWK helicopter, making it capable of saving downed airmen anytime, anywhere around the world,” said Greg Hames, Sikorsky program director. “This establishes the Combat Rescue Helicopter as a production program.”

Prepared for Production

There are five CRH aircraft in various stages of production at Sikorsky’s Stratford facility. Sikorsky employees and our nationwide supply chain are ready to begin production and support delivering this all new aircraft to the warfighter.

The USAF program of record calls for 113 helicopters to replace its predecessor, the Sikorsky HH-60G PAVE HAWKs.

“We have just successfully gained approval to launch the production of a helicopter that will save the lives of our warfighters and our allies all over the world. This decision begins the transition to this more capable and reliable helicopter to fulfill the Air Force’s mission to leave no one behind. I could not be more proud of our government-contractor team for making this happen,” said Col. Dale R. White, Program Executive Officer, Intelligence, Surveillance, Reconnaissance and Special Operations Forces, USAF.

The CRH is significantly more capable and reliable than the HH-60G PAVE HAWK. The aircraft hosts a new fuel system that nearly doubles the capacity of the internal tank on a UH-60M BLACK HAWK, giving the USAF crew extended range and more capability to rescue those injured in the battle space. The CRH specification drives more capable defensive systems and enhances the vulnerability reductions, hover performance, electrical capacity, avionics, cooling, weapons, cyber-security, environmental, and net-centric capabilities beyond the current HH-60G.

The Sikorsky Combat Rescue Helicopter will perform critical combat search and rescue and personnel recovery operations for all U.S. military services. “This decision begins the transition to this more capable and reliable helicopter to fulfill the Air Force’s mission to leave no one behind,” says Col. Dale R. White, Program Executive Officer, Intelligence, Surveillance, Reconnaissance and Special Operations Forces, USAF.

‘System is not Broken’ After 737 MAX Crashes

September 28, 2019 / WIL BALDWIN

FILE PHOTO: A Boeing 737 MAX aircraft is seen grounded at a storage area in an aerial photo at Boeing Field in Seattle

NEW YORK (Reuters) – The U.S. Federal Aviation Administration process for certifying new airplanes is not broken but needs to be improved, the chair of an international panel of air-safety regulators, tasked to review Boeing Co’s <BA> 737 Max, said on Friday.

Speaking on the sidelines of an event at a New York City college, Christopher Hart, chair of the multi-agency panel, said there was no need to question the agency’s overall way of certifying airplanes.

“The U.S. aviation system each day transports millions of people safely, so it’s not like we have to completely overhaul the entire system, it’s not broken. But these incidents have shown us that there are ways to improve the existing system,” Hart said, referring to fatal crashes of a Lion Air 737 MAX in Indonesia and an Ethiopian Airlines 737 MAX five months apart that killed a total of 346 people.

The MAX remains grounded and Boeing has not set when it will conduct a key certification test flight. Some in Congress and in aviation have criticized the FAA’s longstanding practice of delegating certification tasks to manufacturers.

Michael Perrone, who heads the Professional Aviation Safety Specialists union, said at a House hearing in July that external entities designated by the FAA “are now performing more than 90 percent of FAA’s certification activities despite serious concerns that oversight is lacking.”

Hart, former chairman of the National Transportation Safety Board (NTSB) and a licensed pilot, heads the Joint Authorities Technical Review, a panel including air-safety regulators from the United States, Canada, China, Indonesia, European Union and Brazil.

Reuters reported on Sept. 17 the review’s recommendations will include citing regulations that need to be harmonized internationally and where communications can be improved at the FAA and among international regulators, citing a person briefed on the matter.

Hart on Friday said the panel would release its recommendations to the FAA “shortly,” but declined to provide more details on the timeline. He said the panel’s goal was not for all of its members to agree, but to provide a wide range of opinions and recommendations to the FAA.

Hart spoke to students the Vaughn College of Aeronautics and Technology in Queens. Asked by a student whether passengers can be expected to fly again on a 737 MAX, Hart said he predicted people would “sooner or later forget” about the crashes and investigations.

“This will be the safest airplane out there by the time it has to go through all the hoops and hurdles,” he said.

He also was optimistic when asked whether the deadly crashes would spell the end for Boeing’s 737 MAX programme.

“It will be a cold day in hell before Southwest starts moving away from 737s because that’s all they got,” Hart said, referring to Southwest Airlines Co <LUV.N>, which has cancelled flights into January because of the MAX grounding.

A Southwest Airlines spokesman declined to comment directly on Hart’s comments but said the airline has “no plans to veer away from our all-737 fleet.”

(Reporting by Tina Bellon in New York; Additional reporting by David Shepardson; Editing by Daniel Wallis)

Boeing MQ-25 Aerial Refueler Completes First Test Flight

September 20, 2019 / WIL BALDWIN

Successful test puts U.S. Navy’s first operational unmanned aerial refueler a step closer to the carrier fleet

ST. LOUIS, Sept. 19, 2019 – Boeing [NYSE: BA] and the U.S. Navy today successfully completed the first test flight of the MQ-25™ unmanned aerial refueler.

The MQ-25 test asset, known as T1, completed the autonomous two-hour flight under the direction of Boeing test pilots operating from a ground control station at MidAmerica St. Louis Airport in Mascoutah, Ill., where the test program is based. The aircraft completed an autonomous taxi and takeoff and then flew a pre-determined route to validate the aircraft’s basic flight functions and operations with the ground control station.

“Seeing MQ-25 in the sky is a testament to our Boeing and Navy team working the technology, systems and processes that are helping get MQ-25 to the carrier,” said Boeing MQ-25 Program Director Dave Bujold. “This aircraft and its flight test program ensures we’re delivering the MQ-25 to the carrier fleet with the safety, reliability and capability the U.S. Navy needs to conduct its vital mission.”

The Boeing-owned test asset is a predecessor to the engineering development model (EDM) aircraft and is being used for early learning and discovery to meet the goals of the U.S. Navy’s accelerated acquisition program. Boeing will produce four EDM MQ-25 air vehicles for the U.S. Navy under an $805 million contract awarded in August 2018.

The MQ-25 will provide the Navy with a much-needed carrier-based unmanned aerial refueling capability. It will allow for better use of the combat strike fighters currently performing the tanking role and will extend the range of the carrier air wing.

“Today’s flight is an exciting and significant milestone for our program and the Navy,” said the Navy’s Unmanned Carrier Aviation (PMA-268) Program Manager Capt. Chad Reed. “The flight of this test asset two years before our first MQ-25 arrives represents the first big step in a series of early learning opportunities that are helping us progress toward delivery of a game-changing capability for the carrier air wing and strike group commanders.”

T1 received its experimental airworthiness certificate from the FAA in September, verifying that the air vehicle meets the agency’s requirements for safe flight. Testing will continue with T1 to further early learning and discovery that advances major systems and software development.

Boeing and the U.S. Navy successfully completed the first test flight of the MQ-25™ unmanned aerial refueler Sept. 19. The MQ-25 test asset, known as T1, completed the autonomous two-hour flight under the direction of Boeing test pilots operating from a ground control station at MidAmerica St. Louis Airport in Mascoutah, Ill., where the test program is based. (Boeing photo)

First Fiji Airways A350 XWB Rolls Out of Paint Shop

September 12, 2019 / WIL BALDWIN

Fiji Airways’ first A350 XWB has rolled out of the Airbus paint shop in Toulouse featuring the airline’s signature livery. The aircraft, an A350-900 leased from Dubai Aerospace Enterprises, will be the first of its type to be operated by an airline in the South-Pacific region.

The aircraft will now proceed to the final phase of the assembly process, with the installation of engines followed by ground and flight tests, before delivery to Fiji Airways in Q4.

The aircraft will be configured with 33 full lie-flat Business Class and 301 Economy Class seats. The aircraft will be deployed to enhance existing long-haul services from Fiji to Australia and the U.S., and to provide the opportunity to open additional routes.

The A350 XWB is the world’s most modern wide-body family and the long-range leader. It is the only all-new design aircraft in the 300-410 seat category, offering the lowest cost per seat of any large wide-body. The A350 XWB offers by design unrivalled operational flexibility and efficiency for all market segments up to ultra-long haul (9,700 nm).

The A350 XWB is an all-new family of mid-size wide-body long-haul airliners shaping the future of air travel. The A350 XWB has the latest aerodynamic design, carbon fiber fuselage and wings, plus new fuel-efficient Rolls-Royce engines. Together, these latest technologies translate into unrivalled levels of operational efficiency, with a 25% reduction in fuel consumption and emissions, and significantly lower maintenance costs. At end of August 2019, Airbus has recorded a total of 913 firm orders for the A350 XWB from 51 customers worldwide.

Saab Brazilian Gripen E Completes its First Flight

August 29, 2019 / WIL BALDWIN

Saab today completed a successful first flight with the first Brazilian Gripen E fighter aircraft, 39-6001. At 2.41 pm CET on August 26, the Gripen E aircraft took off on its maiden flight flown by Saab test pilot Richard Ljungberg. The aircraft operated from Saab´s airfield in Linköping, Sweden.

The duration of the flight was 65 minutes and included test points to verify basic handling and flying qualities at different altitudes and speeds. The main purpose was to verify that the aircraft behavior was according to expectations.

“This milestone is a testament to the great partnership between Sweden and Brazil. Less than five years since the contract was signed, the first Brazil Gripen has conducted her first flight,” says Håkan Buskhe, President and CEO of Saab.

This aircraft is the first Brazilian production aircraft and will be used in the joint test program as a test aircraft. The main differences compared to the previous test aircraft are that 39-6001 has a totally new cockpit layout, with a large Wide Area Display (WAD), two small Head Down Displays (sHDD) and a new Head Up Display (HUD). Another major difference is an updated flight control system with updated control laws for Gripen E. It also includes modifications both in hardware and software.

“For me as a pilot it has been a great honour to fly the first Brazilian Gripen E aircraft as I know how much this means for the Brazilian Air Force and everyone at Saab and our Brazilian partners. The flight was smooth and the aircraft behaved just as we have seen in the rigs and simulators. This was also the first time we flew with the Wide Area Display in the cockpit, and I am happy to say that my expectations were confirmed,” says Saab test pilot Richard Ljungberg.

39-6001 will now join the test programme for further envelope expansion as well as testing of tactical system and sensors.

39-6001 will be designated F-39 in the Brazilian Air Force and will have the tail number 4100.

Watch the video!

First Egypt Air A220-300 Makes Maiden Flight

August 25, 2019 / WIL BALDWIN

The first A220-300 for EgyptAir has successfully completed its inaugural test flight from the Mirabel assembly line. The first of 12 aircraft EgyptAir has on order is due to be delivered to the Cairo-based airline in the coming weeks.

The A220 for EgyptAir will provide passengers with superior comfort, its innovative cabin design featuring the widest economy seats of any single-aisle aircraft, and panoramic windows for more natural light. The aircraft, which is outfitted with a brand new cabin layout of 134 seats, will now enter its final phase of completion before delivery.

The A220 delivers unbeatable fuel efficiency and true wide-body comfort in a single-aisle aircraft. The A220 brings together state-of-the-art aerodynamics, advanced materials and Pratt & Whitney’s latest-generation PW1500G geared turbofan engines to offer at least 20% lower fuel burn per seat compared to previous generation aircraft. With a range of up to 3,400 nm (6,300 km), the A220 offers the performance of larger single-aisle aircraft.

More than 80 A220 aircraft are flying with five operators on regional and transcontinental routes in Asia, America, Europe and Africa, proving the great versatility of Airbus’ latest addition.

Collins Aerospace to Support F-35 and CH-47F Fleets for Royal Netherlands Air Force

August 19, 2019 / WIL BALDWIN

Craig Bries, vice president and general manager, Avionics Service and Support for Collins Aerospace and Lieutenant General J.D. Luyt, Commander of the Royal Netherlands Air Force, commemorated the collaboration at a signing ceremony earlier this year.

Collins Aerospace to establish first-of-its-kind F-35 pilot readiness center
Onsite field service engineers will reduce turnaround time for CH-47F fleet

CEDAR RAPIDS, Iowa (Aug. 19, 2019) – Collins Aerospace Systems, a unit of United Technologies Corp. (NYSE: UTX), will play an important role in maintaining the readiness of the Royal Netherlands Air Force (RNLAF) F-35 and CH-47F fleets by providing local field service engineers, test capabilities and the first F-35 global pilot readiness center. The company recently signed a multi-platform Letter of Intent with the RNLAF to provide support at both Soesterberg, and Woensdrecht Air Base, The Netherlands.

A highlight of the Letter of Intent is that it foresees a first-of-its-kind pilot readiness center that would provide on-location helmet fitting, flight simulators and altitude chamber training for F-35 pilots. In addition, Collins Aerospace intends to provide local field service engineers and test capabilities at the Woensdrecht Air Base to reduce turnaround time on CH-47Fs and maintain the RNLAF fleet’s readiness levels. Collins Aerospace has an unmatched level of expertise on both platforms as the original equipment manufacturer for the avionics suite of the CH-47F Chinook, and components in the F-35 Helmet and flight simulator.

“Collins Aerospace and the RNLAF are working toward a common goal of supporting the new F-35 pilot readiness center and maximizing the availability of CH-47F avionics,” said Craig Bries, vice president and general manager, Avionics Service and Support for Collins Aerospace. “Our legacy as an avionics leader makes us the perfect partner to help ensure these fleets are ready at a moment’s notice.”

Work to establish the pilot readiness center, and to place local support personnel, is slated to begin in early 2020.

Archives