Rolls-Royce is to supply complete MTU propulsion systems for five new Type 31 general-purpose frigates for the Royal Navy. In total, the order comprises of 40 engines and generator sets to be used for main propulsion and on-board power generation, the MTU Callosum propulsion control and monitoring system, and Integrated Logistics Support (ILS).
Rolls-Royce liefert komplette MTU-Antriebssysteme für fünf neue Type-31-Mehrzweckfregatten der britischen Royal Navy. Der Auftrag umfasst insgesamt 40 MTU-Hauptantriebsmotoren und Bordstromaggregate, das Antriebssteuerungs- und Überwachungssystem MTU Callosum und die dazugehörige integrierte logistische Unterstützung (ILS).
Delivery scope: 20 main propulsion engines and 20 on-board generator sets, Callosum marine automation and integrated logistic support
MTU propulsion solutions from Rolls-Royce now feature in almost all current and future Royal Navy vessels
Each new Type 31 frigate of the Royal Navy will be powered by four MTU 20V 8000 M71 engines, each delivering over 8,000 kW.
Die neuen Type-31-Fregatten der britischen Royal Navy werden von je vier MTU-Motoren des Typs 20V 8000 M71 mit einer Leistung von über 8000 Kilowatt angetrieben.
Rolls-Royce is to supply complete MTU propulsion systems for five new Type 31 general-purpose frigates for the Royal Navy. In total, the order comprises of 40 engines and generator sets to be used for main propulsion and on-board power generation, the MTU Callosum propulsion control and monitoring system, and Integrated Logistics Support (ILS). Each new frigate will be powered by four MTU 20V 8000 M71 engines, each delivering over 8,000 kW. On-board power will be provided on each vessel by four MTU generator sets based on 16V 2000 M41B units, each delivering in excess of 900 kW. In September 2021, Rolls-Royce will deliver the first shipset comprising four main propulsion engines and four generator sets to prime contractor Babcock International Group. Integrated Logistics Support for propulsion and onboard power systems will ensure efficient and cost-effective maintenance throughout their entire service life. It is expected that the MTU Callosum propulsion control and monitoring system will be officially added to the supply contract very shortly.
Sean Donaldson, Managing Director for Energy & Marine at Babcock International, said: “We’re delighted to welcome Rolls-Royce with its MTU solutions as a supplier to our Type 31 Programme. Its engines and on-board generator sets are already proving their mettle in numerous comparable vessels worldwide.”
Knut Müller, Vice President Marine & Defense at Rolls-Royce business unit Power Systems, said: “We’re very proud of the fact that Babcock International Group has opted for MTU propulsion and on-board power solutions on this highly significant project. MTU products now feature in almost all current and future projects of the Royal Navy. That is impressive proof of the trust our British partners place in us and of the reliability and flexibility of our products.”
The Royal Navy relies on Rolls-Royce propulsion solutions across its surface and submarine fleets. MTU Series 2000, 4000 and 8000 units will feature in future in most Royal Navy warships – in destroyers (Type 45), all frigate classes (Type 23, 26, 31) and submarines (Astute class).
Rolls-Royce is to supply complete MTU propulsion systems for five new Type 31 general-purpose frigates for the Royal Navy. In total, the order comprises of 40 engines and generator sets to be used for main propulsion and on-board power generation, the MTU Callosum propulsion control and monitoring system, and Integrated Logistics Support (ILS).
Rolls-Royce liefert komplette MTU-Antriebssysteme für fünf neue Type-31-Mehrzweckfregatten der britischen Royal Navy. Der Auftrag umfasst insgesamt 40 MTU-Hauptantriebsmotoren und Bordstromaggregate, das Antriebssteuerungs- und Überwachungssystem MTU Callosum und die dazugehörige integrierte logistische Unterstützung (ILS).
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).
CAPE CANAVERAL, Fla., March 26, 2020 (GLOBE NEWSWIRE) — The successful March 26 launch of the U.S. Space Force’s sixth and final Advanced Extremely High Frequency (AEHF) military communications satellite aboard a United Launch Alliance (ULA) Atlas V rocket marked the 500th flight of Aerojet Rocketdyne’s RL10 upper-stage engine.
The RL10, which powers the ULA Atlas V Centaur upper stage, is one of several Aerojet Rocketdyne propulsion products supporting the mission. Aerojet Rocketdyne propulsion can be found on both the rocket and the AEHF-6 satellite. Built by Lockheed Martin, the AEHF satellites provide secure, jam-proof communications, including nuclear command and control, to U.S. and allied forces.
“This launch marks an important milestone for Aerojet Rocketdyne and for the country,” said Eileen Drake, Aerojet Rocketdyne’s CEO and president. “The RL10 has supported a majority of the nation’s most important national security and scientific missions, including all of the AEHF satellites which provide communication links that are critical to our warfighters.”
The Atlas V in the 551 configuration is the most powerful vehicle in the Atlas V family, featuring five Aerojet Rocketdyne AJ-60A solid rocket strap-on motors, each generating 348,500 pounds of thrust. Designed specifically to provide extra lifting power to the Atlas V, the AJ-60A is the world’s largest monolithic solid rocket motor ever flown.
The AEHF-6 satellite, meanwhile, is outfitted with three different types of Aerojet Rocketdyne thrusters for attitude control, orbital station keeping and maneuvering. These include 12 MR-103G and six MR-106E monopropellant thrusters; and four, 5-kilowatt-class XR-5 Hall-effect electric thrusters and associated power processing systems.
The Atlas V also uses Aerojet Rocketdyne reaction control thrusters on the Centaur upper stage, as well as pressure vessels provided by ARDÉ, an Aerojet Rocketdyne subsidiary. The rocket launched from Cape Canaveral Air Force Station, Florida, and the AEHF-6 satellite is on its way to its operating location in geostationary orbit.
In addition to the Atlas V, the RL10 also powers the upper stage of ULA’s Delta IV Heavy rocket. The RL10 has helped place hundreds of military, civil and commercial satellites into Earth orbit and has sent spacecraft to explore every planet in our solar system. The RL10’s proven reliability over more than five decades of service has made it the upper-stage engine of choice for three new rockets under development, including ULA’s Vulcan Centaur, Northrop Grumman’s OmegA, and NASA’s Space Launch System.
About Aerojet Rocketdyne: Aerojet Rocketdyne, a subsidiary of Aerojet Rocketdyne Holdings, Inc. (AJRD), is a world-recognized aerospace and defense leader that provides propulsion systems and energetics to the space, missile defense and strategic systems, and tactical systems areas, in support of domestic and international customers.
With around 4,500 train cars already delivered, Bombardier’s Chinese joint venture is the only Sino-foreign entity to win a new Chinese standard high-speed train bid
New Chinese standard high-speed train cars to enhance passenger experience and contribute to the expansion of the world’s longest high-speed rail network
Global mobility solution provider Bombardier Transportation announced today that its Chinese joint venture, Bombardier Sifang (Qingdao) Transportation Ltd. (BST), has been awarded a contract from China State Railway Group Co., Ltd. (CHINA RAILWAY) to supply 160 CR400AF cars, a new Chinese standard high-speed train car for China’s evolving high-speed rail network. The 160 cars will be configured into ten 16-car trainsets with an operating speed of 350 km/h. The total contract is valued at approximately 2.97 billion CNY ($427 million US, 380 million euro). Bombardier Transportation owns 50 per cent of the shares in BST, which is consolidated by Bombardier Transportation’s partner CRRC Sifang Rolling Stock Co., Ltd.
Jianwei Zhang, President, Bombardier Transportation China, said, “We are very proud to have been chosen to supply the new generation of CR400AF cars, a high-speed railway car, through our BST joint venture. China’s high-speed rail industry has become one of the nation’s economic pillar industries and the high-speed network has brought greater mobility and prosperity to the public. Bombardier is proud of its contributions to China’s rail industry and looks forward to delivering more of the high-quality products that are helping China meet its ambitious long-term mobility goals.”
In 2018, BST won two contracts to build a total of 288 CR400AF cars and every car was delivered on-time and on quality. This latest contract is BST’s third and reflects the trust that CHINA RAILWAY has in BST’s efficiency, reliability and competitive edge. All 160 cars will be delivered by mid-2020.
Bombardier Transportation in China is the full solution provider across the entire value chain. From vehicles and propulsion to services and design, Bombardier Transportation in China has seven joint ventures, six wholly foreign-owned enterprises, and more than 8,000 employees. Together, the joint ventures have delivered 4,500 railway passenger cars, 580 electric locomotives and over 2,500 metro cars, Monorail, APM, and trams to China’s growing rail transit markets. It is a major signalling supplier to the Chinese high-speed network and through its joint ventures, propulsion equipment and signalling systems are utilized in a total of 30 Chinese cities.
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.
CHICAGO and PARIS, Feb. 13, 2019 /PRNewswire/
— Boeing [NYSE: BA] and Safran [EPA: SAF] today announce the name of
their 50-50 joint venture to design, build and service Auxiliary Power
Units (APUs): Initium Aerospace.
From its Latin roots, initium means ‘the beginning’ or ‘to start.’
This is what an APU is and does when it provides the power to start the
main aircraft engines and systems on the ground and, if necessary, in
flight. Initium Aerospace starts with Boeing’s customer and airplane
knowledge and Safran’s experience designing and producing complex
propulsion systems.
“This is an exciting milestone as we bring together the best of both
companies to design and build an advanced APU that will create more
lifecycle value for our customers,” said Stan Deal,
president and CEO, Boeing Global Services. “This is further proof that
Boeing is making strategic investments that strengthen our vertical
capabilities and continue to expand our services portfolio.”
The creation of Initium Aerospace follows the regulatory and
antitrust approvals the joint venture received last November, after an
agreement was reached in June.
“I would like to congratulate everybody at Boeing and Safran who
contributed to the creation of this new joint venture,” said Philippe
Petitcolin, CEO of Safran. “Initium Aerospace is swiftly capitalizing on
the vast expertise of both partners to provide state-of-the-art APUs
and innovative solutions to customers. Safran is proud and totally
invested in supporting Boeing’s growth and operators expectations. We
look forward to presenting the first demonstrator engine to the market.”
The initial team consists of employees from the two parent companies and is led by Etienne Boisseau, CEO of Initium Aerospace. Initial work is being done in San Diego, California,
where they are focused on the next-generation APU design as well as
collaborating with teams across Boeing and Safran on engineering and
production.
Safran is an international high-technology group, operating
in the aircraft propulsion and equipment, space and defense markets.
Safran has a global presence, with more than 58,000 employees and sales
of 16.5 billion euros in 2017. Working
alone or in partnership, Safran holds world or European leadership
positions in its core markets. Safran undertakes Research &
Development programs to meet fast-changing market requirements, with
total R&D expenditures of around 1.4 billion euros in 2017. Safran is listed on the Euronext Paris stock exchange, and is part of the CAC 40 and Euro Stoxx 50 indices.
In February 2018, Safran took
control of Zodiac Aerospace, significantly expanding its aircraft
equipment activities. Zodiac Aerospace has 32,500 employees and
generated sales of 5.1 billion euros for its fiscal year ended August 31, 2017.
Boeing is
the world’s largest aerospace company and leading manufacturer of
commercial airplanes and defense, space and security systems. Boeing is
also the world leader in combined commercial airlines and government
services with customers in more than 150 countries. The company’s
products and tailored services include commercial and military aircraft,
satellites, weapons, electronic and defense systems, launch systems,
advanced information and communication systems, and performance-based
logistics and training. Boeing employs approximately 150,000 people
across the United States and in more than 65 countries.
Forward-Looking Information Is Subject to Risk and Uncertainty
Certain statements in this release may be “forward-looking” within the meaning of the Private Securities Litigation Reform Act of 1995, including statements regarding the expected timetable for completing the transaction, future business prospects, and benefits and synergies of the transaction, as well as any other statement that does not directly relate to any historical or current fact. Forward-looking statements are based on current assumptions about future events that may not prove to be accurate. These statements are not guarantees and are subject to risks, uncertainties and changes in circumstances that are difficult to predict. Many factors could cause actual results to differ materially from these forward-looking statements. As a result, these statements speak only as of the date they are made and we undertake no obligation to update or revise any forward-looking statement, except as required by law. Specific factors that could cause actual results to differ materially from these forward-looking statements include the effect of global economic conditions, the ability of the parties to consummate the transaction and receive antitrust clearance, and other important factors disclosed previously and from time to time in reports filed by Boeing and Safran with their respective agencies.
