December 18, 2024 | International, C4ISR, Security
INTERPOL Pushes for "Romance Baiting" to Replace "Pig Butchering" in Scam Discourse
INTERPOL promotes "romance baiting" to replace "pig butchering," aiming to support victims and expose fraud.
October 6, 2020 | International, Aerospace
Safran Helicopter Engines strengthens its European team around Ardiden 3TP with ITP Aero in Spain
5 October 2020, Bordes
Safran Helicopter Engines and the Spanish aero-engine company ITP Aero have signed a Memorandum of Agreement (MoA) to cooperate on Ardiden 3TP, a turboprop engine suitable for European military applications – specifically the unmanned, training and transport sectors. The Spanish aero engine specialist strengthen the European team with Safran Helicopter Engines, and ZF Aviation Technology in Germany.
Ardiden 3TP is a 100% European solution based on Safran's Ardiden 3 core engine and featuring technologies developed through its Tech TP technological demonstrator, which ran for the first time in June 2019.
Alvaro Santodomingo, ITP Aero Defence Business Unit Executive Director, said: "A collaboration with Safran Helicopter Engines in this engine is an important opportunity for us. Our aero-engine technologies and capabilities will significantly benefit this engine propulsive system, lowering operating and maintenance costs, while supporting future Spanish industrial capabilities".
Commented Florent Chauvancy, Safran Helicopter Engines EVP OEM Sales, "We are proud to welcome ITP Aero into this exciting project. We are committed to delivering the Ardiden 3TP, a 100% European engine featuring high levels of design maturity and competitive operating and maintenance costs. It will be designed, built and supported by highly-experienced teams using state-of-the-art industrial capabilities in Germany, Spain and France. For European nations seeking to protect their national interests, in civil or military fixed-wing programs, Ardiden 3TP is the natural choice."
The Ardiden 3TP will be optimized for operation at medium and high altitudes, up to 45,000 feet, and be easy to operate -- thanks to a unique throttle and Full Authority Digital Engine and Propeller Control (FADEPC) controlling power and propeller pitch. MT-Propeller will contribute to the propeller.
It is based on Tech TP, a Clean Sky 2 research and innovation programme validating the technologies necessary to develop a new-generation turboprop. Since June 2019, tests have progressed at a steady pace. Featuring a compact and lightweight architecture, Tech TP offers
15 per cent lower fuel consumption and CO2 emissions (over current engines). It is one of the first Clean Sky 2 demonstrators to enter its test phase. More than 20 partners from eight European countries are contributing to the project.
The Ardiden 3 is a new-generation core engine in the 1,700 to 2,000 shp power range. Two EASA-certified models, the Ardiden 3C and 3G, have completed over 10,000 hours of tests, confirming high levels of design maturity and competitive operating and maintenance costs. In addition, more than 250 Ardiden 1 engines have flown over 200,000 hours. The Ardiden 3 features a remarkably compact modular architecture, a best-in-class power-to-weight ratio and a low cost-of-ownership.
On the same subject
-
-
August 28, 2020 | International, Naval
US Navy wants to create a ‘hardware factory’
Andrew Eversden WASHINGTON — A new request for information from the U.S. Navy outlines the service's interest in launching a “hardware factory and hardware pipeline” to keep its fleet computing platforms up-to-date. According to an Aug. 25 request posted by the Naval Sea Systems Command (NAVSEA), the sea service wants the factory as part of a broader effort to “architect, implement, and migrate” to a universally managed, infrastructure as a service environment for the sea service's surface fleet. NAVSEA wants the pipeline and factory ready for use no later than fiscal 2023. The Navy wants to use the hardware factory and hardware pipeline concept to use agile development to accelerate the development of its computing infrastructure. The new model is part of the Navy's effort to transition away from technology insertions and move toward continuous hardware refreshes aboard its current and future surface fleet. The request is for a program called Future Integrated Combat System Infrastructure-as-a-Service and Computing Infrastructure (FICS-CI), managed by NAVSEA's Program Executive Office Integrated Warfare Systems. “The Navy envisions a transition to a HW Factory and HW Pipeline Process continuously delivering IaaS to pace technology, eliminate obsolescence, and enable continuous design and development of [computing infrastructure] solutions that meet ship needs with minimal deviation from commercial standards and practices,” the RFI states. The program is part of an effort by the NAVSEA's PEO IWS to migrate systems to a “common, scalable intermittently connected edge cloud architecture” using IaaS to enable platform as a service. NAVSEA wants to deploy the computing architecture to large and small combatants, aircraft carriers, amphibious ships, and “other related programs including U.S. Coast Guard, AEGIS Foreign Military Sales, and proposed future ship classes.” The RFI lists several interest areas for the Navy: systems engineering; IaaS design and integration; technical data packages; production; diminishing manufacturing sources and material shortages, hardware, and software version release tracking; and integrated logistics support, maintenance and operations training. “The HW Factory and HW Pipeline will streamline component selection, qualification, integration, life cycle support and training for the Fleet, leading to accelerated infrastructure development and fielding,” the RFI states. “The Navy envisions a continuous CI refresh cycle rapidly delivering improved Lethality, Combat Capability and Capacity to the Surface Navy Fleet to confront an increasing array of Strategic, Operational, and Tactical Challenges.” https://www.c4isrnet.com/battlefield-tech/it-networks/2020/08/27/us-navy-wants-to-create-a-hardware-factory/
-
November 2, 2018 | International, Aerospace
General Electric beats Rolls-Royce to power Turkey’s indigenous fighter jet
By: Burak Ege Bekdil ANKARA, Turkey — Turkey's aerospace authorities have chosen General Electric's F110 family of engines to power the prototype and an initial batch of what will become Turkey's first indigenous fighter jet, the TF-X. A senior procurement official confirmed the choice, saying that the twin-engine TF-X will be powered by the F110-GE-129 or the F110-GE-132 engine. “This is a stopgap solution until we have built our indigenous engine for the TF-X,” the official said. Under the deal, the first prototype of the TF-X and an unknown number of initial batches would be powered by the F110 engine. Turkey then plans to switch to an engine to be developed by TRMotor, a national engine consortium. But some aerospace sources say the F110 may not be the ideal engine for a fifth=generation fighter. “If the Turks go for the GE option, they will have to compromise on the stealth capabilities of the TF-X,” a Paris-based defense specialist said. Earlier this year, Turkey and Rolls-Royce came close to a strategic cooperation deal for the development and co-production of an engine for the TF-X. The British company and the Turkish government signed a letter of intent to finalize negotiations on the engine program by July 31, but the plan did not come to fruition. Turkish officials say the idea behind the GE deal is to rely on foreign technology to eventually in the long term build an indigenous engine to power the TF-X. Turkey wants to build the TF-X with know-how from BAE Systems. In January 2017, Britain and Turkey signed a deal worth more than £100 million (U.S. $128 million) to develop the Turkish fighter jet. Turkey hopes to have the first test flights of the aircraft in 2023. https://www.defensenews.com/industry/2018/10/31/general-electric-beats-rolls-royce-to-power-turkeys-indigenous-fighter-jet/