Northrop Grumman and Ultra Demonstrate Unmanned Anti-submarine Warfare Capability

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  29 juillet 2020 | International, Aérospatial

  A Modern Solution To Improved Performance, Cost, Use For The Venerable Chinook

  It's the dream of military acquisition in 2020: A new system that drops into place in a current piece of hardware, provides improved performance, easier maintenance, and builds on a legacy of more than 12 million battle-proven hours of operation. It's the T55 714C, Honeywell Aerospace's new variant of the venerable T55 turboshaft engine used on American helicopters and fixed wing aircraft since 1955. The engine's starring role, however, is aboard Boeing's CH-47A and MH-47 rotorcraft, known as the Chinook. The heavy-lift Chinook that has served the Army consistently, as well as international customers, for more than 60 years features two counter-rotating rotors that eliminate the need for an antitorque vertical rotor. The unique design requiring two T55 engines per aircraft allows all the T55's power to be used for lift and thrust and enable perhaps the toughest helicopter pilot maneuver known—the pinnacle landing. In the years since the T55 and Chinook entered service in 1962, Honeywell has delivered more than 6,000 engines, with 2,500 engines in service today supporting 950 aircraft operating in 20 countries. Dave Marinick, Honeywell's President of Engines and Power Systems, says throughout all these years the company has invested in the engine, from its original 1,600 shp capability to today as the T55 produces 4,800 shp to power the Chinook to a maximum speed 196 mph. But now, with Future Vertical Lift and its high-speed rotorcraft on the horizon, Honeywell looked again at what the Army needed to power the Chinook to fill the heavy lift role as the Future Armed Reconnaissance Aircraft and Future Long-Range Assault Aircraft go into service. "Looking back at the multi-decade history, characterized by a close relationship with the Army and an understanding of how the aircraft is used—how the army flies the Chinook, how they maintain the Chinook—we have been able to focus on what is important to our customer," Marinick adds. The Charlie variant of the T55 fits the bill, according to Marinick. It maintains the current engine architecture, while offering 20% more power, nearly 10% improved performance at high and hot altitudes and using 9% less fuel. It includes a modern full authority digital engine control with health monitoring. "We designed in a cost-effective way to increase power to 6,000 shp, and we have a roadmap to increase that up to 7,500 shp," Marinick says. "And while saving gas is one thing, we also are extending the range with the new engine, allowing the pilot to fly or loiter longer, an important option for the operators using this aircraft—whether for military missions, fire suppression or disaster relief." In addition to its performance improvements, the T55 714C features a new compressor and improved reliability and lifecycle. The accessory section has also been redesigned based on feedback from Army customers. In the past, maintainers had to pull the engine entirely to access the accessory section on the number 2 engine. The redesign shifts the accessory section to the top of the engine, providing easier and saving hundreds of man hours to make a switch. There are no changes to the engine mounts, making the T55 714C a drop-in replacement. It can be installed as a full-up new engine or as a kit that is introduced during overhaul. "In this concept, we are turning a maintenance event into much more—a Chinook leaving with new engines, without requiring a block upgrade. We're delivering major performance improvements, without tearing up the aircraft," Marinick says. The engine's tooling, logistics and training remain the same, further reducing the time required to introduce a much-improved engine. The new engine comes with another major change. The U.S. Army has completed a product verification audit to provide approval for Honeywell to open a state-of-the-art T55 Repair and Overhaul Center of Excellence near the company's Phoenix, Arizona headquarters. Marinick says the new facility will increase throughput by two to three times the previous capacity for CH-47 Chinook helicopter fleets. The move also establishes a larger pool of highly trained technicians who will work alongside the engineering team to streamline feedback and help to inform future upgrades. The company has also launched an initiative to ensure on-time delivery of materials from suppliers to support the expanded capacity. "Future Vertical Lift is upon us," Marinick says, "We think of the Charlie as an affordable, responsible upgrade and service designed to keep the Chinook at optimum performance and readiness in a realistic way, through 2060." Honeywell's upgraded T55 Charlie engine is expected to be ready for flight test at the end of 2022. For more Information about the T55, click here.

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  4 août 2020 | International, Aérospatial

  Future Fighter Factory Technology Will Make Tempest Low-Cost

  August 04, 2020 BAE Systems is making investments in new production and assembly technologies to reduce costs and halve the time associated with producing a complex future combat aircraft. With the target of bringing... https://aviationweek.com/defense-space/aircraft-propulsion/future-fighter-factory-technology-will-make-tempest-low-cost

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  11 novembre 2019 | International, Aérospatial

  Counterdrone Tech Takes Center Stage In UK Government Strategy

  By Tony Osborne Britain is taking initial steps to create a mobile national counterdrone capability to protect major events and key parts of the national infrastructure. Although aware of the potential benefits that small unmanned aircraft (UAS) systems can bring to the national economy, the country has also experienced the havoc they can wreak. Last December, sightings of small UAS around the perimeter of London's Gatwick Airport resulted in the halting of flight operations, disrupting flights and the plans of thousands of travelers in the run-up to Christmas. Yet, despite more than 100 such sightings during the shutdown, police investigations have exhausted their lines of inquiry, no charges were ever brought and Sussex Police, leading the investigation, closed their probe at the end of September. Since then, environmental protesters Extinction Rebellion threatened to use UAS to shut down Heathrow Airport in a bid to disrupt operations, although activists were arrested before they got a chance to try. Drone use in the UK is growing rapidly. According to consultancy PwC, there could be as many as 76,000 commercial and government drones in use in the UK by 2030. In 2014, there were around 400 commercial drone operators in the UK approved by the UK Civil Aviation Authority; there are now over 5,000. The events at Gatwick have acted as a catalyst, prompting the government to get ahead of the threat. In October, the British Home Office published its Counter-Unmanned Aircraft Strategy to help civilian authorities tackle the issues surrounding drones. Along with developing a national counterdrone capability for the police, instead of relying on the military as they had to at Gatwick, the government is looking to update the threat picture of how UAS can be misused. They would then develop what officials call a “full-spectrum” approach in deterring, detecting and disrupting that misuse. Perhaps most crucially, the government will provide greater support to Britain's fledgling but fast-growing counterdrone industry. As well as developing legislation and regulation for counterdrone technology, the strategy also mentions “incentivizing investments” for the most effective technologies. “Government needs to strike a balance,” says British security minister Brandon Lewis. “We need a security posture that keeps us safe, but it must also recognize the benefits of the legal uses of drones and allow us to reap the fullest rewards of incorporating drone technology into society,” But first, the British government will test and accredit anti-drone technologies to better understand their capabilities and develop a catalog of systems that can be purchased by police forces, security agencies and other government departments. Government officials and industry admit there is no “silver bullet” to protect against all types of UAS. “There is not one specific system or one capability that solves the problem,” said Tony Burnell, CEO of Metis Aerospace, a UK-based developer of drone detection equipment. Burnell made his comments while speaking to a British parliamentary committee about the domestic threat of drones in October. “It has to be a multilayered approach. . . . The counterdrone capabilities in the UK, made by industry, will tackle 99.5% of the drones that are out there,” he said. “There is still the 0.5% of drones that you do not know about and that you will [need to] be keeping up [with] to understand.” Costs of anti-drone equipment also remain prohibitively high. But while military-spec systems to protect an airport are priced at £2-3 million ($3-4 million), that could be overkill and far too expensive for a facility such as a prison. Yet prisons arguably need such equipment most urgently. Home Office figures say there were 284 drone incidents at British prisons in 2016, 319 in 2017 and 168 in 2018, with 165 drones recovered at prisons in 2016-17. The police are not the only ones taking an interest in drone technology. In September, the Royal Air Force (RAF) selected Leonardo to carry out a three-year-long study to inform a future RAF counterdrone capability. Leonardo's Falcon Shield was one of the systems deployed by the RAF to Gatwick after a police request. The Gatwick incident has already prompted changes in British law. In March, laws stating that drones could not be flown within 1 km (0.6 mi.) of an airfield were replaced with new restrictions banning them from operating within an airfield's existing aerodrome traffic zone—a radius of 2-2.5 nm around the airfield. It is also now against the law to operate them in 5 X 1-km zones stretching from the thresholds of an airfield/airport's runway. The UK has introduced legislation that calls on drone operators with systems weighing between 250g-20 kg (0.6-44 lb.) to register them and for the pilots to take an online competency course. Registration, which began on Nov. 5, will become a legal requirement from Nov. 30, with operators receiving an operator registration number they must affix to their drone before it is flown. The strategy says the government is now developing concepts for the future implementation of an unmanned traffic management (UTM) system, but it notes that while UTM technology “will not be delivered in the lifetime of the strategy,” security concerns will be appropriately incorporated in early planning. https://aviationweek.com/commercial-aviation/counterdrone-tech-takes-center-stage-uk-government-strategy