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As the aerospace industry intensifies its focus on decarbonization efforts, the sector faces increasing pressure to reduce its carbon footprint in line with global climate goals. This conversation is particularly relevant as the industry contributes approximately 3.5% of global emissions. To stay competitive and comply with the Paris Agreement targets, aerospace companies are adopting a range of technological solutions to cut emissions by 2030 and 2050.In this episode of Getting Technetical, host Michelle Dawn Mooney speaks with Stéphane Guignard, the Director of Strategy at Technetics, about the industry's decarbonization journey. Key topics include innovations in weight reduction, fuel optimization, and the role of Sustainable Aviation Fuels (SAF) in reaching decarbonization targets. Guignard also discusses the challenges of scaling SAF production and the regulatory changes required to support widespread adoption.This episode highlights the importance of collaboration between governments, private companies, and research institutions in accelerating these decarbonization efforts. With a focus on SAF and the potential of hybrid-electric and hydrogen-powered aircraft, the conversation offers insight into the future of sustainable aviation.Article by MarketScale

In this episode of Getting Technetical, Stéphane Guignard, Director of Strategy at Technetics, discusses the aerospace industry's efforts to reduce carbon emissions. The conversation explores advancements since the 2015 Paris Agreement, focusing on sustainable aviation fuels (SAFs), electric and hybrid-electric aircraft, and the potential of hydrogen fuel cells. It highlights technological innovations, regulatory impacts, and the importance of collaboration among governments, companies, and research institutions in shaping a greener future for global travel.

In this episode of Getting Technetical, Stéphane Guignard, Director of Strategy at Technetics, discusses the aerospace industry's efforts to reduce carbon emissions. The conversation explores advancements since the 2015 Paris Agreement, focusing on sustainable aviation fuels (SAFs), electric and hybrid-electric aircraft, and the potential of hydrogen fuel cells. It highlights technological innovations, regulatory impacts, and the importance of collaboration among governments, companies, and research institutions in shaping a greener future for global travel.

The upcoming Turbo Expo, scheduled to take place in London from June 24 to 28, 2024, is set to be a landmark event for the engineering and energy sectors. One highlight of the event is a paper presented by Elaine Motyka from Technetics Group R&D, focusing on the development of porous transport layers (PTLs) for anion exchange membrane electrolyzers (AEMEL). This innovative research aims to optimize PTLs to enhance performance and cost-effectiveness, making hydrogen a more viable energy source. The integration of hydrogen into turbines will also be discussed, showcasing the industry's commitment to sustainability by incorporating up to 50% hydrogen in some turbines.Presentations from Erin Volpe and Stefan Roeseler add further depth to the expo. Volpe explores innovative solutions for abradable sealing systems in turbines, utilizing felt metal materials to minimize leakage and enhance efficiency. Roeseler's work on C-rings focuses on improving seal integrity under high pressure and temperature conditions, using advanced simulations and real-world testing. These developments could revolutionize turbine repair and performance, making the process more efficient and cost-effective. For those interested in the forefront of engineering and energy, the Turbo Expo 2024 is a must-attend event that promises to showcase groundbreaking advancements shaping the future of the industry.

The upcoming Turbo Expo, scheduled to take place in London from June 24 to 28, 2024, is set to be a landmark event for the engineering and energy sectors. One highlight of the event is a paper presented by Elaine Motyka from Technetics Group R&D, focusing on the development of porous transport layers (PTLs) for anion exchange membrane electrolyzers (AEMEL). This innovative research aims to optimize PTLs to enhance performance and cost-effectiveness, making hydrogen a more viable energy source. The integration of hydrogen into turbines will also be discussed, showcasing the industry's commitment to sustainability by incorporating up to 50% hydrogen in some turbines.Presentations from Erin Volpe and Stefan Roeseler add further depth to the expo. Volpe explores innovative solutions for abradable sealing systems in turbines, utilizing felt metal materials to minimize leakage and enhance efficiency. Roeseler's work on C-rings focuses on improving seal integrity under high pressure and temperature conditions, using advanced simulations and real-world testing. These developments could revolutionize turbine repair and performance, making the process more efficient and cost-effective. For those interested in the forefront of engineering and energy, the Turbo Expo 2024 is a must-attend event that promises to showcase groundbreaking advancements shaping the future of the industry.

As industries strive to meet stringent noise regulations and enhance acoustic performance, acoustic CAD simulation has become an essential tool in aerospace design. The European Environment Agency reports that noise pollution affects the well-being of millions, emphasizing the need for advanced acoustic solutions to mitigate these effects.What cutting-edge strategies and technologies can address the growing challenges of noise pollution in aerospace and beyond? This is the core question explored in the latest episode of Getting Technetical, hosted by Michelle Dawn Mooney and featuring guest expert Raphael Pesseau, the Director of Acoustics Engineering Solutions at Hexagon Manufacturing Intelligence.This episode explores the applications of acoustics CAD simulation in aerospace design, discussing its impact on environmental noise control, regulatory compliance, and product innovation.Mooney and Pesseau’s conversation includes the following:• The Critical Role of Acoustics in Environmental and Regulatory Compliance: Addressing noise pollution and meeting regulatory benchmarks through advanced simulations• Technological Innovations and Solutions: Exploring Hexagon's role in bridging the real and digital worlds to tackle acoustic challenges• Future Directions and Collaborations: Discussing the integration of Technetics’ FELTMETAL™ in acoustic designs and its implications for the industryAs the Director of Acoustics Engineering Solutions for Hexagon, Raphael Pesseau manages a global team specializing in acoustic simulation using the Actran software. With a career focused on simulation technologies and acoustic solutions since 2007, Pesseau significant contribution to the field grew after his firm became part of Hexagon in 2017. Pesseau is based in Toulouse, France.

In the latest episode of "Getting Technetical," the 2024 aerospace outlook is meticulously unpacked. This insightful discussion explores the aerospace industry's vigorous expansion, highlighting both the commercial and military sectors' burgeoning demand. Jason Riggs, Director of Sales for the Americas at Technetics, shares an expert analysis on the projected doubling of the industry's value by 2032, despite facing production and supply chain challenges. With a focus on the past year's hurdles, such as delays and market fluctuations, and a forward-looking perspective on technological innovations, environmental initiatives, and the burgeoning commercial space travel sector, this episode is a must-listen for professionals and enthusiasts eager to understand the aerospace landscape's evolving dynamics.

In this insightful episode of the Technetics podcast, Timothy Douglass sits down with Jonathan Kweder, the Director of R&D for North America at Technetics, to discuss the pioneering strides and challenges the company faces in integrating additive manufacturing (AM) into the production of metal seals. As the aerospace and new space sectors demand faster iteration and customization, Technetics explores the frontiers of 3D printing technology to reduce lead times and enhance product development. Kweder shares his expert perspective on the journey from initial experimentation with desktop machines to the complex realities of producing metal seals with AM, including the technological hurdles, the importance of material selection, and the potential for innovation in design and production.The conversation navigates through the technical and commercial landscape of additive manufacturing, highlighting both its current limitations in precision and material consistency and its promising advantages for rapid prototyping and creative freedom in engineering. Despite the challenges, Kweder's insights reveal a future where AM could revolutionize traditional manufacturing processes, offering improved thermal resistance, design flexibility, and potentially transforming the way metal seals are produced and used in critical applications. This episode is a must-listen for anyone interested in the convergence of traditional industrial practices with cutting-edge manufacturing technologies, shedding light on the ongoing evolution within Technetics and the broader implications for the aerospace industry.

In this insightful episode of the Technetics podcast, Timothy Douglass sits down with Jonathan Kweder, the Director of R&D for North America at Technetics, to discuss the pioneering strides and challenges the company faces in integrating additive manufacturing (AM) into the production of metal seals. As the aerospace and new space sectors demand faster iteration and customization, Technetics explores the frontiers of 3D printing technology to reduce lead times and enhance product development. Kweder shares his expert perspective on the journey from initial experimentation with desktop machines to the complex realities of producing metal seals with AM, including the technological hurdles, the importance of material selection, and the potential for innovation in design and production.The conversation navigates through the technical and commercial landscape of additive manufacturing, highlighting both its current limitations in precision and material consistency and its promising advantages for rapid prototyping and creative freedom in engineering. Despite the challenges, Kweder's insights reveal a future where AM could revolutionize traditional manufacturing processes, offering improved thermal resistance, design flexibility, and potentially transforming the way metal seals are produced and used in critical applications. This episode is a must-listen for anyone interested in the convergence of traditional industrial practices with cutting-edge manufacturing technologies, shedding light on the ongoing evolution within Technetics and the broader implications for the aerospace industry.

This episode of 'Getting Technetical' takes us on an insightful journey through the Hydrogen Technology Exhibition in Bremen. We feature Tom Ludwell, Market Manager for Aerospace, Racing, and Turbo Machinery at Technetics Group, who offers a comprehensive overview of the event and Technetics' pivotal role in the evolving hydrogen technology landscape. Ludwell delves into the intricate challenges and pioneering advancements in hydrogen applications, from sealing technologies in dynamic environments to the potential of hydrogen in energy generation and beyond. Tune in for a thought-provoking discussion that sheds light on how Technetics is navigating and shaping the future of the hydrogen industry, marking a significant stride towards sustainable technological solutions.About the guest: Tom Ludwell is the Market Manager for Aerospace, Turbomachinery, and Racing at Technetics Group, where he provides innovative sealing solutions to meet the highly challenging requirements of these dynamic sectors.