Afterburner Wind Tunnel Services, LLC

Checkout our new article about Afterburner Wind Tunnel Services and the Wind Tunnel Network. #Engineering #testing #windtunnel

Stephanie Verdugo: A Trailblazer in Aerospace Engineering and Entrepreneurship In the rapidly evolving aerospace and defense sectors, few professionals embody the spirit of innovation and leadership as vividly as Stephanie Verdugo. As the owner of Afterburner Wind Tunnel Services, LLC, Verdugo's career trajectory is a testament to her expertise, entrepreneurial spirit, and commitment to advancing engineering practices. Founded in July 2022, Afterburner Wind Tunnel Services, LLC, represents Verdugo's foray into entrepreneurship, leveraging her extensive background in aerospace engineering. This woman-owned small business specializes in providing engineering support for a wide array of platforms, focusing on wind tunnel testing and aerodynamic analysis. Verdugo's role at Afterburner is pivotal, leading the company's initiatives in Research & Development (R&D), Modeling & Simulation (M&S), and Test & Evaluation (T&E). Her vision for the Wind Tunnel Network, a unique framework that connects various wind tunnel testing facilities, underscores her innovative approach to streamlining aerodynamic testing processes across different regimes. Ms Verdugo has a solid educational foundation, with a Master's degree in Aerospace, Aeronautical, and Astronautical Engineering from the Georgia Institute of Technology, and a Bachelor's degree in Aerospace Engineering from the University of Central Florida. Her academic pursuits, including honors research focused on aerodynamic and heat transfer laboratory studies, have equipped her with a deep understanding of the challenges and opportunities in aerospace engineering. Beyond her professional roles, Verdugo has contributed to the field through various publications, including her Master's thesis on "UH-1 Corrosion Monitoring" and conference papers on heat transfer coefficients in impingement channels. These contributions show her dedication to advancing knowledge in her field. #Aviation #Engineering #Aerospace Check out her website for more information. https://lnkd.in/e2jCcWmh

Wind Tunnel Testing News Stellantis Unveils Cutting-Edge Wind Tunnel Technology at Auburn Hills, Michigan. Stellantis recently showcased its latest wind tunnel technology at their Auburn Hills facility, marking a significant advancement in automotive engineering and aerodynamics. Stellantis is commitmented to enhancing vehicle performance and efficiency, crucial elements in today's automotive industry focused on sustainability and fuel economy. The new wind tunnel technology is designed to optimize the aerodynamic characteristics of Stellantis vehicles. By reducing drag and improving fuel efficiency, Stellantis aims to meet the growing consumer demand for sustainable vehicles. The facility's advanced capabilities allow for comprehensive testing and analysis of vehicle prototypes under various conditions, ensuring that the final products adhere to high performance standards. This initiative is part of Stellantis's broader strategy to leverage research and development in driving innovation within the automotive sector. Stellantis's investment in wind tunnel technology reflects their strategic direction towards innovation and sustainability in the automotive industry. As manufacturers strive to meet evolving regulatory standards, such advancements are pivotal in shaping the future of automotive design and testing. #Windtunnel #Windtunneltestingnews #Automanufacturing ##Vehicledesign

Ground Testing News Draper Advances Aerospace Testing with New Facility Draper has successfully completed a critical phase in developing its Strategic Enhanced Ground Test Facility (SEGTF) in Titusville, Florida. This facility is designed to enhance the testing capabilities for U.S. strategic systems, including those for the Navy and Air Force, as well as missile defense systems. Draper has finished the Critical Design Review phase, a crucial step that ensures the facility's design meets all necessary requirements. This phase took 12 months and resulted in a detailed design ready for construction. Site work for the facility began in July 2024, with full operational capabilities expected by 2028. Initially, the facility will employ about 50 Draper staff, with plans to expand to over 150 employees. Draper's new facility marks a significant advancement in aerospace testing, providing the infrastructure needed to support the development and validation of critical defense technologies. The SEGTF will include state-of-the-art equipment, such as a world-class centrifuge, to test and validate guidance, navigation, and control technologies. These capabilities are vital for ensuring the reliability and performance of strategic systems. Jerry Wohletz, Draper’s president and CEO, emphasized the facility's role in providing essential infrastructure for national security technologies. #GroundtestingNews #GroundTesting #Aerospace #Research #Defense

Collaboration in Wind Tunnel Testing: Driving Aerospace Innovation   In the field of aerospace engineering, collaboration has become a cornerstone of innovation. Wind tunnel testing, a critical component in the design and development of aircraft, benefits immensely from collaborative efforts among engineers, researchers, and testing facilities. At Afterburner Wind Tunnel Services, LLC, we recognize that fostering partnerships can lead to groundbreaking advancements in aerodynamics and overall aircraft performance. The Role of Collaborative Networks   The establishment of networks like the Wind Tunnel Network has revolutionized how engineers access testing facilities. By connecting various wind tunnel sites, these networks enable engineers to share resources, knowledge, and best practices. This collaborative approach not only enhances the efficiency of testing processes but also accelerates the development of new technologies. Case Study: DevCom Armaments Center   A prime example of successful collaboration is the partnership between Afterburner Wind Tunnel Services and the DEVCOM Armaments Center in New Jersey. This collaboration has facilitated critical research in the development of next-generation weapons systems. By leveraging the expertise of both organizations, engineers can conduct comprehensive aerodynamic tests that inform design decisions and improve system performance. Benefits of Collaboration in Wind Tunnel Testing Enhanced Innovation: Collaborative efforts often lead to the sharing of diverse ideas and perspectives, fostering creativity and innovation in aerodynamic design. Resource Optimization: By pooling resources, organizations can reduce costs associated with testing and development, making advanced testing more accessible. Knowledge Sharing: Engineers benefit from shared insights and experiences, leading to improved methodologies and practices in wind tunnel testing. #AerospaceInnovation #WindTunnelTesting #Collaboration #EngineeringExcellence #AfterburnerWTS

Harnessing Artificial Intelligence in Wind Tunnel Testing: A New Era for Aerospace Innovation As the aerospace industry continues to evolve, the integration of artificial intelligence (AI) into wind tunnel testing is paving the way for unprecedented advancements. The Role of AI in Wind Tunnel Testing: Data Analysis and Simulation:   💻 AI algorithms can analyze vast amounts of data generated during wind tunnel tests, identifying patterns and insights that human analysts might overlook. This capability allows for more accurate simulations and predictions of aerodynamic performance. 💻 Machine learning models can be trained on historical test data to improve the accuracy of simulations, reducing the need for extensive physical testing and accelerating the design process. 💻Real-Time Monitoring and Adjustments: AI systems can monitor wind tunnel conditions in real-time, adjusting parameters dynamically to optimize testing conditions. This adaptability ensures that tests are conducted under the most relevant scenarios, leading to more reliable results. Automated feedback loops can provide engineers with immediate insights during testing, enabling rapid iterations and refinements to designs. 💻Enhanced Design Capabilities: By integrating AI with computational fluid dynamics (CFD), engineers can explore a wider range of design options and configurations. AI-driven optimization algorithms can suggest modifications that enhance performance while minimizing drag and fuel consumption. This synergy between AI and wind tunnel testing fosters a more innovative design environment, allowing for the exploration of unconventional aerodynamic shapes that may have been previously dismissed. Case Study: The Future of Aerospace Design: Leading aerospace companies are already leveraging AI in their wind tunnel testing processes. For instance, NASA - National Aeronautics and Space Administration has begun implementing AI-driven simulations to enhance the efficiency of its aerodynamic testing protocols, significantly reducing the time and resources required for development. #ArtificialIntelligence #WindTunnelTesting #AerospaceInnovation #EngineeringExcellence

Revolutionizing Aerodynamic Testing: The Afterburner Wind Tunnel Application In aerospace engineering, efficiency and precision are paramount. The Afterburner Wind Tunnel Application is not just a scheduling tool; it streamlines the logistical challenges of organizing wind tunnel tests. By simplifying the process, this application empowers engineers and researchers to focus on what truly matters—advancing the science of aerodynamics. The Afterburner Wind Tunnel Application enhances collaboration among engineers and testing facilities. With its user-friendly interface, engineers can easily browse available wind tunnel facilities, check real-time availability, and schedule tests that align with their project timelines. This capability not only saves time but also reduces the administrative burden often associated with coordinating complex testing schedules. Key Features   ✈️ Facility Browsing: Users can explore a diverse range of wind tunnel facilities, each equipped with unique capabilities tailored to specific testing needs. ✈️ Real-Time Scheduling: The application provides instant updates on availability, allowing for quick adjustments and efficient planning. ✈️ Project Management Dashboard: Engineers can manage multiple projects seamlessly, tracking progress and results in one centralized location. The Afterburner Wind Tunnel Application provides significant advantages in the field of aerodynamic testing. Its focus on collaboration and efficiency positions it as an indispensable tool for the aerodynamics community. As the aerospace industry continues to evolve, innovations like this application will play a crucial role in driving advancements and fostering a culture of continuous improvement. #WindTunnelApplication #AerodynamicTesting #EngineeringInnovation #AfterburnerApp #Groundtesting

Recent Innovations in Wind Tunnel Technology The wind tunnel industry is witnessing significant advancements. Recently, NASA - National Aeronautics and Space Administration announced the completion of upgrades to its NASA Langley Research Center, enhancing its capabilities for hypersonic testing. This facility will now support a wider range of research, including studies on the effects of extreme conditions on aircraft and spacecraft designs. Additionally, the University of Maryland has unveiled plans for a new subsonic wind tunnel that will facilitate research in various engineering disciplines, including automotive and aerospace applications. This facility aims to provide students and researchers with hands-on experience in aerodynamic testing, fostering innovation in the field. #Windtunnel #aerospace #Engineering #hypersonic #Spacecraft

Advancing Aerospace Research with Afterburner Wind Tunnel Services At Afterburner Wind Tunnel Services, LLC, we are dedicated to pushing the boundaries of aerospace research through our cutting-edge wind tunnel testing capabilities. Our company specializes in providing tailored aerodynamic testing solutions that cater to the unique needs of our clients in the aerospace sector. Why Choose Afterburner? With over 30 years of combined experience in multi-disciplinary engineering, our team at Afterburner is equipped to support a wide range of testing needs, from Research & Development (R&D) to Test & Evaluation (T&E). Our innovative approach includes utilizing the latest advancements in wind tunnel technology to deliver precise and reliable results. We invite you to partner with us for your aerodynamic testing needs. Together, we can drive the future of aerospace research and development. Contact us today to learn more about our services and how we can assist you in achieving your research goals. #ResearchandDevelopment #TestandEvaluation #Engineering #Windtunnel https://lnkd.in/e2jCcWmh

Check out this cool video about how the Arc Jet wind tunnel works at the NASA Ames Research Center. #Windtunnel #Spacecraft #NASA https://lnkd.in/et_28VUf