Deepak Saluru serves as a Principal Performance/Operability Engineer in the Propulsion Systems Analysis team at Pratt & Whitney, where he leverages his extensive expertise in jet engine performance and operability to drive innovation in both commercial and military aviation. With a profound passion for designing...
Deepak Saluru serves as a Principal Performance/Operability Engineer in the Propulsion Systems Analysis team at Pratt & Whitney, where he leverages his extensive expertise in jet engine performance and operability to drive innovation in both commercial and military aviation. With a profound passion for designing and building dependable propulsion systems, Deepak is committed to enhancing the efficiency and reliability of advanced propulsion technologies that not only defend America but also connect citizens across the globe.
In his current role, Deepak focuses on aero-thermo performance, operability, and control systems for Geared Turbofan engines, a cutting-edge technology that significantly improves fuel efficiency and reduces emissions. He leads multidisciplinary technical teams through rigorous sea level and flight testing, ensuring that every aspect of engine performance meets stringent operational standards. His proficiency in root cause identification and corrective action is instrumental in addressing complex challenges that arise during the development and testing phases, thereby enhancing overall product reliability.
Deepak's technical acumen is complemented by his strong communication skills, enabling him to effectively convey complex concepts to stakeholders at all levels. His programming expertise in C++ and Fortran, combined with a solid foundation in fluid mechanics and systems engineering, allows him to contribute to advanced simulations and analyses that inform design decisions. Through his leadership and dedication, Deepak not only fosters a culture of collaboration and innovation within his teams but also plays a pivotal role in shaping the future of propulsion systems at Pratt & Whitney.
