Job Information
GE Aerospace Lead Engineer - Aerodynamics/Aeroacoustics/Aeromechanics in Bengaluru, India
Job Description Summary
As a Lead Engineer, you will collaboratively execute applied research in computational aerodynamics/aeroacoustics/aeromechanics for GE Aerospace commercial engine programs and technology demonstration programs such as RISE (Revolutionary Innovation for Sustainable Engines). You will be a key member of a team of technologists and engineers at GE Aerospace Research collaborating with the GE Aerospace business teams to deliver on our commitment to sustainability, safety and quality for our customers while advancing aerospace and defense for future generations.
Job Description
Roles & Responsibilities:
Apply your knowledge in computational aerodynamics/aeroacoustics/aeromechanics to develop innovative aerothermal-mechanical solutions for aircraft engine technologies.
Specifically, apply your expertise in Large Eddy Simulation (LES) to execute modeling and simulation studies and analyses to extract and provide insights into key flow physics; compare against RANS, provide design guidance, and develop/update best practices
Deliver on technical projects meeting schedules and budgets, implement plans with minimal guidance to meet technical requirements and document results.
Participate in global teams on multi-generational technology programs to enable future design advancements, while independently executing tasks leveraging your technical skills.
Network and collaborate with both GE Aerospace business and research team members to identify opportunities for innovation, build plans and execute on technical projects
Required Qualifications:
Ph.D. in Aerospace/Mechanical Engineering specializing in Computational Turbomachinery Aerodynamics with Aeromechanics and / or Aeroacoustics with 4-8 years of experience OR M.S in Aerospace/Mechanical Engineering specializing in Computational Turbomachinery Aerodynamics with Aeromechanics and / or Aeroacoustics with at least 8-10 years of experience in applied research
Fundamental knowledge in turbomachinery aerodynamics / aeromechanics / aeroacoustics and relevant computational expertise
Demonstrated experience in using Large Eddy Simulation (LES) with in-house industrial or academic codes or in-commercial CFD codes
Programming skills [Python / MATLAB / FORTRAN /C /C++]
Oral and written communication skills, including excellent presentation skills
Demonstrated ability to work independently as well as in a team environment
Demonstrated project planning and execution rigor
Desired Characteristics:
Experience in turbomachinery aerodynamics / aeromechanics / aeroacoustics
Experience in unsteady computational aerodynamics – URANS and LES modelling and applications; LES code development would be a plus
Experience in using large computer clusters to run large simulations
Programming skills in Python/MATLAB/FORTRAN/C/C++ Experience in detailed modeling of turbomachinery components (fans, compressor, turbines, inlets and exhausts)
Hands-on experience in designing fans, compressors and/or turbines, at various levels of fidelity
Experience in performing design trade-off studies and design optimization
Humble: respectful, receptive, agile, eager to learn
Transparent: shares critical information, speaks with candor, contributes constructively
Focused: quick learner, strategically prioritizes work, committed
Leadership ability: strong communicator, decision-maker, collaborative
Problem solver: analytical-minded, challenges existing processes, critical thinker
Additional Information
Relocation Assistance Provided: Yes
GE Aerospace
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