Hot Gas Path - Gas Turbine Aerodynamics Engineer
Siemens
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Looking for challenging role? If you really want to make a difference - make it with us
Can we energize society and fight climate change at the same time?
At Siemens Energy, we can. Our technology is key, but our people make the difference. Brilliant minds innovate. They connect, create, and keep us on track towards changing the world’s energy systems. Their spirit fuels our mission.
Our culture is defined by caring, agile, respectful, and accountable individuals. We value excellence of any kind. Sounds like you?
Your new role – challenging and future-oriented:
Turbine Aerodynamics engineer is responsible for hot gas flow path design of both stationary & rotating airfoil & the exhaust diffusor. The tasks range from design & analysis of new airfoil, upgrade of existing airfoils, prediction of component performance under new boundary conditions towards customer support and resolving non-conformance reports from manufacturing. We use various inhouse & commercial 1D,2D,3D tools to design & perform aerodynamics analysis of turbine hot gas path airfoils & diffusor.
In the project work, we often work in close collaboration with cross functional teams located locally & globally. You are taking responsibility for your own work within the project and must have an understanding about the adjacent disciplines work, as well as, for the gas turbine as a system and your component’s function within the system.
The tasks can include coming up with conceptual design, failure mode evaluation, detailed aerodynamics and aeromechanics analysis, report writing and defending key technical reviews. Deep knowledge of fluid dynamics, aerodynamics, aeromechanics, thermodynamics fundamentals are essential. Basic understanding of Heat Transfer and structural integrity field are desirable. In addition to this, aerodynamics engineer needs to support manufacturing support qualification and field-testing aspects, (post final design review) for validation of the product. It is expected to provide technical advice about the suitability of developed design and its application across multiple gas turbine frames. Job requires regular interaction with global teams hence engineer should have persuasive communication skills and cross-cultural knowledge.
Responsibilities:-
- Turbine aerodynamics calculations for axial gas turbine design focusing on airfoils & exhaust diffusor. Have in-depth knowledge in numerical simulation (1D, 2D and 3D) of compressible flows in turbomachines.
- In-depth knowledge in any commercial or in-house Quasi 3D CFD, throughflow and blade to blade tool/solver.
- Independently able to create CFD setup for both Steady & Unsteady simulation by translating various assumptions & design requirements into numerical model. Experience in CFX, Star CCM+.
- 2D/3D Aerodynamics CFD calculations to create turbine performance maps for the turbine hot flow path.
- Turbine Aerodynamics Mean line design, cascade design & analysis, optimization, engine testing & validation.
- Able to understand the physics, apply relevant assumptions, interpret results & perform basic hand calculations in fluid mechanics & heat transfer discipline.
- Able to understand the product function, design requirements and design principles.
- Be a point of contact, speaking partner and provide expertise regarding hot gas path aerodynamics related topics in a project.
- Work with project lead to understand the project requirements, find solutions to design challenges, and deliver results within agreed timeline & quality.
We don’t need superheroes, just super minds:
- Mechanical engineer with a Master’s degree / MTech in Aerospace Mechanical engineering (major- Aerodynamics, Aeromechanics, Fluid & Thermal Science)
- Fundamental knowledge in Computational Turbomachinery Aerodynamics and Aeromechanics
- Minimum 6 years of industry relevant experience in Aerodynamics design & analysis of axial turbomachinery.
- Knowledge on how to evolve a Turbine Airfoil design & perform optimization.
- Experience in working with ANSYS CFX, Star CCM+, Tecplot, Spreadsheet based analytical calculations.
- Programming skills like Python, FORTRAN, MATLAB
- Basic understanding of a FE codes like ANSYS or general-purpose FEA tool.
- Basic understanding of Mechanical integrity (Strength, Fatigue, Creep, Fracture) and manufacturing aspects for gas turbine blading.
- Experience using NX (Uni-graphics) or other similar solid modeling CAD software for visualization of cooling channel/scheme lay out of components or engine assembly is a merit.
- Exposure to SAP and Teamcenter PLM is a merit.
Personality
- Strong interpersonal skill i.e., energetic, collaborator, quick learner, imaginative, innovative, ability to adapt quickly & effectively.
- Align with Organization Purpose, Values & Behavior & adhere to business compliance guidelines.
- Self-driven in work tasks with a willingness to learn, try & propose new methods to solve a problem.
- Effective verbal and non -verbal communication.
- Ability to write clear and descriptive reports in English.
We’ve got quite a lot to offer. How about you?
This role is based at Site (Gurgaon). You’ll also get to visit other locations in India and beyond, so you’ll need to go where this journey takes you. In return, you’ll get the chance to work with teams impacting entire cities, countries – and the shape of things to come.
We’re Siemens. A collection of over 379,000 minds building the future, one day at a time in over 200 countries. We're dedicated to equality, and we welcome applications that reflect the diversity of the communities we work in. All employment decisions at Siemens are based on qualifications, merit and business need. Bring your curiosity and imagination and help us shape tomorrow.