.Intern for Computational Fluid Dynamics in Turbine Loads Modelling Spain Intern for Computational Fluid Dynamics in Turbine Loads Modelling Spain Apply locations ES-Madrid - Ramirez Arellano time type Full time posted on Posted 30+ Days Ago job requisition id R-44446 It takes the brightest minds to be a technology leader.
It takes imagination to create green energy for the generations to come.
At Siemens Gamesa we make real what matters, join our global team.
We are looking for a self-driven Intern to develop an internship and to support our Loads Modelling Department in Madrid on Turbine Computational Fluid Dynamics, mainly but not limited on Vortex-Induced Vibrations.
As Vortex-Induced Vibration (VIV) support, the service will include analyzing and mitigating vortex-induced vibration effects on turbine systems through computational fluid dynamics (CFD) simulations of a funded project that are developed by the Technology Department.
Being an Intern in Siemens Gamesa is an opportunity for you to develop your personal capabilities and build a professional and international network.
You will get the chance to enhance your professional development and get relevant work experience in a global company.
During the internship, your tasks will consist of: Investigating Fluid Solid Interaction phenomena affecting Wind Turbines such as vortex shedding and its impact on turbine performance, structural integrity, and overall system stability.
Performing CFD simulations to analyze vortex-induced vibration and/or other relevant phenomena potentially affecting Wind Turbine systems.
Identifying potential areas of concern and propose design modifications to effectively mitigate vortex-induced vibrations while collaborating with the design team to optimize turbine components and configurations.
Providing technical expertise and guidance to cross-functional teams, including mechanical engineers, researchers, and designers, promoting collaboration and knowledge sharing among different departments.
Validating simulation results through comparison with experimental data, state-of-the-art literature and industry standards, ensuring accuracy and reliability of the analysis.
Staying up-to-date with the latest research and advancements in turbine design and vortex-induced vibration mitigation techniques, actively incorporating relevant knowledge into project work.
Documenting and communicating findings, recommendations, and design modifications to stakeholders, facilitating informed decision-making and project progress tracking.
Ensuring adherence to project timelines and deliverables, managing multiple priorities effectively to meet project goals and milestones.
What you need to make a difference: A recently graduated student in Aeronautics, Mechanical engineering, Structural engineering with Master on the field or are in final stages of Master Thesis