PhD position on the thermoacoustic dynamics of hydrogen fired combustors for aircraft propulsion

 
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WorkplaceZürich, Zurich region, Switzerland
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Position
PhD position on the thermoacoustic dynamics of hydrogen fired combustors for aircraft propulsion

100%, Zurich, fixed-term

The Laboratory of Combustion and Acoustics for Power & Propulsion Systems (CAPS) in the Department of Mechanical and Process Engineering invites applications for a PhD position on the thermoacoustic dynamics of hydrogen fired combustors for aircraft propulsion.

Project background

The goal of this research is to understand, model and control thermoacoustic instabilities and flame dynamics in future hydrogen-fired aircraft combustors. These combustors will enable net CO2 reductions of future aircrafts of 75% compared to kerosene-powered aviation. The thermoacoustic instabilities result from the constructive interaction of the unsteady combustion process and the combustor acoustics. They are strongly undesirable because they can severely restrict the operating range of the engine. In this context, the development of special annular combustors for hydrogen necessitates significant research effort to predict and prevent thermoacoustic instabilities and to ensure robust and low-NOx combustion process.

Job description

This work will be performed through theoretical modelling, experiments and numerical simulations. The modelling tasks will deal with partial and ordinary differential equations to model the interaction between acoustic field, entropy waves and heat release fluctuations. A lab-scale, high-pressure test facility is being set up to gather the required experimental input. Acoustic and laser-based optical techniques will be used to experimentally identify the response of the hydrogen flames to acoustic excitation. In addition, CFD and advanced system identification methods will be used to quantify the coupling between heat release the acoustic field. The research outcome is expected to be published in major specialized and broad-audience journals.

Your profile

You are expected to have an excellent MSc degree in Mechanical Engineering or Physics. Very solid background in math and physics is required. Ideally, you have experience and a proven record in one or more of the following:

  • combustion,
  • acoustics,
  • fluid dynamics,
  • nonlinear dynamics.


We are looking for highly motivated, committed, and creative individuals, able to work in a team and with excellent communication skills. Working in a top-level research environment with advanced laboratory infrastructure, you will have a unique opportunity to develop your research abilities.

We offer

ETH Zurich is a family-friendly employer with excellent working conditions. You can look forward to an exciting working environment, cultural diversity and attractive offers and benefits.

Working, teaching and research at ETH Zurich

We value diversity

In line with our values, ETH Zurich encourages an inclusive culture. We promote equality of opportunity, value diversity and nurture a working and learning environment in which the rights and dignity of all our staff and students are respected. Visit our Equal Opportunities and Diversity website to find out how we ensure a fair and open environment that allows everyone to grow and flourish.

Curious? So are we.

We look forward to receiving your online application until July 1st 2022, including:

  • letter of motivation,
  • CV,
  • contact details of two references (no reference letter needed),
  • transcripts of records.


Please note that we exclusively accept complete applications submitted through our online application portal. Applications via email or postal services will not be considered.

Further information about CAPS can be found on our website ?url=www.caps.ethz.ch&module=jobs&id=175086" target="_blank" rel="nofollow">www.caps.ethz.ch .

Apply online now

About ETH Zürich

ETH Zurich is one of the world’s leading universities specialising in science and technology. We are renowned for our excellent education, cutting-edge fundamental research and direct transfer of new knowledge into society. Over 30,000 people from more than 120 countries find our university to be a place that promotes independent thinking and an environment that inspires excellence. Located in the heart of Europe, yet forging connections all over the world, we work together to develop solutions for the global challenges of today and tomorrow.
 
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