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CFD simulation of cavitation single bubble dynamics for advanced wastewater treatment
Develop a CFD model with the aim of predicting cavitation based micro-pollutant degradation.
Solve single bubble dynamics (SBD) equations for the cavitation bubbles and.
Simulate the amount of OH-radical generation during the cavitation bubble collapse.
Link the radical generation to the micropollutant degradation based on experimental data.
Keywords: CFD simulation, cavitation, single bubble dynamics, fluid dynamics, AOP water treatment
Title: CFD simulation of cavitation single bubble dynamics for advanced wastewater treatment
Topics: CFD simulation, cavitation, single bubble dynamics, fluid dynamics, AOP water treatment
Type of work: Simulation (100%)
When: Autumn semester 2022, or as soon as possible
Short Description: Students will:
Develop a CFD model with the aim of predicting cavitation based micro-pollutant degradation.
Solve single bubble dynamics (SBD) equations for the cavitation bubbles and.
Simulate the amount of OH-radical generation during the cavitation bubble collapse.
Link the radical generation to the micropollutant degradation based on experimental data.
Students will also have the exciting opportunity to work in collaboration with researchers at SINTEF Industry, a large non-profit research organization based in Norway, and ETH Zurich Startup Oxyle AG, a Zurich based company developing innovative technologies for micropollutant removal.
Requisites:
Student should have: Prior experience in CFD modelling and fluid dynamics. Basic understanding of chemical processes.
We need: Highly motivated and goal-oriented students.
Title: CFD simulation of cavitation single bubble dynamics for advanced wastewater treatment Topics: CFD simulation, cavitation, single bubble dynamics, fluid dynamics, AOP water treatment Type of work: Simulation (100%) When: Autumn semester 2022, or as soon as possible Short Description: Students will: Develop a CFD model with the aim of predicting cavitation based micro-pollutant degradation. Solve single bubble dynamics (SBD) equations for the cavitation bubbles and. Simulate the amount of OH-radical generation during the cavitation bubble collapse. Link the radical generation to the micropollutant degradation based on experimental data.
Students will also have the exciting opportunity to work in collaboration with researchers at SINTEF Industry, a large non-profit research organization based in Norway, and ETH Zurich Startup Oxyle AG, a Zurich based company developing innovative technologies for micropollutant removal.
Requisites: Student should have: Prior experience in CFD modelling and fluid dynamics. Basic understanding of chemical processes. We need: Highly motivated and goal-oriented students.
Develop a CFD model with the aim of predicting cavitation based micro-pollutant degradation.
Solve single bubble dynamics (SBD) equations for the cavitation bubbles and.
Simulate the amount of OH-radical generation during the cavitation bubble collapse.
Link the radical generation to the micropollutant degradation based on experimental data.
Develop a CFD model with the aim of predicting cavitation based micro-pollutant degradation. Solve single bubble dynamics (SBD) equations for the cavitation bubbles and. Simulate the amount of OH-radical generation during the cavitation bubble collapse. Link the radical generation to the micropollutant degradation based on experimental data.
Contact: Dr. Silvan Staufert (Stasilva@ethz.ch), Raphael Kaeslin (raphael.kaeslin@oxyle.ch)
Contact: Dr. Silvan Staufert (Stasilva@ethz.ch), Raphael Kaeslin (raphael.kaeslin@oxyle.ch)