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Course description and aims
Advances in various engineering and process applications necessitate better understanding of underlying near-wall and surface phenomena. Combustion, engine heat transfer and wall cooling, high-temperature material synthesis and processing, and chemical process technology (chemical vapor deposition and infiltration, catalytic processes, etc.) are just a few examples. Processes, such as flame-wall interaction, pyrolysis and fire suppression by flame retardants, surface reactions and their coupling with nearby chemically reactive flows, film and deposit formation, are challenges that are addressed in ongoing research efforts.
The course objective is to provide the participants with today’s detailed knowledge on
- chemical kinetics and reduction strategies, including flame retardants
- modelling and simulation of combustion processes and fires constrained by walls
- turbulent near-wall flows
- near-wall reactive flow diagnostics and applications
The ICISS-Summer School in cooperation with TU Darmstadt, KIT, SINTEF is intended to report on the status and perspective of experimental, theoretical, and numerical techniques for understanding, describing, and designing near-wall reactive flows in diverse scientific and engineering fields. It aims furthermore at providing an opportunity for researchers and interested workers to present the state of the art, discuss new challenges and developments, and exchange ideas in the areas of near-wall reactive flows.
Andrea Gruber
Dr. Andrea Gruber is Senior Research Scientist at SINTEF Energy Research and Adjunct Professor at the Norwegian University of Science and Technology (NTNU). His research interests are in the development and deployment of massively parallel direct numerical simulations and Large Eddy Simulation.
Matthias Ihme
Matthias Ihme is professor of Mechanical Engineering and of Photon Science at Stanford University, USA. His research interests are large-eddy simulation and modeling of turbulent reacting flows, non-premixed flame, aeroacoustics and combustion generated noise, turbulence and fluid dynamics, numerical methods and high-order schemes.
Brian Peterson
Dr Brian Peterson is Senior Lecturer at the University of Edinburgh School of Engineering. He works at the Institute of Multiscale Thermofluids and his research interests are laser diagnostics in combustion science, fluid dynamics, heat transfer, clean combustion, sprays and IC engines.