Chemically reacting flows present a complex and fascinating challenge due to the interactions between physics and chemistry across a wide range of length and time scales. These flows also have many practical applications. The understanding and control of reacting flow is vital for industrial processes such as combustion engines, chemical synthesis, material production and more. However, reactive flows are not always desirable, as in cases of fire or pollutant formation. Modelling these systems in computer simulations allow us to build crucial knowledge and perform tests in a way that is affordable, repeatable and safe.
The work package includes one PhD student project, hosted by LTH.
The competence center Advanced Computing for Sustainable Thermal Management in Industry is carried out with support from Vinnova. LTH, Lund University, is the coordinating partner.