Engineering applications often require the study of complex systems where multiple physics play a fundamental role in determining the overall dynamics. In order to capture the phenomena of industrial-environmental interest, methods that can capture the influence of the different scales of composite problem must be developed. Due to these necessities multiscale and multiphysics approaches are rapidly becoming a standard in the mathematical-numerical description of engineering systems. This Symposium was organized as an occasion to bring together industrial and environmental researcher and practitioners, in order to discuss techniques that aim to solve this kind of heterogeneous problem in an highly efficient way.
Pozzetti, G., Da Vià, R., Manservisi, S., Peters, B. (2018). Multiscale-multiphysics Approaches for Engineering Applications 2017. American Institute of Physics Inc. [10.1063/1.5043894].
Multiscale-multiphysics Approaches for Engineering Applications 2017
Da Vià, Roberto;Manservisi, Sandro;
2018
Abstract
Engineering applications often require the study of complex systems where multiple physics play a fundamental role in determining the overall dynamics. In order to capture the phenomena of industrial-environmental interest, methods that can capture the influence of the different scales of composite problem must be developed. Due to these necessities multiscale and multiphysics approaches are rapidly becoming a standard in the mathematical-numerical description of engineering systems. This Symposium was organized as an occasion to bring together industrial and environmental researcher and practitioners, in order to discuss techniques that aim to solve this kind of heterogeneous problem in an highly efficient way.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
