www.flusm2024.com Open in urlscan Pro
62.149.189.71  Public Scan

Form analysis
0 forms found in the DOM

Text Content

Menu
 * Home Page
 * Target & Format
 * Committee – Speakers
 * Program
 * Venue and Accomodation

Contact Us


ABSTRACT AND TOPICS

ABSTRACT

The use of numerical models to simulate aerospace systems has advanced rapidly
in recent decades, transforming the design process in the aerospace industry.
Sophisticated simulation codes have led to reduced ground-based and in-flight
testing, provided deeper physical insights, enabled cost-effective optimized
design, and opened new avenues for aerospace vehicle performance. However, the
success of a simulation-based engineering design process hinges on its ability
to accurately predict complex phenomena. To this end, advanced physics-based
predictive models are crucial for increasingly multidisciplinary simulations
that require high-fidelity coupling of various interacting solvers without
compromising accuracy or numerical stability. Moreover, the simulation
environment must effectively leverage massively parallel high-performance
computing architectures and include automated error and uncertainty management.
This complexity necessitates high levels of reliability and robustness at every
step of the solution chain.



In the aerospace field, computational tools are essential for simulating the
behavior of deployable structures, particularly for large structures that
require extensive testing facilities. The simulation of shape-morphing
structures involves coupling multiple physics domains, including structural
mechanics, fluid-structure interaction, and thermal analysis. Additionally, the
simulation must account for the nonlinear behavior of the structure, including
large deformations and geometric nonlinearities.



The fall school aims to gather experts from fluid-dynamics, computational
mechanics, structural engineering, applied mathematics, and computer science
with extensive experience in academia, and government. PhD students and young
researchers will engage with a multidisciplinary team that will share its
expertise in physics-based predictive modeling of aerospace systems, focusing on
coupled Multiphysics problem. The speakers will also present commercial and
open-source software, together with experimental studies, to provide practical
knowledge. By attending this workshop, participants will gain valuable insights
into the latest developments in aerospace technologies and enhance their skills
in using cutting-edge computational tools for simulating complex phenomena.




TOPICS

The school thematic pillars are three, namely: computational fluid dynamics,
computational structural mechanics; coupled multiphysics models.

TARGET

The School is mainly targeted to PhD students and young researchers who would
like to improve their knowledge about state of the art and challenging problems
in computational aerospace engineering. PhD students attending the school will
receive 6 ECTS certification.




COMMITEE

Speakers & Organizing Committee

Speakers

PROGRAM

Download the Program

Schedule

REGISTRATION

Payment & Registration Form


LINK TO REGISTER
maria.cinefra@poliba.it
© 2024 www.baricongressi.it