POC
Ozone and dissolved air flotation systems
3D-CFD simulations will be used to improve an ozonation reactor and a dissolved air flotation reactor in wastewater treatment plants. The goal is to reduce investment and operational costs, improve […]
Cloud-based architectural acoustic simulations
The experiment explores Treble Technologies’ proprietary acoustic simulation technology, which uses high-performance processing and innovative numerical methods, to revolutionize building design. This could reduce risk, cut costs, enhance design quality, […]
HPC-based platform for low-emissions hydrogen combustors
The project showcases an HPC-based computational platform for designing cleaner, more efficient power generation systems. It uses high-fidelity simulations to develop low-NOx burners with hydrogen mixtures, testing hydrocarbon fuels and […]
SIMULATION OF POWDER SEGREGATION IN CORED-WIRE MANUFACTURING
SIMPSEG will use HPC DEM simulation to predict segregation during the production of a cored wire. First, the powder flow will be studied experimentally and numerically to calibrate the parameters […]
IMPROVING GRAPHENE-EPOXY MIXING RECIPES WITH HPC SIMULATIONS
This project uses HPC for optimizing parameters such as constituent type and ratio in epoxy-GO nanocomposites, to maximize their physical and mechanical properties. Parameters for a homogeneous repeatable producing process […]
GEMINI: High Fidelity Modeling for Small Wind Turbine
FEAC will take advantage of the HPC infrastructure to predict the aerodynamic performance of wind turbines and provide accurate results in a reduced time. Based on EUNICE’s needs, the development […]
CCUPAR: OPTIMUM DESIGN OF CO2 CAPTURE AND UTILIZATION PROCESSES IN PARALLEL INFRASTRUCTURES
CCUPAR proposes the use of a parallel algorithm for integrated process design and controllability assessment of advanced CCU systems. The algorithm will be implemented in the design of CCU solutions […]
SIMOCEAN: A HIGH-FIDELITY TOOL FOR THE OPTIMAL DESIGN OF WIND ASSISTED PROPULSION TECHNOLOGY
A tool for optimizing Wind Assisted Propulsion Technology on ships will be developed to optimize Oceanwings®, a wind propulsion system for maritime transport. The tool will use OpenFOAM, ToolsPole and […]
IMPROVED BATTERY MATERIALS USING MOLECULAR MODELLING
Through HPC, the consortium will screen multiple battery electrolyte compositions in order to optimise battery material properties. This experiment will prove the technical and commercial benefits of molecular dynamics, leading […]
PRELIMINARY ANALYSIS OF INNOVATIVE AEROSTRUCTURES SPECTRUM POWERED BY HPC
The goal of the experiment is to develop a brute force approach to evaluating internal structures for aircraft on HPC. The tasks of the experiment are to develop a workflow […]