Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- Germany
- Portugal
- Sweden
- Belgium
- Norway
- United Kingdom
- United Arab Emirates
- China
- Denmark
- Singapore
- Spain
- Austria
- Italy
- Netherlands
- Czech
- Poland
- Greece
- Luxembourg
- Canada
- Finland
- Japan
- Malta
- Mexico
- Saudi Arabia
- Switzerland
- Andorra
- Armenia
- Cyprus
- Estonia
- Hong Kong
- India
- Ireland
- Morocco
- Romania
- Slovenia
- Uzbekistan
- Worldwide
- 29 more »
- « less
-
Program
-
Field
-
research project Optimal adaptive spacetime boundary and finite element methods. The project focuses on the design, numerical analysis, and implementation of novel numerical algorithms to efficiently solve
-
numerical modeling using CFD and FEM techniques, the use of generative CAD tools and shape optimization methods, as well as the integration of experimental and structural measurements with simulation data
-
research project Optimal adaptive space-time boundary and finite element methods. The project focuses on the design, numerical analysis, and implementation of novel numerical algorithms to efficiently solve
-
with very low cross-sensitivity. Despite these advances, the integrated design of quasiperiodic nonlinear topological metastructures capable of simultaneously achieving optimized vibration energy
-
schools in the world. For more details, please view https://www.ntu.edu.sg/mae/research . We are looking for a Project Officer to support the research on two-phase cooling. The position focuses
-
simulation of fluid flow in pipelines Knowledge of CO₂ transport, leak detection, or pipeline optimization methods is an advantage Familiarity with scientific software, numerical solvers, and computational
-
). The project is funded by the French National Research Agency (ANR) through the ePulse2 project (https://anr.fr/Projet-ANR-25-CE08-0397 ), which focuses on two aeronautical materials exhibiting carbides and/or
-
, which provides optimal lung mechanics. The development of a numerical model that integrate cell-tissue-organ interactions is therefore essential for understanding the alveolar structure of lung tissue and
-
Numerical Study of Soil Remediation by Thermal Desorption with a Focus on Industrial Decarbonization
parametric numerical study to improve the geometric configuration (number and placement of heating probes) and optimize operational parameters. Explore decarbonization scenarios by combining technological
-
statistically rigorous data analysis methods toward achieving them. - Combine both independent and collaborative work to optimize scientific impact. - Report on progress in journals and conferences, participate