Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- University of Oslo
- SINGAPORE INSTITUTE OF TECHNOLOGY (SIT)
- NTNU - Norwegian University of Science and Technology
- NTNU Norwegian University of Science and Technology
- University of Bergen
- Institute of Chemical Process Fundamentals of the CAS
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- Macquarie University
- University of Algarve
- University of Birmingham
-
Field
-
Hydrodynamic Water Quality Modelling of Fjord Systems Apply for this job See advertisement This is NTNU NTNU is a broad-based university with a technical-scientific profile and a focus in professional education
-
related field with a focus on coastal engineering, oceanography, or hydrodynamics. Proficiency in wave modeling software, particularly Delft3D and SWAN. Strong analytical and problem-solving skills
-
-A_Tranche-2-Research-Projects-Awarded-Under-CFI-Singapore.pdf ). The primary role involves developing and validating Hydrodynamic models to study performance of integrated floating breakwater and marine
-
an opportunity to contribute to a collaborative international research environment. GIANTS is a five-year theoretical and numerical modelling project focused on the late stage of terrestrial planet formation
-
. The hydroelastic behavior of the seaweed is not sufficiently well understood, and hence there are no good hydrodynamic load models. The purpose of this work is to increase the understanding of longlines with seaweed
-
The Multiphase Reactors Research Group focuses on fundamental transport phenomena in multiphase systems, combining advanced experiments, theoretical modelling, and numerical simulations. Its research aims
-
of a coupled hydrodynamic-biogeochemical plume model for Trondheimsfjorden. Additionally, the fellow will help to develop scenario analyses that will link catchment sources and human activities with
-
using remote sensing and in-situ approaches for river plumes in a fjord system. Measurements will be adapted with the development of a coupled hydrodynamic-biogeochemical plume model for Trondheimsfjorden
-
for simulation and modeling of wave dynamics, and for uncertainty quantification of extreme events. The project will combine stochastic mathematical models of wave physics with advanced computational methods
-
stellar tidal streams) around disk galaxies. The successful candidate will design, perform and analyse idealized and cosmological hydrodynamical galaxy formation simulations, develop or improve models