Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
allowance. The employment will initially be limited to three years. Important: Applicants must not have resided in Germany for more than 12 months in the past three years. Group website: https://biophys.uni
-
deadlines and tight time scales. Enjoys responsibility and solving unexpected problems with commitment to continuous improvement. For further information about this position and to apply, visit http
-
University Duties This PhD project is part of the AFLOW consortium supported by the Swedish Energy Agency and focuses on multi-scale modelling of aqueous organic redox flow batteries, to build a predictive
-
aging. This allows the ratio between grain size and the average pore size of the interstitial foam to be fixed. Several binders can be employed, ranging from hard and brittle to soft and deformable
-
natural hydrogen is generated and how it migrates and is stored in subsurface rocks. It combines high-pressure/high-temperature fluid–rock interaction experiments with multi-scale imaging and analysis
-
, remoulding, and pore-pressure variation. This project will develop a new computational model to simulate seabed–mooring interaction at the particle scale. It will combine the Discrete Element Method (DEM
-
, including adsorption and catalysis. MOFs consist of metal nodes connected by organic linker molecules, forming crystalline frameworks with well-defined pore systems and versatile chemistry, as recognized by
-
) information on pore distribution and (ii) computational domains to simulate CVI cycles. • Materials studied: Simple and pre-infiltrated fibrous textures using PIP, provided by project partners. • Acquisitions
-
full time staff (Part time workers should pro rata this by their FTE). Use our total rewards calculator: https://www.hw.ac.uk/about/work/total-rewards-calculator.htm to see the value of benefits provided
-
focuses on the modelling of electrodes for redox flow batteries to clarify the influence of electrode surface properties on the macroscopic electrode properties. Pore-scale electrode modelling and numerical