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and placement. This research aims to answer the following key questions: - How do varying porosity, core material characteristics, and breakwater geometry influence wave overtopping rates and resulting
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Application Deadline 7 Dec 2025 - 00:00 (UTC) Type of Contract Permanent Job Status Full-time Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to
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-landslides, orographic rainfall effects and extremes), using the volcanic island of Tenerife as a case study. Some work has been done (e.g. on Hawaii), but knickpoint geometry and using state-of-the-art
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The role The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By
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The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By combining
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, ranging from AI to novel geometry modelling techniques. While this position is initially for a fixed term period, depending on the success of the role, opportunities will be explored to extend it beyond
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for emulating ice-shelf melt rates for a range of ocean thermohaline conditions and ice-shelf cavity geometries produced by the MITgcm model in a coupled configuration with a dynamical ice-flow model
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rapidly qualify new tooling designs. Establish if signal data can predict the impact of varying tool geometry or coating on surface integrity and tool life. The Impact Industrial Efficiency: Enable
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The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By taking
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for aerodynamic sound sources, sound propagation in atmosphere and effect of the reflection from the ground. We will investigate and quantify the critical role of turbine blade geometry and blade