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Field
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to ensure all project deliverables are met. Undertake these responsibilities in the project: DHI Mike Modelling: Utilize DHI Mike software to develop and validate numerical models for wave propagation and
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subsurface characterisation, hydrogeology, borehole geophysics and numerical heat & transport modelling. Demonstrate experience in the characterisation and monitoring of geothermal resources, in particular
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modelling using Delt3D software. The role of the researcher is to perform physics-based modeling to build a numerical model that can predict storm surges in Singapore coastlines based on different weather
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modelling using Delt3D software. The role of the researcher is to perform physics-based modeling to build a numerical model that can predict storm surges in Singapore coastlines based on different weather
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to develop methodologies for real-time modeling and inversion of geophysical well logs, with a particular focus on borehole electromagnetic data during drilling. This includes the further development
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the project/work tasks: The overall goal of this PhD project is to develop methodologies for real-time modeling and inversion of geophysical well logs, with a particular focus on borehole
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emissions, assess carbon oxides and NOx emissions for stable operation, and prepare a report; d) Collaborate with experimental groups to prepare a model of the existing lab-scale burner for numerical
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in the development of novel sustainable catalysts, and support on reaction modelling to benchmark the microwave process against alternative technologies (as assessed by our partners). The successful
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areas: Time-series analytics or forecasting Natural language processing (especially question answering or language grounding) Multimodal learning (e.g., combining text with temporal or numerical data
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directly can be incorporated into the model to improve simulation results. The work being conducted will therefore benefit mathematical fundamental research through modeling and numerical solution strategies