399 computer-programmer-"U.S"-"Embry-Riddle-Aeronautical-University"-"U"-"U.S" positions at University of Sheffield
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-laminarisation (See J. Fluid Mech., He & Seddighi, 2013 & 2015). The work will include revising the direct numerical simulation (DNS) computer code developed in the group for the simulation of boundary layer flows
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tested at laboratory scale. The research will benefit from the available experimental facilities including laboratory-scale digesters, excellent analytical facilities, expertise in the computer modelling
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the computer modelling of AD process kinetics, mass balance and operational strategies and links with industry through our collaborative work. Funding Notes 1st or 2:1 degree in Engineering, Materials Science
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Robust Synchronisation of Large-scale Dynamic Networks School of Electrical and Electronic Engineering PhD Research Project Self Funded Dr Lanlan Su Application Deadline: Applications accepted all year round Details This project aims to address the problem of synchronisation in interconnected...
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, and constraint satisfaction. This new framework would also allow higher flexibility in managing the trade-offs between solution accuracy, optimality, and computational efficiency, to better adapt
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Synthesis of Heteroaromatic Boronic Esters via Annulation Reactions of Ynone Trifluoroborate Salts School of Mathematical and Physical Sciences PhD Research Project Self Funded Prof Joe Harrity Application Deadline: Applications accepted all year round Details About the Project We have recently...
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of the system is within the set at some time, then it is guaranteed to remain within the set for all future times. Therefore, being able to characterize and compute these sets is of prime importance when
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to the advancement of digital imaging technique and computing power. In this project, high speed stereo imaging for flame studies developed in Prof. Zhang’s research lab will be further developed for more quantitative
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Kevin Hughes, Prof Derek Ingham Application Deadline: Applications accepted all year round Details This project aims to combine computational fluid dynamics, chemical process modelling and virtual system
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experimental and computer modelling techniques. The research is expected to fill the important gaps in knowledge of combustion of low volatile coal and potentially lead to innovative designs of burners