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optimizing CO2 operating conditions to avoid ice crystal formation, you will achieve optimal cooling and machining performance of novel materials such as fibre CFRP and metallic stacks. What you’ll do You’ll
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Nonlinear System Analysis Using Convex Optimization
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translational biomarker development will be especially welcomed. Secure peer-reviewed competitive funding for research projects. Achieve an optimal standard of academic contribution by publishing research
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Optimization-based control explores the use of optimization algorithms for feedback control of dynamical systems. For example, model predictive control (MPC) is a widely used optimization-based control method
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. • Characterisation of cooperation amongst elements of a network in terms of robustness and optimality. • Synthesis and design of nonlinear distributed controllers. • Data-driven control in a nonlinear setting. This
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lead to increased NOx emissions to the environment, and therefore require the need for downtime and maintenance. Shape optimisation methods such as adjoint have been employed to create optimal designs in
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boiling models have potential for impact well-beyond the nuclear sector, by optimizing heat transfer processes across numerous industries and low-carbon technologies. In this project, you will focus
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, optimizes power output, and ensures long structural life. Turbine rotational speed and the generator speed are two key areas that you must control for power limitation and optimization. This project will
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has been used on large scale biogas plants but the optimal operation has not been fully investigated. Existing validated models will be used to design the process conditions to give optimal conversion
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stage and then propagate due to fatigue which poses a serious hazard. A compromise between specific strength and safety of the composite structures is crucial for an optimal design. Different composite