Examensarbeten för kandidatexamen // Bachelor Theses
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- PostKonstruktion av hoverboard med elektrodynamisk suspension(2016) Malm, Calle; Larsson, Philip; Jägerhag, Charlie; Eriksson, Paulina; Jacobson, Nils; Claeson, Viktor; Chalmers tekniska högskola / Institutionen för energi och miljö; Chalmers University of Technology / Department of Energy and EnvironmentThis project was conducted to determine whether it was possible to construct a hoverboard utilizing electrodynamic suspension. This was accomplished by testing the affecting input variables during attempts to provide a vertical force using coils. The results of the experiments was then used to optimize one coil for maximum lift, which was then duplicated and mounted on a board. The conclusion was that it is theoretically possible to scale up the project to carry one person, even though the final prototype only was capable of lifting 16 kg.
- PostUndersökning av det elektriska systemet för tidvattenkraftverket Deep Green i spänningsintervallet 500V till 3,3kV(2016) Nilsson, Simon; Engström, Petter; Ellström, Andreas; Karlsson, Rasmus; Rydegård, Andreas; Antonsson, Daniel; Chalmers tekniska högskola / Institutionen för energi och miljö; Chalmers University of Technology / Department of Energy and EnvironmentWith today’s need for renewable energy new technologies needs to be developed to meet this demand. Minestos concept for the tidal power plant Deep Green is one such technology. Deep Green is a power plant that with its unique movement pattern extracts energy from tidal currents that previously have been untapped. In this project the electrical system of Deep Green is studied and what the effects are for a rise in operating voltages from 500V to 690V , 1kV and 3, 3kV . The procedure for this project is a literature study in connection with simulations with the programs Matlab, Comsol and Pspice. The results show that an increased voltage to 690V will lead to the power loss being reduced by half in the submarine cable. The higher voltage leads to a fractional change of the power electronics in the system. The conclusion of this study is that a heightened voltage level that gives lower losses is favorable. To implement the voltages 1kV and 3, 3kV further investigations are required because several components needs to be replaced or modified at these voltage levels.