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Finns det en framtid för bränslepellets? : Utvärdering av ekonomi och arbetsinsats hos småhusägare / Is there a future for fuel pellets? : Evaluation of finances and work performance of small-homeownersEklund, Robert, Videhult, Louise January 2020 (has links)
Detta arbete utvärderar bränslepellets ekonomiskt och arbetsmässigt gentemot andra konkurrerande uppvärmningssätt vilket i främsta hand är värmepumps-tekniken. Resultatet av studien visade att bränslepellets inte gav samma nöjdhet som värmepumpstekniken, rent ekonomiskt så var det värmepumpsteknik som var det mest driftekonomiska alternativet. Elpriser och effektdebitering gör att bränsle pelletsen i framtiden förmodas bli ett fördelaktigt val av värmekälla.
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On Electrification of Heavy-Duty Trucks : A Grid Impact Analysis of Grid Integration of a High-Power Charging StationArvidsson, Maria January 2022 (has links)
The Swedish transport sector will need to undergo a major restructuring to achieve the established climate and environmental goals. The biggest change is that fossil fuels will be phased out and a larger part of the vehicle fleet will be electrified. This study deals with the electrification of heavy-duty trucks and how high-power charging stations affect the local electricity grid. Charging of heavy-duty trucks depends largely on the logistics of the transport system, which reduces the demand flexibility of power. High-power charging entails a risk of increased power peaks, which can affect the bus-voltage profiles, losses and loads on grid components. This thesis has been conducted as general study based on the case with the high-power charging station at Vädermotet in the area Hisingen of Gothenburg. The purpose was to build a generic model of the electricity grid at Hisingen and then investigate the consequences of high-power charging for the grid for two charging scenarios: the first scenario with four ABB Terra 360 chargers, and the second scenario with six ABB Terra 360 chargers and one MCS. The electricity network model and simulations were performed in PSS®SINCAL. The two charging scenarios, as well as the scenario before chargers were installed, were then simulated for three different system-load cases: maximum, average, and low load. The results showed that high-power charging of trucks had the biggest impacts for the voltage profiles during the case of low load. For the medium load and maximum load cases, the effect of the high-power charge decreased. Furthermore, electricity network losses increased for the low load case, but decreased slightly for the average and maximum load case. The reason was a more even load balance between the bus that connected the charging station to the grid and the rest of the network for the average and maximum load cases. In summary, the study indicated that grid implementation of a high-power charging station will have consequences for the local power system. However, the magnitude of the effects is not validated and can therefore only be regarded as indications. The outcome can be partly explained by the assumptions and simplifications of the model compared to the real system.
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Návrh a realizace bezdrátového nabíjení pro vestavěné systémy / Design and implementation of wireless charging for embedded systemsBednařík, Josef January 2020 (has links)
This thesis deals with the design and realization of wireless power charging circuit for embedded systems. The research section focuses on the various ways and technologies used in applications of wireless power transfer. The theoretical part also briefly characterizes resonant inductive coupling and critical parameters of the transfer. This is followed by realization of various variants of transfer coils and electromagnetic oscillators. Wireless power charging prototype system is created and used for testing purposes to find optimal configuration of resonator. The hardware unit presented in the final part of the thesis exploits microcontroller and implemented software is extended by foreign object detection algorithm along with method to monitor battery charging state.
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