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Implementation of control algorithm in application with several accumulation systems
Klusáček, Jan ; Morávek, Jan (oponent) ; Collin, Adam (oponent) ; Vrána, Michal (vedoucí práce)
Distributed electrical power generation which implements renewable sources such as solar power contributes to carbon footprint reduction. From grid operation point of view, it is also beneficial to match the generation and consumption locally. This may be achieved either by demand response or, especially, by accumulation. A hybrid system consisting of photovoltaic power generator, electrical power accumulator and heat accumulator is presented in this thesis. The electrical power accumulator, which consists of LiNiMnCoO2 cells with Battery Management System (BMS), is designed in this thesis. A hot water tank with heating element is used as a heat accumulator. A continuous heat load control is essential for proper operation and the design of the control concept is included in the thesis. Finally, the suitable hybrid system control algorithm, which regards both user and technology requirements, is presented and implemented in LabVIEW environment. Functionality of the system is verified by measurement in laboratory.
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Implementation of control algorithm in application with several accumulation systems
Klusáček, Jan ; Morávek, Jan (oponent) ; Collin, Adam (oponent) ; Vrána, Michal (vedoucí práce)
Distributed electrical power generation which implements renewable sources such as solar power contributes to carbon footprint reduction. From grid operation point of view, it is also beneficial to match the generation and consumption locally. This may be achieved either by demand response or, especially, by accumulation. A hybrid system consisting of photovoltaic power generator, electrical power accumulator and heat accumulator is presented in this thesis. The electrical power accumulator, which consists of LiNiMnCoO2 cells with Battery Management System (BMS), is designed in this thesis. A hot water tank with heating element is used as a heat accumulator. A continuous heat load control is essential for proper operation and the design of the control concept is included in the thesis. Finally, the suitable hybrid system control algorithm, which regards both user and technology requirements, is presented and implemented in LabVIEW environment. Functionality of the system is verified by measurement in laboratory.
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