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Power accumulation from renewable energy sources
Kratschmer, Bruno ; Baláš, Marek (referee) ; Pospíšil, Jiří (advisor)
In this thesis I deal with problem of power acumulation from renewable energy sources. First part present the available technologies used for power accumulation. In the second part is designed the systém of acumulation in compressed air with a transformation electric output 1 MW, when is used made elektricity from wind-power plant. In the third part is an assessment in terms of both technical and economic comparison with the use of electicity from the network.
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High temperature energy reservoir with year-round operation in conjunction with a solar system
Hoc, Pavel ; Šikula, Ondřej (referee) ; Hirš, Jiří (advisor)
In this thesis I deal with the issue of stand-alone solar system development. This system ensures the supply of all the energy needed for a reference house. It consists of a solar concentrator and a heat reservoir. I used mathematical models to solve this issue. The calculations showed, that the concentration of solar radiation into the heat reservoir can usually achieve 69 % efficiency. The efficiency can be even higher when using a very reflective materials of the solar concentrator. In this thesis, the thermal reservoir is described and its improvements are suggested based on the optimization calculations. Thanks to knowledge gained during solving this issue, a prototype of the stand-alone solar system is going to be built. All findings will be experimentally verified with this prototype.
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Analysis of the economic efficiency of a solar system
Mikl, Antonín ; Pithart, Jan (referee) ; Macháček, Jan (advisor)
The Master’s thesis deals with the processing of solar thermal systems for heating hot water, outdoor swimming pool and heating selected house. Introduces us how we can use the sun for the production of thermal energy through solar collectors. Furthermore, the basic components of the solar system and the types of collectors used. After this summary on the present state be the calculation of the system and fixing the price of the investment. The economic part of the evaluate if this system to invest, eventually appoint a return on investment.
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Accumulation of energy in "heat batteries"
Janečka, Filip ; Kudela, Libor (referee) ; Pospíšil, Jiří (advisor)
Thermal energy storage is an important alternative to other, more common methods of energy storage, such as electrochemical batteries, as most of the energy used in homes is in the form of heat. The use of thermal energy storage therefore skips the step where electricity is converted into heat, which can increase the efficiency of the whole process and reduce energy costs. In this paper, five important thermal energy storage methods are described and evaluated with respect to their use by an individual in a single family home as well as for use in high energy demand applications (central heating, power generation, etc.). The five heat storage methods are: ground storage, sand storage, PCM (phase change material) storage, thermochemical storage and hydrogen storage. Emphasis is placed on highlighting the advantages and disadvantages of each type of thermal storage reservoir, showing pilot implementations and comparing them with each other. Furthermore, an evaluation of the seasonal storage capability of the different thermal storage systems is made, which shows that the only storage guaranteed to be capable of almost unlimited storage time is the thermochemical storage system. Also in this work, a water heat storage tank for a single-family house is proposed, which was chosen because of its good scalability, proven functionality and relatively simple design.
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High temperature energy reservoir with year-round operation in conjunction with a solar system
Hoc, Pavel ; Šikula, Ondřej (referee) ; Hirš, Jiří (advisor)
In this thesis I deal with the issue of stand-alone solar system development. This system ensures the supply of all the energy needed for a reference house. It consists of a solar concentrator and a heat reservoir. I used mathematical models to solve this issue. The calculations showed, that the concentration of solar radiation into the heat reservoir can usually achieve 69 % efficiency. The efficiency can be even higher when using a very reflective materials of the solar concentrator. In this thesis, the thermal reservoir is described and its improvements are suggested based on the optimization calculations. Thanks to knowledge gained during solving this issue, a prototype of the stand-alone solar system is going to be built. All findings will be experimentally verified with this prototype.
|
|
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Power accumulation from renewable energy sources
Kratschmer, Bruno ; Baláš, Marek (referee) ; Pospíšil, Jiří (advisor)
In this thesis I deal with problem of power acumulation from renewable energy sources. First part present the available technologies used for power accumulation. In the second part is designed the systém of acumulation in compressed air with a transformation electric output 1 MW, when is used made elektricity from wind-power plant. In the third part is an assessment in terms of both technical and economic comparison with the use of electicity from the network.
|
|
|
Analysis of the economic efficiency of a solar system
Mikl, Antonín ; Pithart, Jan (referee) ; Macháček, Jan (advisor)
The Master’s thesis deals with the processing of solar thermal systems for heating hot water, outdoor swimming pool and heating selected house. Introduces us how we can use the sun for the production of thermal energy through solar collectors. Furthermore, the basic components of the solar system and the types of collectors used. After this summary on the present state be the calculation of the system and fixing the price of the investment. The economic part of the evaluate if this system to invest, eventually appoint a return on investment.
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