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Design of a PV plant for a family house
Kalousek, Stanislav ; Vaněk, Jiří (referee) ; Jandová, Kristýna (advisor)
This bachelor thesis deals with the design of a photovoltaic power plant in combination with a heat pump for a family house. The theoretical part of the thesis includes a detailed analysis and analysis of currently used photovoltaic and heat pump technologies with the use of possible government subsidy programs. Furthermore, the practical part describes the layout of the family house for which both systems are proposed. Based on the knowledge gained, the design of the heat pump and photovoltaic power plant is proposed, including a system for the storage of electrical energy or the sale of surplus to the distribution grid. In addition, a simulation of the operation of the PV power plant is performed in the professional design environment PV*Sol Premium, including a 3D model, module shading, economic and energy analysis of the PV power plant design. Finally, an evaluation of the combination of a PV plant with a heat pump and a comparison with a commercial design from a professional PV and HP installation company is made.
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PV power plant project - category A1/A2
Pacalaj, Timotej ; Drápela, Jiří (referee) ; Morávek, Jan (advisor)
This thesis deals with the design of a category A1/A2 photovoltaic system for a specific building. The aim was to meet the requirements of the investor and the energy needs of the building. The thesis includes a research of PV connection requirements (PPDS-4, RfG), a review of available technologies and components, and system design using PVSOL software. The work also includes the production of project-level documentation for implementation, including a technical report, a single-pole schematic and a situation drawing. In addition to the technical aspects, an economic evaluation of the project is carried out in the thesis, providing the investor with an overview of the return on investment and financial efficiency of the PV plant. As a result, a comprehensive proposal for the implementation of a category A1/A2 PV plant is presented, taking into account both technical and economic aspects.
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Using Industry 4.0 principles for mobile warehouse design
Eisenwort, Lukáš ; Zimáková, Jana (referee) ; Binar, Tomáš (advisor)
The aim of this diploma thesis is to apply industry 4.0 principles for designing a mo-bile warehouse. The first section contains the literary research, which deals with industry 4.0 in logistics. Next part deals smart warehouses and military warehouses. Analysis of the current state of the warehouse follows, technologies and processes in the military warehouse to be exact. Afterwards, the automation design of this warehouse is addressed. Both the current and the automated states are compared using the Saaty method. Finally, the photovoltaic system is designed.
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Design of a photovoltaic power plant for a family house near Olomouc
Juřička, Dušan ; Maule, Petr (referee) ; Vaněk, Jiří (advisor)
The bachelor's thesis deals with the introduction to the components of a photovoltaic system and the creation of a specific photovoltaic system installed in a family house located north of Olomouc. The system is designed to meet the requirements of a family of four. Based on simulations and current market prices, the profitability of the entire system is evaluated. The financial return of the project and the possibility of a subsidy from the state are also considered. In addition, the future possibility of purchasing an electric car is included and the potential impact on the flow of energy within the internal power grid is simulated.
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Design of a photovoltaic power system with battery storage for household purposes
Lacina, Jaroslav ; Jandová, Kristýna (referee) ; Vaněk, Jiří (advisor)
This master’s thesis takes a look at possible project of photovoltaic powerplant with power storage for households. The principle and function of photovoltaic cells, inverter and acumulators will be explained in the theoretical part. The subsequent part will focus on description of photovoltaic systems, legal point of view as well as funding by programme New Green Savings.In the practical part, the photovoltaic power plant with battery storage for the home and its economic evaluation is proposed. The PV*SOL premium program was used for simulation and data processing.
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Design of a photovoltaic power plant with battery storage for a family house
Hub, Michal ; Maule, Petr (referee) ; Vaněk, Jiří (advisor)
This diploma thesis deals with the design of a photovoltaic power plant with a battery storage for a family house. In the theoretical part at first the principle of photovoltaic cells is analysed together with the various types used in this branch. Furthermore, the thesis deals with the description of photovoltaic systems and its individual parts consisting of inverters and accumulators. This thesis analyses the object for the installation of a photovoltaic power plant, including legislative and subsidy conditions. In the final part, itself system is analysed with a price proposal.
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Assessment of the design of a small photovoltaic power plant for a family house and elaboration of its revision process
Vozárik, Michal ; Valenta, Jiří (referee) ; Veselka, František (advisor)
This bachelor thesis includes the issue of photovoltaics with a specific photovoltaic power plant, supplemented by basic measurements during inspection activities. In the first part, the author deals theoretically with solar radiation and the photovoltaic field. In the second part of the work, the author deals with the issue of revision activities. Within the work, a specific design of a small photovoltaic power plant on the roof of a family house is assessed. Various sizing software were used to analyze and assess the object. Part of the work is also the procedure of verifying the parameters of the PV plant and the inspection report of the revised electrical equipment.
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Design of a photovoltaic system with battery storage for a company
Šmatlo, Filip ; Maule, Petr (referee) ; Vaněk, Jiří (advisor)
The bachelor thesis is focused on design of the photovoltaic system for the company. The first part describes electricity production from the sun. There are described technologies of production of photovoltaic cells and technology of individual component of photovoltaic system. Furthermore, the concepts of photovoltaic systems and types of connections of these systems to the distribution network are described. Also the Czech legislation, recycling and safety in the field of photovoltaics are described. In the practical part of the thesis is created photovoltaic power station located on the roof of the building. Results of simulation of photovoltaic system created in PVSOL design program are described.
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Using Industry 4.0 principles for mobile warehouse design
Eisenwort, Lukáš ; Zimáková, Jana (referee) ; Binar, Tomáš (advisor)
The aim of this diploma thesis is to apply industry 4.0 principles for designing a mo-bile warehouse. The first section contains the literary research, which deals with industry 4.0 in logistics. Next part deals smart warehouses and military warehouses. Analysis of the current state of the warehouse follows, technologies and processes in the military warehouse to be exact. Afterwards, the automation design of this warehouse is addressed. Both the current and the automated states are compared using the Saaty method. Finally, the photovoltaic system is designed.
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Creation of a tool for calculating the efficiency of renewable energy sources
Lecián, Milan ; Zimáková, Jana (referee) ; Binar, Tomáš (advisor)
This diploma thesis deals with the design of a tool for calculating the efficiency and self-sufficiency of a mobile photovoltaic system to ensure the supply of electrical energy during crisis situations. The thesis includes research on various types of renewable energy sources and storage systems. Furthermore, it describes the relationships for calculating the position of the Sun, the intensity of the incident radiation, the efficiency and the output of the PV system and the overall coverage of the system’s consumption. Based on these relationships, a computational model is created. In the next section, this developed computational model is described and shows its application in comparison with the PV*SOL program. In the final part, using the analysis performed with the computational model, a design for o mobile photovoltaic system for supplying electrical energy during crisis situations is created using PV*SOL program. The use of the proposed system is demonstrated by providing electrical energy for emergency survival of the population. The conclusion of the thesis includes an evaluation and recommendations for further research.
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