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Membrane modeling in a single-channel microfluidic chip
Tesák, Petr ; Pekař, Miloslav (referee) ; Venerová, Tereza (advisor)
This work deals with the modelation of artificial cellular membranes in a single channel microfluidic chip. It describes the conditions under which the model membranes are created in channels that are of three different widths. A new method of filling such chips was developed where it is possible to check if the chip is ready to use and at the same time fill it up with saline solution. Furthermore data based on the number of created and burst membranes in microfluidic chips was processed. This statistic takes into consideration the state of these artificial membranes in correlation with all of the chosen sizes and flow rates. Altough there were many complications while gathering this data it is still possible to use it to describe all the benefits and disadvantages of these channels.
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Sugar storage tank
Kotík, Libor ; Musil, Jiří (referee) ; Zich, Miloš (advisor)
The matter of this thesis is static design and examination of prestressed storage tank to 50000 tons of sugar. Computational model of the steel roof structure is processed and its effect on the silos. Loads is provided of sugar. Optimal design is performed and assessment ultimate and serviceability limit state reinforced concrete and prestressing horizontal silo wall including local load. Next, it is performed the design of a reinforced concrete of the plane bed and column and assessment at the ultimate limit state. The thesis is also drawing documentation, technical report and visualization of construction process. The aim of this work is to the design of the main components based on the required storage capacity tank, mechanical properties of the stored material and technical amenities.
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Sugar storage tank
Kotík, Libor ; Musil, Jiří (referee) ; Zich, Miloš (advisor)
The matter of this thesis is static design and examination of prestressed storage tank to 50000 tons of sugar. Computational model of the steel roof structure is processed and its effect on the silos. Loads is provided of sugar. Optimal design is performed and assessment ultimate and serviceability limit state reinforced concrete and prestressing horizontal silo wall including local load. Next, it is performed the design of a reinforced concrete of the plane bed and column and assessment at the ultimate limit state. The thesis is also drawing documentation, technical report and visualization of construction process. The aim of this work is to the design of the main components based on the required storage capacity tank, mechanical properties of the stored material and technical amenities.
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