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Separation of gaseous pollutants on membrane contactors
Ostrezi, Jan ; Dohnal, Mirko (referee) ; Svěrák, Tomáš (advisor)
The diploma thesis is devoted to the separation of a gasseous pollutant (CO2) from a gas mixture using an experimental technology device - membrane contactor. The theoretical part is mostly focused on the recent progress in the field of membrane contactors. The theoretical part also contains theory of absorption, which is needed to understand the subject properly. The experimental part focuses on the construction of the experimental device. The efficiency of the device in absorption of carbon dioxide to an aqua solution of sodium hydroxide was tested. At the end, experimental data are discussed.
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Assemblage and testing of the device for water ozonizing and its application for silicon wafer cleaning
Ředina, Dalibor ; Mikulík, Petr (referee) ; Voborný, Stanislav (advisor)
Deionised-ozonated water, so-called DIO3 appears to be an ideal alternative for usage in semiconductor industry. The utilisation of DIO3 for removal of photoresist from silicon wafers is faster, cheaper, and more environmental-friendly compared to classical technology based on mixture of sulphuric acid with hydrogen peroxide, so-called SPM. The diploma thesis deals firstly with research into ozone and ozonated water and their possible applications. Next sections describe two prototypes of generators for DIO3, that were assembled in CSVG a.s. Testing of parameters for generators on dissolved-ozone concentration is also a part of this thesis. Moreover, thesis involves tests, that were carrier out in ON Semiconductor in Rožnov pod Radhoštěm. These tests compare efficiency of cleaning by classical technology based on SPM and DIO3 approach.
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Efficiency of selected chemical reactions on the membrane reactor
Liman, Martin ; Mirko,, Dohnal (referee) ; Svěrák, Tomáš (advisor)
This bachelor’s thesis focuses on the efficiency of reactions happening on the membrane reactor or also known as a contactor. The theoretical part contains basic insight into the theories needed to understand chemically physical phenomena on membrane contactors. Furthermore, the theoretical part serves as a recherche for modern membrane contactor technologies, including the examples of their usage. The practical part consists of a description of the membrane contactor that is used, the methodology of the measuring and the measured data output. Afterwards, the results are being talked over and developed further to the possible use in the current technologies.
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Mass transfer during desorption
Lindovský, Jiří ; Svěrák, Tomáš (referee) ; Kalivoda, Josef (advisor)
This master thesis deals with development and optimalization of apparatus for ammonia desorption from liquid organic wastes, generated by biogas plant. There is a high ammonia concentration in biogas plant waste products. That limits its application as a fertilizer in an agriculture. The main aim of this theses is finding optimal conditions to reach required efficacy of removing ammonia nitrogen from a liquid digestate. For this purpose, two pilot plant devices were used, and optimal conditions for ammonia desorption with its subsequent absorption by acid solution were investigated. One of the tested devices is a membrane contactor with polymeric hollow fibers. The second is a stripping device, which was used for measuring the pilot scale experiments. At the time of writing of this thesis, the device is subjected to a process of optimalization. The transferred ammonia nitrogen absorbed in acid solution was analyzed by UV-VIS spectrometry. The suitability of both devices for the required ammonia desorption efficiency has been demonstrated. Furthermore, the kinetic curve of the experiment was investigated under different conditions. The optimalization of devices will take place according to the results obtained in the experimental part of this thesis. The optimized devices will be placed in biogas plant full operation.
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Absorption of gaseous pollutants on membrane contactors
Král, Petr ; Dohnal, Mirko (referee) ; Svěrák, Tomáš (advisor)
The diploma thesis is devoted to the separation of a pollutant (NH3) from a water solution using an experimental technology device - membrane contactor. The theoretical part is mostly focused on the recent progress in the field of membrane contactors. The theoretical part also contains theory of absorption, chemisorption and microreactions, which is needed to understand the subject properly. The experimental part focuses on the construction of the experimental device and what does experimental device consist of. The efficiency of the device in transfer of ammonia to an nitrate salt of nitric acid solution was tested. At the end, experimental data are further discussed.
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Mass transfer during desorption
Lindovský, Jiří ; Svěrák, Tomáš (referee) ; Kalivoda, Josef (advisor)
This master thesis deals with development and optimalization of apparatus for ammonia desorption from liquid organic wastes, generated by biogas plant. There is a high ammonia concentration in biogas plant waste products. That limits its application as a fertilizer in an agriculture. The main aim of this theses is finding optimal conditions to reach required efficacy of removing ammonia nitrogen from a liquid digestate. For this purpose, two pilot plant devices were used, and optimal conditions for ammonia desorption with its subsequent absorption by acid solution were investigated. One of the tested devices is a membrane contactor with polymeric hollow fibers. The second is a stripping device, which was used for measuring the pilot scale experiments. At the time of writing of this thesis, the device is subjected to a process of optimalization. The transferred ammonia nitrogen absorbed in acid solution was analyzed by UV-VIS spectrometry. The suitability of both devices for the required ammonia desorption efficiency has been demonstrated. Furthermore, the kinetic curve of the experiment was investigated under different conditions. The optimalization of devices will take place according to the results obtained in the experimental part of this thesis. The optimized devices will be placed in biogas plant full operation.
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Efficiency of selected chemical reactions on the membrane reactor
Liman, Martin ; Mirko,, Dohnal (referee) ; Svěrák, Tomáš (advisor)
This bachelor’s thesis focuses on the efficiency of reactions happening on the membrane reactor or also known as a contactor. The theoretical part contains basic insight into the theories needed to understand chemically physical phenomena on membrane contactors. Furthermore, the theoretical part serves as a recherche for modern membrane contactor technologies, including the examples of their usage. The practical part consists of a description of the membrane contactor that is used, the methodology of the measuring and the measured data output. Afterwards, the results are being talked over and developed further to the possible use in the current technologies.
|
|
|
Absorption of gaseous pollutants on membrane contactors
Král, Petr ; Dohnal, Mirko (referee) ; Svěrák, Tomáš (advisor)
The diploma thesis is devoted to the separation of a pollutant (NH3) from a water solution using an experimental technology device - membrane contactor. The theoretical part is mostly focused on the recent progress in the field of membrane contactors. The theoretical part also contains theory of absorption, chemisorption and microreactions, which is needed to understand the subject properly. The experimental part focuses on the construction of the experimental device and what does experimental device consist of. The efficiency of the device in transfer of ammonia to an nitrate salt of nitric acid solution was tested. At the end, experimental data are further discussed.
|
|
|
Assemblage and testing of the device for water ozonizing and its application for silicon wafer cleaning
Ředina, Dalibor ; Mikulík, Petr (referee) ; Voborný, Stanislav (advisor)
Deionised-ozonated water, so-called DIO3 appears to be an ideal alternative for usage in semiconductor industry. The utilisation of DIO3 for removal of photoresist from silicon wafers is faster, cheaper, and more environmental-friendly compared to classical technology based on mixture of sulphuric acid with hydrogen peroxide, so-called SPM. The diploma thesis deals firstly with research into ozone and ozonated water and their possible applications. Next sections describe two prototypes of generators for DIO3, that were assembled in CSVG a.s. Testing of parameters for generators on dissolved-ozone concentration is also a part of this thesis. Moreover, thesis involves tests, that were carrier out in ON Semiconductor in Rožnov pod Radhoštěm. These tests compare efficiency of cleaning by classical technology based on SPM and DIO3 approach.
|
|
|
Separation of gaseous pollutants on membrane contactors
Ostrezi, Jan ; Dohnal, Mirko (referee) ; Svěrák, Tomáš (advisor)
The diploma thesis is devoted to the separation of a gasseous pollutant (CO2) from a gas mixture using an experimental technology device - membrane contactor. The theoretical part is mostly focused on the recent progress in the field of membrane contactors. The theoretical part also contains theory of absorption, which is needed to understand the subject properly. The experimental part focuses on the construction of the experimental device. The efficiency of the device in absorption of carbon dioxide to an aqua solution of sodium hydroxide was tested. At the end, experimental data are discussed.
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