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Technology to remove sulfur oxides (NOx) from flue gases for large combustion plants
Hrubý, Radomír ; Bojanovský, Jiří (referee) ; Jecha, David (advisor)
In the specified large combustion plant, fuel with a large content of sulfur is burned. The current desulfurisation method is not able to meet the new emission limits, therefore it is necessary to design an adequate desulphurisation method. The theoretical part of this diploma thesis contains a description of the legislation related to emission limits for large combustion plants and an analysis of individual technological methods of desulphurization together with a description of the relevant sorbents. The practical part of the work contains a design of dry conditioned sorption with the using of a calcium-based sorbent. The basic technological and structural design is designed together with the spatial solution and dispositional solution of the whole technology.
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Design of a technological line for recycling autoclaved aerated concrete
Bajzík, Martin ; Bojanovský, Jiří (referee) ; Skryja, Pavel (advisor)
The diploma thesis is focused on the design of a production line for processing waste material from autoclaved aerated concrete production. The introduction of the thesis describes the current situation with aerated concrete waste processing, it´s characteristics, raw materials used for the production and the production technology. The theoretical part of the thesis reviews the crushing process and the equipment used in mineral processing lines such as: crushers, mills, separators and conveyors. In the practical part of the thesis the focus is on the design of the production line, selection of the equipment, mass balance and economical evaluation of the investment.
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The influence of atomizing media on the quality of the combustion of liquid fuels
Bojanovský, Jiří ; Skryja, Pavel (referee) ; Bělohradský, Petr (advisor)
The aim of the present work was to experimentally investigate the influence of atomizing medium on combustion properties of methyl-ester of rapeseed oil. The experiments were carried out in a water-cooled horizontal combustion chamber. The pneumatic atomization using effervescent atomizer was used in test. As atomizing medium compressed air and superheated steam was chosen. The tests were performed at GLR = 15, 20 and 25 %. The experiments were focused on the investigation of the flame characteristics, quality of combustion, emissions, temperature of flue gas, distribution of heat fluxes and stability of combustion. Results revealed that atomization by compressed air is more efficient (approximately by 6 %), on the other hand it leads to higher NO emissions (for 15 mg/mN3 due to higher in-flame temperature).
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Recycling of phosphorus from waste water
Szotkowski, Matěj ; Bojanovský, Jiří (referee) ; Brummer, Vladimír (advisor)
The focus of this thesis is to create an overview of methods that are used to recycle phosphorus from waste products, primarily from wastewater. The first section of the thesis is dedicated to problems stemming from the limitations of phosphorus resources, their usage and legislative background of phosphorus recycling. Next the physicochemical and biological methods of phosphorus recycling from wastewater and products of its further processing in WWTP are addressed. This part of the thesis contains description of phosphorus recycling methods, their final products and implemented technologies. Brief review regarding the recycling of phosphorus from other waste products including the description of implemented methods follows. In the subsequent part the economic analysis of a chosen phosphorus recycling method (PASCH) is conducted. In the analysis the legislation, processing plant and individual expenditures connected with the method are described. Findings obtained and gathered during the process of the thesis creation are discussed and summarized in the conclusion.
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Discharge coefficients for nozzles of a low-NOx gas burner
Zifčáková, Barbora ; Bojanovský, Jiří (referee) ; Juřena, Tomáš (advisor)
Nozzles belong to the main parts of a low-NOx gas burner. Their purpose is to transport fuel into a combustion system. One way of judging a quality of a nozzle is to define its discharge coefficient. It expresses an efficiency of energy conversion – from pressure to kinetic energy. In this thesis the discharge coefficients of several nozzles were established, using Ansys Fluent software for computer simulation. A calculation was tuned to a reference geometry and then applied to other geometries of nozzles, which were both planar and spatial. Numerically obtained data were compared with experimental data. The benefits of this thesis are comparism of two main methods of flow modelling (Scalable Wall Function and Enhanced Wall Treatment) and formulation of a calculation methodology for this type of physical problem. The results provided by this thesis might be used for both another study and experimental research.
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Measurement of selected components in flue gas
Stach, Vítězslav ; Bojanovský, Jiří (referee) ; Jecha, David (advisor)
This bachelor thesis focuses on measurement of chosen components in flue gas, which originates during waste incineration. The thesis states ordered maximum limits and Czech as well as European legislation which controls and adjusts operation of waste incineration plants. This thesis is divided into two parts, first deals with legislation, chosen components generally, limits, analysers and used methods. The second part is devoted to experimental measurement using different types of analysers, description of measuring procedure and evaluation of results.
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Dosing of particulate matter in rotary driers and rotary kilns
Kubín, Pavel ; Hudák, Igor (referee) ; Bojanovský, Jiří (advisor)
The bachelor thesis is focused on particulate matter dosing into rotary dryers. In the theoretical part, the thesis focuses on the mechanical properties of particulate matter (PM), especially the flow properties. The method of determining these properties is also men-tioned. The following part deals with the currently used PM dosing methods. The basic methods of dosing are listed here and their combination can subsequently lead to a complex dosing system. The practical part contains two designs of sewage sludge dosing systems and a comparison of their advantages and disadvantages. It also lists the boundary conditions to be considered before starting the design of such a dosing device.
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Combustion of Solid Fuels in Rotary Kiln and Influence of their Composition on Emissions
Bojanovský, Jiří ; Jegla, Zdeněk (referee) ; Puchýř, Radim (referee) ; Máša, Vítězslav (advisor)
The work is focused on the study of the influence of solid fuel composition on the formation of pollutants during combustion in a rotary kiln. This is a highly topical issue related to the need to increase the share of alternative fuels as a substitute for fossil ones. The author builds on the research already carried out in this area, defines the basic characteristics of the problem under study and formulates hypotheses based on the summary of the current state of knowledge. The main hypothesis is ("The composition of the solid fuel mixture can be chosen in such a way as to reduce the generation of pollutants.") To verify this hypothesis, the author chooses experimental verification in combustion tests on a semi-operational experimental device. For the combustion tests, it was proposed to extend this equipment with apparatus that allows the evaluation of the fouling rate of heat transfer surfaces and the formation rate of particulate matter pollutants. This equipment was successfully used for combustion tests of 6 selected alternative fuels (refuse-derived fuel RDF, sewage sludge, and forest waste). Based on the combustion tests conducted with these sub-fuels, 6 fuel mixtures with high potential for industrial applications were defined. These mixtures were also burned in a rotary kiln. Based on the results obtained, the main hypothesis of the work was confirmed and the fuel mixture consisting of 70 wt.% forest waste, 20 wt.% RDF and 10 wt.% sewage sludge (MIX 6 in the work) was identified as the most suitable alternative to fossil fuels. This mixture did not show any operational problems and the best results were obtained in the formation of gaseous pollutants and particulate matter. The results of this work are a crucial point in the search for a methodology for the specification of suitable alternative fuel blends for combustion in the energy and manufacturing industries.
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Design of a technological line for recycling autoclaved aerated concrete
Bajzík, Martin ; Bojanovský, Jiří (referee) ; Skryja, Pavel (advisor)
The diploma thesis is focused on the design of a production line for processing waste material from autoclaved aerated concrete production. The introduction of the thesis describes the current situation with aerated concrete waste processing, it´s characteristics, raw materials used for the production and the production technology. The theoretical part of the thesis reviews the crushing process and the equipment used in mineral processing lines such as: crushers, mills, separators and conveyors. In the practical part of the thesis the focus is on the design of the production line, selection of the equipment, mass balance and economical evaluation of the investment.
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