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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Ekonomické zhodnocení a návrh otopné soustavy pro vytápění rodinného domu s klasickým a kondenzačním plynovým kotlem. / Design of heating system for family house.

David, Ondřej January 2008 (has links)
Diploma thesis deal with design and economic valorize heating system for heating family house classical gas boiler and condensing gas boiler. Diploma thesis includes design these two heating systems, inclusive graphical documentation mentioned enclosed. Further thesis includes calculation consumption natural gas in both variants heating systems with pricing natural gas spent behind heating period and investment charge upon this heating system and result is economics comparison these two heating systems.
2

Pokročilé metódy hodnotenia poškodzovania trubkových zväzkov v kotle / Advanced Methods for Damage Evaluation of Boiler Tube Bundles

Naď, Martin January 2019 (has links)
This thesis is focused on the application of advanced methods for evaluating damage to boiler tubes, specifically temperature related damage. The aim of this work is to develop an improved damage evaluation procedure utilizing capabilities of modern approaches. This work describes various types of industrial boiler damage. The main focus is on the most exposed and often the most damaged parts of boilers, which are tube bundles (for example, superheaters). Equipment damage is undesirable and often leads to leakages or even to the boiler shutting down. Therefore, it is necessary to find the problem as soon as possible and make the required changes to prevent further damage. The damage types are divided into five categories based on the damage mechanism. Temperature has one of the biggest influences on damage and it may cause short-term or long-term overheating in the tube bundles. This type of damage occurs when the designated temperature is exceeded and results in reduced creep life. It is necessary to know the real surface temperature history of the tube bundle to estimate temperature related damage, however this is often not available. Therefore, it is necessary to calculate those temperatures based on the available data (i.e. inlet and outlet temperatures and pressures). This is real challenge due to the combination of complex flows of the working substances (mainly flue gasses) and heat transfer. Considering available data, new approach is proposed in order to obtain information required for residual creep life estimation. In the first step, thermal – hydraulic calculation is performed followed by a thermal load estimation of a superheater tube bundle in a natural gas fired boiler, using CFD simulations. In the next step, the surface temperature is evaluated and used to determine the temperature related damage, specifically the creep life estimation. The life expectancy is in some ways influenced by imperfections, and therefore at the end of this thesis the influence of the oxide layer on the inner side of tube and fouling on outer side of tube is described.
3

Kotel na spalování vysokopecního plynu / Gas Boiler

Štipský, Pavel January 2020 (has links)
The aim of this diploma thesis is to design a gas boiler for blast furnace gas combustion. At the beginning is performed stoichiometry of the used fuel to determine the optimal amount of combustion air and the actual amount of flue gas. Subsequently is determined the overall efficiency, together with heat and steam power of the boiler. The main part of the thesis is focused on the design of the combustion chamber and the dimensioning of heat exchange surfaces. At the end of the thesis are performed hydraulic and aerodynamic calculations to determine the pressure loss on the side of the working medium and flue gas. Drawing documentation can be found in attachments.
4

Návrh autonomního topného zdroje / Project of Autonomous Heating Source

Pejcl, Jiří January 2014 (has links)
The diploma thesis deals with design of a suitable heat source for heating and hot water. There are dealt with operational costs of different types of heat sources, which are compared with one another. The next part is the implementation of specific proposal of the heat source - heat pump ground/water with deep wells and measuring system. The last part describes measuring several operating modes of the heat pump.
5

Kotelna spalující zemní plyn / Gas fired boiler house

Hosnedl, Pavel January 2012 (has links)
This master thesis deals with problems of determining operational and safety risks at gas boiler room in office building with total output of 4×49 kW. The gas boiler room is equipped with four boilers Geminox THRi 10-50. The aim of this master thesis is to determine the potential operational and safety risks of gas boiler room. The master thesis is divided into several parts, when the first part is describing the current situation with some theoretical knowledge and risk analysis. This part also outlines possible solutions for identification and quantification of risks to the gas boiler room. The specific risk factors are determined at other part of master thesis and there is also their analysis, which is solved by cause and effect diagram and by Failure Mode and Effect Analysis. The specific precautions are suggested for chosen risks in final part of master thesis.
6

Otopná tělesa pro ústřední vytápění / Radiators for central heating

Sabelová, Jolanta January 2012 (has links)
The task of the diploma thesis was the theoretical and experimental design of radiators for the central heating and the prepartion of conceptual design for a pension with a wellness centre in Ostrava. The building is a free-standing three-to five-floor cellarless building. The heating system will be designed for pension rooms and a social base; within the wellness centre, the heating of a fitness centre, whirlpools, and locker rooms will be designed. The heat source will be a gas boiler house. Ventilation in the accommodation part will be natural and forced in the wellness centre with respect to thermal comfort of visitors.
7

Provozní účinnost plynových kotlů / Operational efficiency of gas boilers

Marčiš, Šimon January 2022 (has links)
This master’s thesis elaborates a design of water heating and heating system for a building of a rehabilitation center in Horný Hričov. The theoretical section describes operational efficiency of gas boilers and associated calculation methods. The experimental section covers measurements of condensing gas boiler at various temperatures of heating water conducted in university laboratory. Operational efficiency was then calculated using indirect method based on the measurement results. Subsequently, calculated values and values measured by an operational efficiency analyzer were compared. The comparison revealed minor deviations in operational efficiency values and different values of condensing heat utilization between the calculations and the analyzer results. The analytical section of the thesis consists of complex designs of two versions of the heating system and the water heating. The first design version uses condensing gas boilers as a heat source while the second version uses a water-air heat pump instead. The project section of the thesis is executed in the scope for a building permit and consists of a technical report and a design documentation.
8

Srovnání možných způsobů zásobování rodinného domu energií / Comparison of energy sources for energy supply of residential

Špatenka, Jindřich January 2014 (has links)
This diploma thesis deals with comparison of possible ways to supply the specific house by thermal energy. In the first part is a brief introduction of the building and determination of heat consumption. Following chapters are devoted to description and sorting of gas boilers, heat pumps, biomass boilers and solar collectors, inclusive the choice of specific source of heat. In the following part is stated economic evaluation of selected heat sources. Final part of the thesis is focused on design of additional exchanger instead of gas boiler.
9

Spojení kondenzačního kotle se solárními kolektory pro zásobování RD tepelnou energií / Condensing boiler with solar collectors for thermal energy supply of residences

Zeman, Radek January 2016 (has links)
This diploma thesis deals with practical design of heat supply of real house in Libhošť, Nový Jičín. Main strategy of heat supply is gas condensation boiler, that replaces current gas boiler, with solar collector. From known house heat loss we determine temperatures of heating water and power of boiler, that heats the house and hot water. System with solar collector is designed to heat hot water in the house. All necessary equations are calculated both for long term measured meteorological data and for data in year 2015. Heat gains and payback periods of investment in solar system are determined from them. Payback periods are calculated given to price of heat that gas boiler produces. Equations and payback period evaluation are made for systems with one to four solar collectors. There is recommendation at the end of thesis, whether the solar system is advantageous, or not.
10

Optimalizace vytápění bytového domu / Optimization of Flat House Heating

Fodor, Ján January 2017 (has links)
This diploma thesis deals with the supply of heat in a particular block of flats in Brno. It deals with supply for heating and for hot water heating. The introduction gives information about the considerated building and also generally, but especially with regard to the current situation with consumption and heat supply. Subsequently, the thesis describes the individual possibilities of obtaining heat. There are mentioned classical heat sources as gas boilers, but also less commonly used as co-generating units or solar collectors. Furthermore, the work is calculating from the technical and economic point of view for heating options chosen by the investor. Finally, the work compares the options from viewpoint of benefits, budgets and returns of possible investments.

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