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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

Att vara ung i hotell- och restaurangbranchen : En kvalitativ studie kring ungas hälsa och erfarenheter av hotell- och restaurangbranschen

Johansson, Josefine January 2017 (has links)
Syftet med denna studie är att granska vilka aspekter som påverkar unga personerserfarenheter av hotell- och restaurangbranschen. 6 Personer mellan 16-30 år har deltagitsom intervjupersoner och studien tenderar därför beskriva de ungas erfarenheter avhotell- och restaurangbranschen. Studier har visat att det finns flertalet aspekter sompåverkar de måendet och upplevelsen av servicebranschen och ett stort fokus hamnarframförallt på de relationer som uppstår mellan kollegor, chefer och gäster. Genom enkvalitativ undersökning i form av 6 intervjuer prövas teorin som uppsatsens påståendengrundar sig i och leder fortsatt till slutsatser och antaganden kring hur unga vuxna mårpå arbetsmarknaden idag och vad som påverkar detta.
2

Enhancement Of The Bottoming Cycle In A Gas/steam Combined Cycle Power Plant

Safyel, Zerrin 01 February 2005 (has links) (PDF)
A combined cycle gas/steam power plant combines a gas turbine (topping cycle) with a steam power plant (bottoming cycle) through the use of a heat recovery steam generator. It uses the hot exhaust of the gas turbine to produce steam which is used to generate additional power in the steam power plant. The aim of this study is to establish the different bottoming cycle performances in terms of the main parameters of heat recovery steam generator and steam cycle for a chosen gas turbine cycle. First of all / for a single steam power cycle, effect of main cycle parameters on cycle performance are analyzed based on first law of thermodynamics. Also, case of existence of a reheater section in a steam cycle is evaluated. For a given gas turbine cycle, three different bottoming cycle configurations are chosen and parametric analysis are carried out based on energy analysis to see the effects of main cycle parameters on cycle performance. These are single pressure cycle, single pressure cycle with supplementary firing and dual pressure cycle. Also, effect of adding a single reheat to single pressure HRSG is evaluated. In single pressure cycle, HRSG generates steam at one pressure level. In dual pressure cycle, HRSG generates steam at two different pressure levels. i.e. high pressure and low pressure. In single pressure cycle with supplementary firing excess oxygen in exhaust gas is fired before entering HRSG by additional fuel input. So, temperature of exhaust gas entering the HRSG rises. Second law analysis is performed to able to see exergy distribution throughout the bottoming plant / furthermore second law efficiency values are obtained for single and dual pressure bottoming cycle configurations as well as basic steam power cycle with and without reheat. It is shown that maximum lost work due to irreversibility is in HRSG for a bottoming cycle in a single pressure gas / steam combined power plant and in boiler for a steam cycle alone. Comparing this with the single pressure cycle shows how the dual pressure cycle makes better use of the exhaust gas in the HRSG that dual pressure combined cycle has highest efficiency values and lost work due to irreversibility in -most significant component- HRSG can be lowered. And also it is shown that by extending the idea of reheat the moisture content is reduced and improvement in the performance is possible for high main steam pressures. Another observation is that supplementary firing increases the steam turbine output compared to the cycle without supplementary firing. The efficiency rises slightly for HP steam pressures higher than 14 MPa at HRSG exit, because the increased steam production also results in increased mass flows removing more energy from the exhaust gas.
3

Návrh dvoutlakého horizontálního kotle na odpadní teplo za plynovou turbinu na zemní plyn / Draft dual pressure horizontal waste heat boiler for gas turbine on natural gas

Jurek, Roman January 2014 (has links)
This thesis deals with waste heat boiler for turbines burning natural gas. According to the given parameters of flue gas and vapor are carried out thermal balance and design of the boiler heating surfaces and calculated the dimensions and arrangement of heat transfer surfaces in the boiler followed by treatment with a drawing of the boiler.
4

Návrh dvoutlakého horizontálního kotle na odpadní teplo / Proposal of horizontal dual-pressure heat recovery steam generator

Slíva, Karel January 2016 (has links)
The focus of this thesis is a proposal of a horizontal dual-pressure heat recovery steam generator. The introductory part includes thermal calculation, as well as a design of the layout and a design of the heat transfer surfaces and the layout of the boiler. Individual chapters are broken down according to the outline of the proposal for the arrangement of the heating surfaces, according to the parameters of the flue gas and steam. The master thesis contains a scheme of a real heat transfer temperature diagram and it also includes the calculation of connecting and downcomer pipes and drums. The final part describes the calculation of the boiler draft loss. The main idea of the thesis is accompanied by the technical documentation of the drawing of the boiler.

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