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Single-Stage Steam Turbine
Susna, David ; Fiedler, Jan (referee) ; Kracík, Petr (advisor)
Bachelor thesis deals with design of back-pressure sngle-stage steam turbine. This turbine is designed to process technologic steam in chemical factory. Goal of the thesis is to design turbine which can process as much steam energy as possible with specified parameters. Main part of the thesis is thermodynamics calculation, where consideration of using banding is also included. Part of the thesis is also rust design of the turbine.
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Steam turbine to drive the feed pump
Pavliska, Vojtěch ; Kracík, Petr (referee) ; Fiedler, Jan (advisor)
This diploma thesis performs a calculation of a steam turbine to drive a feed pump. The research part deals with the basic classification of steam turbines focusing on mechanical drive steam turbines. The second part of the thesis is a controlled extraction pressure optimization for achieving the maximum possible thermic efficiency of the cycle. The last part of the thesis shows a detailed thermodynamic calculation of the mechanical drive turbine along with the basic geometric parameters of the flow canal.
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Single-stage steam turbine
Hrnčířová, Michaela ; Fiedler, Jan (referee) ; Novotný, Zdeněk (advisor)
This bachelor thesis deal with project for single-stage steam turbine specified to the steam reduction station combined thermal cycle. Involvement rotary reduction is elective, to was enough exploited steam power. For the specified parameters was proposed designed the acceptable conception of turbo-generator with a direct connection to an asynchronous generator. The most important part work is the thermodynamic calculation of the flow part whose aim is achieve maximum efficiency and operation of turbines. To increase in efficiency and on the basis engeged turns is considered using of bandage. Also is effected the choice of acceptable steam paddings.
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Comparing grades axial steam turbines for various media
Staněk, Štěpán ; Fiedler, Jan (referee) ; Kracík, Petr (advisor)
Aim of the thesis is to design a single-stage axial steam turbine with impulse blading type for two different media with identical input parameters at input of stator and pressure behind the impeller. Calculation is made for water steam and organic fluid R134a. Main part of this thesis is termodynamic calculation and its optimalization in order to achieve maximum output and efficiency of the stage for both working fluids. At the end of the thesis an alternative calculation of impeller friction losses is presented.
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Steam turbine to drive the feed pump
Pavliska, Vojtěch ; Kracík, Petr (referee) ; Fiedler, Jan (advisor)
This diploma thesis performs a calculation of a steam turbine to drive a feed pump. The research part deals with the basic classification of steam turbines focusing on mechanical drive steam turbines. The second part of the thesis is a controlled extraction pressure optimization for achieving the maximum possible thermic efficiency of the cycle. The last part of the thesis shows a detailed thermodynamic calculation of the mechanical drive turbine along with the basic geometric parameters of the flow canal.
|
|
|
Comparing grades axial steam turbines for various media
Staněk, Štěpán ; Fiedler, Jan (referee) ; Kracík, Petr (advisor)
Aim of the thesis is to design a single-stage axial steam turbine with impulse blading type for two different media with identical input parameters at input of stator and pressure behind the impeller. Calculation is made for water steam and organic fluid R134a. Main part of this thesis is termodynamic calculation and its optimalization in order to achieve maximum output and efficiency of the stage for both working fluids. At the end of the thesis an alternative calculation of impeller friction losses is presented.
|
|
|
Single-Stage Steam Turbine
Susna, David ; Fiedler, Jan (referee) ; Kracík, Petr (advisor)
Bachelor thesis deals with design of back-pressure sngle-stage steam turbine. This turbine is designed to process technologic steam in chemical factory. Goal of the thesis is to design turbine which can process as much steam energy as possible with specified parameters. Main part of the thesis is thermodynamics calculation, where consideration of using banding is also included. Part of the thesis is also rust design of the turbine.
|
|
|
Single-stage steam turbine
Hrnčířová, Michaela ; Fiedler, Jan (referee) ; Novotný, Zdeněk (advisor)
This bachelor thesis deal with project for single-stage steam turbine specified to the steam reduction station combined thermal cycle. Involvement rotary reduction is elective, to was enough exploited steam power. For the specified parameters was proposed designed the acceptable conception of turbo-generator with a direct connection to an asynchronous generator. The most important part work is the thermodynamic calculation of the flow part whose aim is achieve maximum efficiency and operation of turbines. To increase in efficiency and on the basis engeged turns is considered using of bandage. Also is effected the choice of acceptable steam paddings.
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