|
|
Impact of core length on efficiency of a single phase induction machine
Binek, Martin ; Hájek, Vítězslav (referee) ; Mach, Martin (advisor)
This bachelor's thesis analyses the impact of core length on efficiency of a single phase induction machine with a run capacitor in the auxiliary winding. The whole thesis can be divided into two parts. The first part of the thesis includes general knowledge concerning single phase induction machines and technical base for its analytical calculation. The second part works with the actual technical documentation of a motor. This part includes creation of the motor model in RMxprt module, analytical calculation for verifying the motor properties and laboratory measurement, where the results are primarily compared to RMxprt simulation as well as to the analytical calculation, mainly from the efficiency perspective.
|
|
|
Single phase induction motor start optimization
Glogar, Jaroslav ; Hájek, Vítězslav (referee) ; Mach, Martin (advisor)
This bachelor thesis deals with the influence of capacitors on a start of a single phase induction machine and start optimization. The first two chapters refer to a theoretical part of the issue, describing construction, the function principle, the torque characteristic. Also used types are named there, a special emphasis is given to a split phase induction motor with the capacitor and auxiliary winding. It also describes the influence of the capacitor to a breakaway torque. The next part studies the analysis of the concrete machine by the laboratory measuring. Results of measured windings resistance, rated operation, load characteristic, mechanical losses and locked-rotor test are stated here. The main part of the thesis is dedicated to an optimization of wiring auxiliary winding, especially for breakaway torque. It is based on creating models in program ANSYS Maxwell, where an analytical calculation in module RMxprt and a calculation per finite element method (FEM) is realised. Three models are demonstrated here. The first one is identical with the measured machine, so with the permanent split capacitor. That model is created to be compared with the measuring. Another model has a capacitor start, and the last one has two capacitors – for start and run. For the last model the rotor cage with a reduced resistance of winding is used.
|
|
|
Impact of core length on efficiency of a single phase induction machine
Binek, Martin ; Hájek, Vítězslav (referee) ; Mach, Martin (advisor)
This bachelor's thesis analyses the impact of core length on efficiency of a single phase induction machine with a run capacitor in the auxiliary winding. The whole thesis can be divided into two parts. The first part of the thesis includes general knowledge concerning single phase induction machines and technical base for its analytical calculation. The second part works with the actual technical documentation of a motor. This part includes creation of the motor model in RMxprt module, analytical calculation for verifying the motor properties and laboratory measurement, where the results are primarily compared to RMxprt simulation as well as to the analytical calculation, mainly from the efficiency perspective.
|
|
|
Single phase induction motor start optimization
Glogar, Jaroslav ; Hájek, Vítězslav (referee) ; Mach, Martin (advisor)
This bachelor thesis deals with the influence of capacitors on a start of a single phase induction machine and start optimization. The first two chapters refer to a theoretical part of the issue, describing construction, the function principle, the torque characteristic. Also used types are named there, a special emphasis is given to a split phase induction motor with the capacitor and auxiliary winding. It also describes the influence of the capacitor to a breakaway torque. The next part studies the analysis of the concrete machine by the laboratory measuring. Results of measured windings resistance, rated operation, load characteristic, mechanical losses and locked-rotor test are stated here. The main part of the thesis is dedicated to an optimization of wiring auxiliary winding, especially for breakaway torque. It is based on creating models in program ANSYS Maxwell, where an analytical calculation in module RMxprt and a calculation per finite element method (FEM) is realised. Three models are demonstrated here. The first one is identical with the measured machine, so with the permanent split capacitor. That model is created to be compared with the measuring. Another model has a capacitor start, and the last one has two capacitors – for start and run. For the last model the rotor cage with a reduced resistance of winding is used.
|
guest ::
