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The heat build-up of tap-off units of busbar trunking system in relationship to their surfacing.
Forejtník, Jan ; Radil, Lukáš (referee) ; Foral, Štěpán (advisor)
This study is dedicated to the effect of surface modification on lid warming of busbar trunking system BD2 which is manufactured by Siemens company in Mohelnice town (CZ). By using experimental methods, it investigates heat transfer by radiation and natural convection. It evaluates which type of surface modification is more effective by transfer heat. This study uses a method of emisivity comparison and a procedure given in standards for heat up test afterwards. It led to recognition, that various colour shades used on busbar system have similar high emissivity. Smooth colour spraying transfers heat a bit more effectively than rough colour spraying. Outputs of supplementary measurements give basis for numerical simulations in SolidWorks software. Numerical analysis assists to interpret results, for example by sensitivity study of heat transfer depending on emissivity.
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The thermal calculation of a induction furnace
Hradilová, Irena ; Raček, Jiří (referee) ; Lázničková, Ilona (advisor)
This work deals with induction devices, in particular temperature computations of induction devices. The thesis is divided into three parts. In the first part, we give basic definitions of inductive warming and theoretical know ledge of heat induction that are needed to understand the problem of inductive warming. In the second part, we describe the principle of induction devices. We focused on crucible furnace which is described in details. We used this device for thermal computation of induction device. In the last part, we theoretically describe procedure of thermal computation of the most used induction devices, i.e., canal furnace, diathermy induction device, and crucible furnace; the last one is compared with the rest of induction devices from the computation point of view. For the induction crucible furnace, we provide numeric thermal computation at the end.
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The heat build-up of tap-off units of busbar trunking system in relationship to their surfacing.
Forejtník, Jan ; Radil, Lukáš (referee) ; Foral, Štěpán (advisor)
This study is dedicated to the effect of surface modification on lid warming of busbar trunking system BD2 which is manufactured by Siemens company in Mohelnice town (CZ). By using experimental methods, it investigates heat transfer by radiation and natural convection. It evaluates which type of surface modification is more effective by transfer heat. This study uses a method of emisivity comparison and a procedure given in standards for heat up test afterwards. It led to recognition, that various colour shades used on busbar system have similar high emissivity. Smooth colour spraying transfers heat a bit more effectively than rough colour spraying. Outputs of supplementary measurements give basis for numerical simulations in SolidWorks software. Numerical analysis assists to interpret results, for example by sensitivity study of heat transfer depending on emissivity.
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The heat build-up of tap-off units of busbar trunking system in relationship to their surfacing.
Forejtník, Jan ; Radil, Lukáš (referee) ; Foral, Štěpán (advisor)
This study is dedicated to the effect of surface modification on lid warming of busbar trunking system BD2 which is manufactured by Siemens company in Mohelnice town (CZ). By using experimental methods, it investigates heat transfer by radiation and natural convection. It evaluates which type of surface modification is more effective by transfer heat. This study uses a method of emisivity comparison and a procedure given in standards for heat up test afterwards. It led to recognition, that various colour shades used on busbar system have similar high emissivity. Smooth colour spraying transfers heat a bit more effectively than rough colour spraying. Outputs of supplementary measurements give basis for numerical simulations in SolidWorks software. Numerical analysis assists to interpret results, for example by sensitivity study of heat transfer depending on emissivity.
|
|
|
The thermal calculation of a induction furnace
Hradilová, Irena ; Raček, Jiří (referee) ; Lázničková, Ilona (advisor)
This work deals with induction devices, in particular temperature computations of induction devices. The thesis is divided into three parts. In the first part, we give basic definitions of inductive warming and theoretical know ledge of heat induction that are needed to understand the problem of inductive warming. In the second part, we describe the principle of induction devices. We focused on crucible furnace which is described in details. We used this device for thermal computation of induction device. In the last part, we theoretically describe procedure of thermal computation of the most used induction devices, i.e., canal furnace, diathermy induction device, and crucible furnace; the last one is compared with the rest of induction devices from the computation point of view. For the induction crucible furnace, we provide numeric thermal computation at the end.
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