The objective of this thesis work is the development of an in vessel pick up coil for magnetic measurements in DTT, optimizing its design starting from the present proposal. The sensor must be carefully studied to withstand the harsh environmental conditions inside the vacuum vessel of DTT: high temperature, non-negligible neutron radiation, EM noises and vacuum compatibility. A preliminary investigation based on numerical models has to be carried out. Some tests on proposed material will be performed. The manufacturing of a prototype will allow testing the performances of the investigated design.

The objective of this thesis work is the development of an in vessel pick up coil for magnetic measurements in DTT, optimizing its design starting from the present proposal. The sensor must be carefully studied to withstand the harsh environmental conditions inside the vacuum vessel of DTT: high temperature, non-negligible neutron radiation, EM noises and vacuum compatibility. A preliminary investigation based on numerical models has to be carried out. Some tests on proposed material will be performed. The manufacturing of a prototype will allow testing the performances of the investigated design.

Design of in vessel pick up coils for DTT fusion experiment

VENDRAME, LORENZO
2022/2023

Abstract

The objective of this thesis work is the development of an in vessel pick up coil for magnetic measurements in DTT, optimizing its design starting from the present proposal. The sensor must be carefully studied to withstand the harsh environmental conditions inside the vacuum vessel of DTT: high temperature, non-negligible neutron radiation, EM noises and vacuum compatibility. A preliminary investigation based on numerical models has to be carried out. Some tests on proposed material will be performed. The manufacturing of a prototype will allow testing the performances of the investigated design.
2022
Design of in vessel pick up coils for DTT fusion experiment
The objective of this thesis work is the development of an in vessel pick up coil for magnetic measurements in DTT, optimizing its design starting from the present proposal. The sensor must be carefully studied to withstand the harsh environmental conditions inside the vacuum vessel of DTT: high temperature, non-negligible neutron radiation, EM noises and vacuum compatibility. A preliminary investigation based on numerical models has to be carried out. Some tests on proposed material will be performed. The manufacturing of a prototype will allow testing the performances of the investigated design.
DTT facility
Inductive sensors
Finite elements
Frequency response
Lauree triennali
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/52874