Abstract EN:

This work of thesis concerns the understanding of the behavior of the systems of insulation of the alternative(alternate) rotating machines working under very high-temperature. The main domain of application of these machines is the one of the smoke ejection of tunnels and underground parkings during fires. During this phase of critical functioning, the temperature within the machine can achieve near 400°C. Under such thermal constraints the behavior of polymer insulations establishing(constituting) the system of insulation of these engines is known at present badly. The first part(party) of this work consisted in raising(drawing up) a state of the art of isolation materials used(employed) at present on the conception of the insulation of such machines. Our attention concerned to the insulation between the turns of the windings. So as to bring to light possible correlations between the damages undergone by insulations under these severe thermal constraints and their electric properties, physico-chemical measures and diélectriques measures were realized. The description of the experimental devices used as well as used(employed) experimental protocols are the object of the second part(party) of this work. The detailed results(profits) are then presented in the third part(party). Our results(profits) create an evolution of the diélectriques sizes(greatnesses) which seems in good agreement with the measures allowing to estimate(esteem) the state of progress(promotion) of the damages of the insulating material according to the trial temperature. The chapter four is then dedicated to the exploitation(operation) of these results(profits). The analysis of gases of decomposition allowed to propose plans of damages of studied insulations.