Marco Satrústegui scite author profile

The prediction of the thermal behaviour of electric motors in the early stages of their design is a critical factor for reducing time and cost in the design process. In complex machine topologies such as open self-ventilated machines, there are several phenomenas to take into accou n ti no r d e rt op r e d i c tt h ec o r r e c tt h e r m a lb e h a v i o u ro ft h em a c h i n e .I nt h i s study, a thermal model coupled with a hydraulic model is presented. These models provide information of the thermal behaviour of the machine. First, the complete thermal circuit is described, with some emphasis in the specially modelled parts. Then, the heat transfer coefficients for each surface inside the machine are presented, by the use of dimensionless correlations that avoids the need of previous knowledge. Moreover, the hydraulic model of the machine is studied, and also the coupling methodology between the two models is described for both steady state and transient calculations. Finally, the results from the model are validated using the data from two experimental runs, the first one with constant torque and speed, and the other with variable power, in a standardised service cycle, with a difference in the rotor bars and the stator winding below ±10°C.

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Design criteria for water cooled systems of induction machines

Satrústegui

Martínez-Iturralde

Ramos

et al. 2017

Applied Thermal Engineering

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Marco Satrústegui

Direct Liquid Cooling Method Verified With an Axial-Flux Permanent-Magnet Traction Machine Prototype

Improving the Performance of a 1-MW Induction Machine by Optimally Shifting From a Three-Phase to a Six-Phase Machine Design by Rearranging the Coil Connections

Analysis of relevant aspects of thermal and hydraulic modeling of electric machines. Application in an Open Self Ventilated machine

Coupled thermal and hydraulic algebraic models for an open self‐ventilated induction machine

Design criteria for water cooled systems of induction machines

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