A Combined Design Procedure of High-Speed/High-Power PMSMs for an Adiabatic Compressed Air Energy Storage System

Andrea Floris;Alfonso Damiano;Alessandro Serpi

2024-01-01

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Abstract

This paper presents a Combined Design Procedure (CDP) applied to modular high-speed/high-power Permanent Magnet Synchronous Machines (PMSMs) for an Adiabatic Compressed Air Energy Storage system (ACAES). Particularly, the modular structure enables higher maximum speed and flexibility compared to a monolithic PMSM as a suitable number of identical mechanically series-connected modules can be employed. These share the same speed and contribute together to the high overall power required by ACAES, thus avoiding excessive volume requirements and low-speed operation. The modular PMSM design has been accomplished by the proposed CDP, which exhibits multi-physic and optimization features thanks to both analytical and Finite Element Analysis (FEA) approaches. The former enables a rapid preliminary design that satisfies a given objective function, by complying with all electromagnetic and mechanical constraints. Such a preliminary design is then refined by the FEA approach, which accounts also for thermal constraints, and guarantees a better cost function optimization through a genetic algorithm. In this regard, different objective functions have been considered, leading to different PMSM configurations. The corresponding performance analysis reveals that all PMSM configurations comply with electromagnetic, mechanical, and thermal constraints, by guaranteeing design specifications as well.