AXIAL FLUX ELECTRIC MACHINE WITH NON-AXISYMMETRIC STATORS

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AXIAL FLUX ELECTRIC MACHINE WITH NON-AXISYMMETRIC STATORS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18132137 titled 'AXIAL FLUX ELECTRIC MACHINE WITH NON-AXISYMMETRIC STATORS

The abstract describes an apparatus that includes an axial flux electric machine with multiple rotors, stators, and a rotatable shaft. The rotors, mounted on the shaft, contain rotor magnets, while the stators, interspersed with the rotors, contain stator magnets arranged asymmetrically about the axis.

The apparatus features an axial flux electric machine with multiple rotors and stators.
Rotors are mounted on a shaft and contain rotor magnets.
Stators are interspersed with the rotors and contain stator magnets arranged asymmetrically.
The design allows for efficient energy conversion and power generation.
The asymmetrical arrangement of stator magnets enhances the performance of the electric machine.

Potential Applications: - Electric vehicles - Wind turbines - Industrial machinery - Renewable energy systems

Problems Solved: - Improved energy efficiency - Enhanced power generation capabilities - Optimal performance in various applications

Benefits: - Increased energy conversion efficiency - Reduced energy consumption - Enhanced power output - Versatile applications in different industries

Commercial Applications: Title: "Innovative Axial Flux Electric Machine for Enhanced Energy Efficiency" This technology can be utilized in electric vehicles, wind turbines, and industrial machinery, offering improved energy efficiency and power generation capabilities. The market implications include increased demand for sustainable energy solutions and enhanced performance in various applications.

Prior Art: Readers can explore prior art related to axial flux electric machines, rotor and stator designs, and energy conversion technologies to understand the evolution of this innovative apparatus.

Frequently Updated Research: Stay updated on the latest advancements in axial flux electric machines, rotor-stator configurations, and energy conversion technologies to enhance your knowledge of this field.

Questions about Axial Flux Electric Machine: 1. How does the asymmetrical arrangement of stator magnets impact the performance of the electric machine? The asymmetrical arrangement of stator magnets enhances the efficiency and power output of the machine by optimizing the magnetic field distribution.

2. What are the key differences between axial flux electric machines and traditional radial flux machines? Axial flux electric machines offer higher power density, efficiency, and compactness compared to traditional radial flux machines, making them ideal for various applications requiring high performance and energy efficiency.

Original Abstract Submitted

An apparatus is provided that is configured as or otherwise includes an axial flux electric machine. This axial flux electric machine includes a plurality of rotors, a plurality of stators and a shaft rotatable about an axis. The rotors are disposed axially along the axis and are mounted to the shaft. Each of the rotors includes a plurality of rotor magnets. The stators are axially interspersed with the rotors along the axis. Each of the stators includes a plurality of stator magnets. The stator magnets of a first of the stators are arranged asymmetrically about the axis.