Design and simulation of core-ring magnet configurations for maximising energy transduction in linear actuators and micro-energy generators

机译：设计和仿真用于最大程度地减少线性执行器和微能量发生器中的能量传递的磁环磁体结构

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The Linear energy harvesters and actuators employ electromagnetic induction principles to generate electrical energy or motion. The most common configurations for such actuators are cylindrical ring magnets with coils inside or cylindrical magnets with coils surrounding the magnets. A series of numerical FEA analyses were performed to design and simulate different core-ring magnet configurations to identify the best possible combination for maximum energy transduction. It was observed that the tapered ring magnet - tapered core configuration had the highest magnetic spatial variation and thus suitable for maximum energy transduction. This study can be applied to design linear actuators, linear electromagnetic energy harvesters and from microscale to macroscale applications.

机译：线性能量采集器和执行器采用电磁感应原理来产生电能或运动。这种致动器的最常见配置是内部带有线圈的圆柱形环形磁体或带有围绕磁体的线圈的圆柱形磁体。进行了一系列的数值有限元分析，以设计和模拟不同的磁芯-环形磁体配置，以找出实现最大能量转换的最佳组合。已经观察到，锥形环形磁体-锥形铁心构造具有最大的磁性空间变化，因此适合于最大的能量转换。该研究可用于设计线性致动器，线性电磁能量收集器，以及从微观到宏观的应用。

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《International Conference on Energy Efficient Technologies for Sustainability》|2016年|796-801|共6页
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Rathishchandra R. Gatti; Ian. M. Howard; Mikail F. Lumentut;
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Magnetic cores; Magnetic flux; Magnetostatics; Coils; Trajectory; Actuators;

机译：磁芯;磁通量;磁静力学;线圈;轨迹;作动器;

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4. Design and simulation of core-ring magnet configurations for maximising energy transduction in linear actuators and micro-energy generators [C] . Rathishchandra R. Gatti, Ian. M. Howard, Mikail F. Lumentut International Conference on Energy Efficient Technologies for Sustainability . 2016

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Design and simulation of core-ring magnet configurations for maximising energy transduction in linear actuators and micro-energy generators

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