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Optimal design of electromechanical devices using a hybrid finite element/air-gap element method

机译：混合有限元/气隙元件法的机电装置最优设计

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This paper contributes a mathematical framework for rotating electric machine optimal design. The proposed method utilizes a hybrid finite element/air-gap macro-element method, with steepest descent optimization. In particular, the air-gap element is advantageous for torque optimization, since it directly yields a smooth magnetic field function in the air-gap and an analytic expression for torque, based on the magnetic potential solution at the vertices of the finite element mesh. The sensitivity of an arbitrary objective function with respect to changes in geometric design parameters can be used in the steepest descent method. For illustration purposes, the optimization process is applied to a simple electromagnet for torque maximization.

机译：本文有助于旋转电机最佳设计的数学框架。该方法利用混合有限元/空气间隙宏观元件方法，具有截至最陡的下降优化。特别地，气隙元件对于扭矩优化是有利的，因为基于有限元啮合的顶点的磁电势溶液，它直接在空气间隙中和用于扭矩的分析表达式的光滑磁场功能。任意目标函数关于几何设计参数变化的敏感性可以在最陡的下降方法中使用。出于说明目的，优化过程应用于用于扭矩最大化的简单电磁铁。

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《IEEE Power and Energy Conference at Illinois 》|2013年||共8页
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Li Yanni; Aliprantis Dionysios C.;
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1. THEORETICAL ELEMENTS FOR ENERGETIC MODELS AND PHYSICAL DESIGN OF ELECTROMECHANICAL DEVICES, PART II: VARIATIONAL METHODS ON ENERGY, CO-ENERGY AND ACTION [J] . RAFAEL SANCHEZ GRANDIA, RAFAEL VIVES FOS, VICENTE AUCEJO GALINDO, Serie Electrotechnique et Energetique . 2006 ,第2期

机译：机电设备的能量模型和物理设计的理论元素，第二部分：能量，共能和作用的变化方法
2. THEORETICAL ELEMENTS FOR ENERGETIC MODELS AND PHYSICAL DESIGN OF ELECTROMECHANICAL DEVICES, PART I: THERMODYNAMIC METHODS [J] . RAFAEL SANCHEZ GRANDIA, RAFAEL VIVES FOS, VICENTE AUCEJO GALINDO, Serie Electrotechnique et Energetique . 2005 ,第4期

机译：机电设备的能量模型和物理设计的理论要素，第一部分：热力学方法
3. Application of the fast multipole method to the 2D finite element-boundary element analysis of electromechanical devices [J] . R.V. Sabariego, J. Gyselinck, C. Geuzaine, Compel . 2003 ,第3期

机译：快速多极子方法在机电设备二维有限元边界元分析中的应用
4. Optimal design of electromechanical devices using a hybrid finite element/air-gap element method [C] . Li Yanni, Aliprantis Dionysios C. 2013 IEEE Power and Energy Conference at Illinois . 2013

机译：混合有限元/气隙单元法的机电设备优化设计
5. Optimum partitioning strategies in partitioned finite element analysis of electromechanical devices. [D] . Cole, John H. 2011

机译：机电设备分区有限元分析中的最佳分区策略。
6. An Optimum Fatigue Design of Polymer Composite Compressed Natural Gas Tank Using Hybrid Finite Element-Response Surface Methods [O] . Kazem Reza Kashyzadeh, Seyed Saeid Rahimian Koloor, Mostafa Omidi Bidgoli, 2021

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7. Application of the fast multipole method to the 2D finite element-boundary element analysis of electromechanical devices [O] . Sabariego Ruth, Gyselinck J, Geuzaine C, 2003

机译：快速多极子方法在机电设备二维有限元边界元分析中的应用
8. An Investigation of the Method of Finite Elements with Accuracy Comparisons to the Method of Finite Differences for Solution of the Transient Heat Conduction Equation Using Optimum Implicit Formulations. [R] . geneczko,joseph c. 1978

机译：用最优隐式公式求解瞬态热传导方程有限差分法精度有限元法的研究。

Optimal design of electromechanical devices using a hybrid finite element/air-gap element method

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