Energy-Preserving Methods and Torque Computation From Energy Balance in Electrical Machine Simulations

Lauri Perkkiö; Paavo Rasilo; Bishal Silwal; Antti Hannukainen; Antero Arkkio; Timo Eirola

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Energy-Preserving Methods and Torque Computation From Energy Balance in Electrical Machine Simulations

机译：电机仿真中的能量守恒方法和转矩平衡计算

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The finite-element analysis for the simulation of magnetic fields in electrical machines leads to an index-1 differential-algebraic equation (DAE) (as opposed to a conventional ordinary differential equation), because the electrical conductivity can be zero in certain regions. First, we construct a DAE-compatible time integration scheme which is energy-balanced, meaning that in a linear system, the input stored and lost powers sum exactly to zero. Second, we use a method based on the energy balance to compute torque. We show that the energy balance method approaches the virtual work principle applied at remeshing layer, as the time step is refined. A similar result also holds if the rotation of the rotor is implemented by Nitsche’s method, which is an instance of the so-called mortar methods.

机译：由于电机的电导率在某些区域可能为零，因此对电机中的磁场进行模拟的有限元分析导致了指数为1的微分代数方程（DAE）（与常规的常微分方程相反）。首先，我们构建了一个能量平衡的DAE兼容时间积分方案，这意味着在线性系统中，输入的存储功率和损耗功率之和精确为零。其次，我们使用一种基于能量平衡的方法来计算扭矩。我们表明，随着时间步长的细化，能量平衡方法趋近于在重新网格化层应用的虚拟工作原理。如果转子的旋转通过Nitsche的方法实现，这也是所谓的迫击炮方法的一个实例，那么类似的结果也会成立。

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来源
《IEEE Transactions on Magnetics》 |2016年第8期|1-8|共8页
作者
Lauri Perkkiö; Paavo Rasilo; Bishal Silwal; Antti Hannukainen; Antero Arkkio; Timo Eirola;
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作者单位

Department of Mathematics and Systems Analysis, Aalto University, Aalto, Finland;

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原文格式 PDF
正文语种 eng
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关键词
Electric machine; energy balance; non-matching mesh; torque;

机译：电机;能量平衡;不匹配的网格;转矩;

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Energy-Preserving Methods and Torque Computation From Energy Balance in Electrical Machine Simulations

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