利用增强型斑点鬣狗优化算法研究了分数阶杆槽对风力发电的影响

Q4 Engineering
Ibrahim M. Aladwan, Hasan Abdelrazzaq AL Dabbas, Ayman. M. Maqableh, Sayel M. Fayyad, Oleksandr Miroshnyk, Taras Shchur, Vadym Ptashnyk
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引用次数: 0

摘要

永磁体机械的设计日益积极发展,常用于风能领域。这种变速传动的主要优点是效率高、功率密度和转矩密度高。在设计双转子永磁体风力发电机时,必须解决正确选择极槽数等问题,以提高效率,使机器成本降到最低。本文采用一种改进的斑点鬣狗优化算法来获得槽极的最优组合。该优化算法可以获得每极分数槽数,并对双转子铁氧体磁体风力发电机的运行效率进行评估。在机器设计的第一阶段,安装各种槽的组合。其次,考虑配置多目标函数的Enhanced Spotted Hyena Optimization (ESHO)算法,从各种槽杆组合中选择最优组合;因此,多目标是反电动势、输出转矩、齿轮转矩、磁链、转矩脉动和损耗的综合。分析结果表明,该算法确定最优槽位组合的效率高于其他槽位组合。研究还发现,槽极组合的选择对永磁电机的高效运行至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
RESEARCH THE EFFECT OF THE FRACTIONAL NUMBER SLOTS OF POLE ON WIND TURBINE GENERATION USING THE ENHANCED SPOTTED HYENA OPTIMIZATION ALGORITHM
The design of machines with permanent magnets is actively developing day by day and is often used in wind energy. The main advantages of such variable speed drives are high efficiency, high power density and torque density. When designing a wind generator with two rotors and permanent magnets, it is necessary to solve such a problem as the correct choice of the number of poles and slots to increase efficiency and minimize the cost of the machine. In this work, an improved spotted hyena optimization algorithm is used to obtain the optimal combination of slots and poles. This optimization algorithm makes it possible to obtain the number of fractional slots per pole and evaluate the operating efficiency of a wind generator with a double rotor and ferrite magnets. At the first stage of machine design, various combinations of slots are installed. Next, the optimal combination is selected from various slot-pole combinations, taking into account the Enhanced Spotted Hyena Optimization (ESHO) algorithm, in which a multi-objective function is configured. Accordingly, the multi-objectives are the integration of reverse electromotive force, output torque, gear torque, flux linkage, torque ripple along with losses. Analysis of the results obtained shows that the proposed algorithm for determining the optimal slot combination is more efficient than other slot combinations. It has also been found that the choice of slot and pole combination is critical to the efficient operation of permanent magnet machines.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
40
审稿时长
10 weeks
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