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液氮泵用低温永磁同步电机电磁设计

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低温环境下电机材料电磁特性变化,导致常规电磁设计方法不适用液氮泵用永磁同步电机.本文提出一种基于类比法的液氮泵用低温永磁同步电机的快速设计方法,探讨了低温永磁电机电磁负荷及电流密度选取、电磁设计理论推导和电磁特性分析,并对电机输出转矩进行优化.结果表明:电机的电流密度选取不宜过小,在8~12 A/mm2较为合适.为达到绕组热平衡,电机线负荷与电流密度的选取大致呈反比的关系.设计的低温永磁电机较常温永磁电机体积缩小约32%,且电磁特性基本保持一致,验证了设计方法的有效性.转矩优化后平均转矩提升了 3.8%,转矩脉动降低了 0.5%,达到了电机输出转矩要求.
Electromagnetic design of cryogenic permanent magnet synchronous motor for liquid nitrogen pumps
Suffering from the cryogenic environment,electromagnetic characteristics of materials in electric machines change,which make it difficult to perform the electromagnetic designation using conventional methods for cryogenic permanent magnet synchronous motors(CPMM).A rapid design method for cryogenic permanent magnet synchronous motor was proposed for liquid nitrogen pump based on analogy method,the selection of electromagnetic load and current density of CPMM was discussed,including the derivation of electromagnetic design theory and analysis of electromagnetic characteristics.The output torque of the motor was optimized.The results show that the current density of the motor should not be selected too small,and it is more suit-able to be selected at 8~12 A/mm2.In order to achieve the thermal balance of the windings,the motor electric loading is rough-ly inversely proportional to the selection of the current density.The volume of the designed cryogenic PM motor is reduced by a-bout 32%compared with that of the normal-temperature PM motor,and the electromagnetic characteristics of two motors remain basically consistent,which verifies the effectiveness of the design method.The average torque is improved by 3.8%after torque optimization,and the torque pulsation is reduced by 0.5%,which satisfy the requirement of the motor output torque.

Cryogenic environmentPermanent magnet synchronous motorLN2 pumpElectromagnetic loadMotor design

艾立旺、刘阳、李娜、蒋思远、许孝卓

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河南理工大学电气工程与自动化学院,焦作 454003

河南省煤矿装备智能检测与控制重点实验室,焦作 454003

国网焦作供电公司,焦作 454000

低温环境 永磁同步电机 液氮泵 电磁负荷 电机设计

国家自然科学基金国家自然科学基金河南省高等学校重点科研项目计划河南理工大学自然科学基金河南省科技攻关项目河南理工大学青年骨干教师资助计划

523070505217703924A470005J2024-52421022410482024XQG-01

2024

10.16711/j.1001-7100.2024.08.010

低温与超导
中国电子科技集团公司第十六研究所

低温与超导

北大核心
影响因子:0.243
ISSN:1001-7100
年,卷(期):2024.52(8)