| 开本:3开 |
| 纸张:胶版纸 |
| 包装:平装 |
| 是否套装:否 |
| 国际标准书号ISBN:9787301368145 |
| 所属分类:图书>工业技术>能源与动力工程 |
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异步电机效率测控与电机系统
孙群 著 著
出 版 社北京大学出版社
页数
出版日期年月日
装帧平装
本书可供从事电机系统效率和开关磁阻电机系统等方向研究工作的科研人员、研究生,以及电机企业工程技术人员参考。 ●目 录第 章 绪论 ·················································································· 电机效率及其测控技术概述 ····················································· 电机效率的定义与重要性 ··············································· 电机效率测控技术的发展 ··············································· 电机效率测控技术的挑战 ··············································· 电机效率测控的常见方法 ··············································· 电机系统概述 ··································································· 电机与应用概述 ······················································· 电机运行机理与数学模型 ········································· 电机功率变换器 ····················································· 电机转矩脉动问题概述 ························································· 参考文献 ·················································································· 第 章 异步电机效率测控 ··························································· 基于优选功率点与最小损耗点跟踪的光伏水泵系统效率优化 ······· 引言 ········································································ 系统原理 ·································································· 系统效率提升方法 ······················································ 和 耦合 ··················································· 试验结果 ·································································· 结论 ········································································ 基于调速器的给水泵驱动的超大型鼠笼式三相异步电动机试验分析 ···· 前言 ········································································ 异步电动机的启动 ······················································ 基于 的超大型鼠笼式三相异步电动机试验分析 ··········· 结论 ········································································ 基于多目标进化算法的异步电动机现场实时效率测算 ·················· 引言 ········································································ 多目标进化算法 ························································· 异步电动机效率现场实时估算的多目标进化算法 ··············· 试验结果 ·································································· 结论 ········································································ 基于细菌觅食算法的异步电动机现场效率估算 ························· 引言 ········································································ 异步电动机等效电路 ··················································· 优化算法 ······························································ 异步电动机 算法效率估算流程 ·································· 试验与分析 ······························································· 结论 ········································································ 基于高阶滑模控制的异步牵引电动机可变损耗最小化 ················ 引言 ········································································ 异步牵引电动机铁损非线性模型 ···································· 基于优选效率目标的异步牵引电动机很优转子磁链数学模型 ········································································ 异步电动机铁损超螺旋滑模控制 ···································· 仿真分析与试验结果 ··················································· 结束语 ····································································· 异步风力发电机复合跟踪控制 ·············································· 引言 ········································································ 模糊 调节器 设计 ············································ 基于解析方法的 设计 ·········································· 跟踪控制系统设计原理 ················································ 仿真与试验 ······························································· 结论 ······································································· 参考文献 ················································································· 第 章 电机功率变换及控制 ················································ 高速运行转矩控制 ····················································· 引言 ······································································· 运行控制特点 ···················································· 基于相绕组间电流 的高速运行转矩控制 ·················· 仿真分析 ································································· 试验研究 ································································· 结论 ······································································· 电动车辆牵引驱动的 初始转子位置估计 ························· 引言 ······································································· 基于 的算法原理 ················································ 试验分析 ································································· 结论 ······································································· 一种 功率变换器故障诊断方法 ····································· 引言 ······································································· 四相 不对称半桥式功率变换器故障特点 ·················· 四相 不对称半桥式功率变换器故障诊断方法 ············ 试验结果 ································································· 结论 ······································································· 基于新型功率变换器与励磁电压扰动法的 风力发电控制 ·············································································· 引言 ······································································· 功率变换器 ······························································ 新型自励解耦型功率变换器的运行原理及理论分析 ··········· 基于励磁电压扰动的 控制方法 ····························· 仿真分析与试验验证 ·················································· 结语 ······································································· 开关磁阻风力发电机变电压功率变换器 ································· 引言 ······································································· 开关磁阻风力发电机功率变换器设计方案 ······················· 总结 ······································································· 开关磁阻风力发电机变励磁电压 控制 ·························· 引言 ······································································· 功率变换器 ······························································ 单神经元自适应 控制 ·································· 仿真与试验 ······························································ 结论 ······································································· 一种高速 功率变换器及其 风电控制 ······················· 引言 ······································································· 功率变换器 ······················································· 功率变换器仿真与试验 ··············································· 变速风电控制策略 ····················································· 变速风电仿真结果 ····················································· 结论 ······································································· 一种开关磁阻风力发电机新型功率变换系统及其 控制 ····· 引言 ······································································· 功率变换器 ······························································ 基于励磁电压扰动的控制策略 ······································ 仿真分析 ································································· 试验验证 ································································· 结论 ······································································· 高速开关磁阻风力发电机功率变换器与 控制 ················· 引言 ······································································· 新型功率变换器与 数学模型 ·································· 变速风电下高速 控制策略 ····································· 仿真与试验 ······························································ 结语 ······································································· 参考文献 ················································································· 第 章 转矩脉动抑制控制 ·························································· 的低转矩脉动低铜损直接瞬时转矩控制 ·························· 前言 ······································································· 基于转矩分配策略的直接瞬时转矩控制 ·························· 降低 转矩脉动与铜损的转矩分配新策略 ·················· 仿真与试验 ······························································ 结论 ······································································· 电机双目标降低转矩脉动方法 ··········································· 引言 ······································································· 系统转矩脉动最小化模型 ····································· 控制器设计 ······························································ 仿真与试验 ······························································ 结论 ······································································· 无刷直流电动机转矩脉动抑制 ············································· 引言 ······································································· 无刷直流电机转矩脉动分析 ········································· 非换相区转矩脉动抑制方法 ········································· 换相区转矩脉动抑制方法 ············································ 试验结果 ································································· 结论 ······································································· 参考文献 ················································································· 第 章 海上全直流风电场设计及其经济性分析 ····················· 一种海上风电场全直流电能汇聚设计方案 ······························ 引言 ······································································· 风电场新型直流输电拓扑结构 ······································ 基于 拓扑结构的风电场设计 ······························· 仿真分析 ································································· 结论 ······································································· 海上风电场全直流汇集结构经济性分析 ································· 引言 ······································································· 海上风电场全直流汇集结构 ········································· 串并联结构与 拓扑结构风电场成本效益模型 ······· 定量分析 ································································· 结论 ······································································· 参考文献 ·················································································
本书首先对广泛应用的异步电机的效率问题展开论述,包括:基于光伏供电的水泵异步电机优选功率点和最小损耗点跟踪控制,超大型水泵异步电机高效设计与实验问题,采用多目标进化算法和细菌觅食算法的异步电机现场效率测算方法,采用高阶滑模控制的异步电机可变损耗测控方法,复合跟踪控制的异步风力发电机等。对于前景广阔的开关磁阻电机,主要针对其功率变换及控制问题展开讨论,包括:开关磁阻电机高速运行下转矩控制,作为高速风力发电机时功率变换器设计和连续导通、优选功率点跟踪控制问题,开关磁阻电机初始转子位置估计方法,典型功率变换器的故障诊断方法,作为变速风力驱动下开关磁阻发电机的多种新型功率变换器设计和优选功率点跟踪控制方法等。转矩脉动问题一直是困扰开关磁阻电机和无刷直流电机应用的大问题,本书分三个主题针对开关磁阻电机和无刷直流电机的转矩脉动抑制问题进行了讨论。,聚焦海上风电场全直流电能汇聚设计及其经济性问题,提
孙群 著 著
孙群 中国计量大学现代科技学院副教授、硕士生导师中国电工技术学会会员。研究方向为电机及其控制、电力电子与电能变换技术近年来尤其在异步电机效率测控和开关磁阻电机功率变换领域产生了较多成果。主持纵横向课题余项发表学术论文近篇申请发明专利近百件已授权余件。
异步电机效率测控与电机系统
孙群 著 著
出 版 社北京大学出版社
页数
出版日期年月日
装帧平装
本书可供从事电机系统效率和开关磁阻电机系统等方向研究工作的科研人员、研究生,以及电机企业工程技术人员参考。 ●目 录第 章 绪论 ·················································································· 电机效率及其测控技术概述 ····················································· 电机效率的定义与重要性 ··············································· 电机效率测控技术的发展 ··············································· 电机效率测控技术的挑战 ··············································· 电机效率测控的常见方法 ··············································· 电机系统概述 ··································································· 电机与应用概述 ······················································· 电机运行机理与数学模型 ········································· 电机功率变换器 ····················································· 电机转矩脉动问题概述 ························································· 参考文献 ·················································································· 第 章 异步电机效率测控 ··························································· 基于优选功率点与最小损耗点跟踪的光伏水泵系统效率优化 ······· 引言 ········································································ 系统原理 ·································································· 系统效率提升方法 ······················································ 和 耦合 ··················································· 试验结果 ·································································· 结论 ········································································ 基于调速器的给水泵驱动的超大型鼠笼式三相异步电动机试验分析 ···· 前言 ········································································ 异步电动机的启动 ······················································ 基于 的超大型鼠笼式三相异步电动机试验分析 ··········· 结论 ········································································ 基于多目标进化算法的异步电动机现场实时效率测算 ·················· 引言 ········································································ 多目标进化算法 ························································· 异步电动机效率现场实时估算的多目标进化算法 ··············· 试验结果 ·································································· 结论 ········································································ 基于细菌觅食算法的异步电动机现场效率估算 ························· 引言 ········································································ 异步电动机等效电路 ··················································· 优化算法 ······························································ 异步电动机 算法效率估算流程 ·································· 试验与分析 ······························································· 结论 ········································································ 基于高阶滑模控制的异步牵引电动机可变损耗最小化 ················ 引言 ········································································ 异步牵引电动机铁损非线性模型 ···································· 基于优选效率目标的异步牵引电动机很优转子磁链数学模型 ········································································ 异步电动机铁损超螺旋滑模控制 ···································· 仿真分析与试验结果 ··················································· 结束语 ····································································· 异步风力发电机复合跟踪控制 ·············································· 引言 ········································································ 模糊 调节器 设计 ············································ 基于解析方法的 设计 ·········································· 跟踪控制系统设计原理 ················································ 仿真与试验 ······························································· 结论 ······································································· 参考文献 ················································································· 第 章 电机功率变换及控制 ················································ 高速运行转矩控制 ····················································· 引言 ······································································· 运行控制特点 ···················································· 基于相绕组间电流 的高速运行转矩控制 ·················· 仿真分析 ································································· 试验研究 ································································· 结论 ······································································· 电动车辆牵引驱动的 初始转子位置估计 ························· 引言 ······································································· 基于 的算法原理 ················································ 试验分析 ································································· 结论 ······································································· 一种 功率变换器故障诊断方法 ····································· 引言 ······································································· 四相 不对称半桥式功率变换器故障特点 ·················· 四相 不对称半桥式功率变换器故障诊断方法 ············ 试验结果 ································································· 结论 ······································································· 基于新型功率变换器与励磁电压扰动法的 风力发电控制 ·············································································· 引言 ······································································· 功率变换器 ······························································ 新型自励解耦型功率变换器的运行原理及理论分析 ··········· 基于励磁电压扰动的 控制方法 ····························· 仿真分析与试验验证 ·················································· 结语 ······································································· 开关磁阻风力发电机变电压功率变换器 ································· 引言 ······································································· 开关磁阻风力发电机功率变换器设计方案 ······················· 总结 ······································································· 开关磁阻风力发电机变励磁电压 控制 ·························· 引言 ······································································· 功率变换器 ······························································ 单神经元自适应 控制 ·································· 仿真与试验 ······························································ 结论 ······································································· 一种高速 功率变换器及其 风电控制 ······················· 引言 ······································································· 功率变换器 ······················································· 功率变换器仿真与试验 ··············································· 变速风电控制策略 ····················································· 变速风电仿真结果 ····················································· 结论 ······································································· 一种开关磁阻风力发电机新型功率变换系统及其 控制 ····· 引言 ······································································· 功率变换器 ······························································ 基于励磁电压扰动的控制策略 ······································ 仿真分析 ································································· 试验验证 ································································· 结论 ······································································· 高速开关磁阻风力发电机功率变换器与 控制 ················· 引言 ······································································· 新型功率变换器与 数学模型 ·································· 变速风电下高速 控制策略 ····································· 仿真与试验 ······························································ 结语 ······································································· 参考文献 ················································································· 第 章 转矩脉动抑制控制 ·························································· 的低转矩脉动低铜损直接瞬时转矩控制 ·························· 前言 ······································································· 基于转矩分配策略的直接瞬时转矩控制 ·························· 降低 转矩脉动与铜损的转矩分配新策略 ·················· 仿真与试验 ······························································ 结论 ······································································· 电机双目标降低转矩脉动方法 ··········································· 引言 ······································································· 系统转矩脉动最小化模型 ····································· 控制器设计 ······························································ 仿真与试验 ······························································ 结论 ······································································· 无刷直流电动机转矩脉动抑制 ············································· 引言 ······································································· 无刷直流电机转矩脉动分析 ········································· 非换相区转矩脉动抑制方法 ········································· 换相区转矩脉动抑制方法 ············································ 试验结果 ································································· 结论 ······································································· 参考文献 ················································································· 第 章 海上全直流风电场设计及其经济性分析 ····················· 一种海上风电场全直流电能汇聚设计方案 ······························ 引言 ······································································· 风电场新型直流输电拓扑结构 ······································ 基于 拓扑结构的风电场设计 ······························· 仿真分析 ································································· 结论 ······································································· 海上风电场全直流汇集结构经济性分析 ································· 引言 ······································································· 海上风电场全直流汇集结构 ········································· 串并联结构与 拓扑结构风电场成本效益模型 ······· 定量分析 ································································· 结论 ······································································· 参考文献 ·················································································
本书首先对广泛应用的异步电机的效率问题展开论述,包括:基于光伏供电的水泵异步电机优选功率点和最小损耗点跟踪控制,超大型水泵异步电机高效设计与实验问题,采用多目标进化算法和细菌觅食算法的异步电机现场效率测算方法,采用高阶滑模控制的异步电机可变损耗测控方法,复合跟踪控制的异步风力发电机等。对于前景广阔的开关磁阻电机,主要针对其功率变换及控制问题展开讨论,包括:开关磁阻电机高速运行下转矩控制,作为高速风力发电机时功率变换器设计和连续导通、优选功率点跟踪控制问题,开关磁阻电机初始转子位置估计方法,典型功率变换器的故障诊断方法,作为变速风力驱动下开关磁阻发电机的多种新型功率变换器设计和优选功率点跟踪控制方法等。转矩脉动问题一直是困扰开关磁阻电机和无刷直流电机应用的大问题,本书分三个主题针对开关磁阻电机和无刷直流电机的转矩脉动抑制问题进行了讨论。,聚焦海上风电场全直流电能汇聚设计及其经济性问题,提
孙群 著 著
孙群 中国计量大学现代科技学院副教授、硕士生导师中国电工技术学会会员。研究方向为电机及其控制、电力电子与电能变换技术近年来尤其在异步电机效率测控和开关磁阻电机功率变换领域产生了较多成果。主持纵横向课题余项发表学术论文近篇申请发明专利近百件已授权余件。