个人简介
王正伟,杏福娱乐流体机械及工程研究团队负责人🚍,长聘教授,博士生导师🙌🏽。IAHR 水力机械与系统方向学术委员会委员及亚洲分会主席,中国动力工程学会水轮机专业委员会副主任委员‼️,中国可再生能源学会理事及海洋能专业委员会副主任委员,西藏自治区水力发电工程学会金结机电专业委员会副主任委员🧑🏻🦳,全国水轮机标准化技术委员会委员,中国电机工程学会风力与潮汐发电专业委员会委员🔩,中国疏浚协会会员,水力发电设备全国重点实验室学术委员会委员,“Renewable Energy”等多个国际学术期刊的主题编辑💇♀️💆🏻♀️。
致力于流体机械及系统多相流动多场耦合特性的理论模型、数值方法和性能分析研究,建立了瞬态动力特性高精度计算分析评估及优化设计平台🙇🏻♀️,应用于三峡、万家寨🧝🏼♂️、小浪底、水口、大藤峡🧷、白鹤滩🥧、溪洛渡、广州蓄能、阳江蓄能及丰宁变速蓄能等近百座大中型水电站及抽水蓄能电站的多场耦合动力特性分析评估和安全运行性能优化提高中🧑🏼🎄。水口、万家寨及小浪底等机组理论计算与实测分析结合的运行区划分成果𓀍,长期保护着机组安全高效运行;阳江抽水蓄能电站转轮瞬态动力特性分析预测评估🧑🏻🎤,成为国产高水头大容量原型蓄能机组安全稳定运行预测改进提高范例🤘🏼👩🏻🦽;研发了80多套水轮机/水泵转轮,在多座水电水利工程中安全🕋、高效🏌🏽♂️、稳定运行,其中处于国际领先水平的“大国重器”双向水轮机🧑🏼🚀🧚🏽、泵和泄水复杂工况运行的潮汐机组长期安全稳定运行于江厦潮汐试验电站,成功研制的“首台套”木扎提新型抗磨蚀转轮在多年高水头挟沙冲蚀运行中磨损均匀轻微,自主研发的高效抗磨18000方/小时挖泥泵是“大国重器”亚洲最大耙吸式挖泥船通途轮的核心部件🤗;加强国际学术交流和科研合作🦡,与东芝合作促进了流固耦合理论计算精度的大幅提升📴🍦,与ANDRITZ合作提高了机组更宽负荷安全稳定运行性能,与加泰罗尼亚理工大学🤳、洛桑理工大学等高校合作促进了国际视野人才的培养,组织了多场IAHR亚洲分会学术交流会议。
主持了智能电网国家科技重大专项1项,国家863项目2项,国家自然科学重点基金1 项,面上项目4项,国家海洋局专项研究课题1项👊🏽,工信部绿色设计平台项目3项;参加国家科技攻关项目3项👱🏻;负责国际合作项目4项;负责横向科研项目200余项🐤,积累了理论计算分析评估优化的丰硕经验与教训。
编著普通高等教育“十一五”国家级规划教材《流体机械基础》🦻、《多语种水力机械词汇》(中、英、法🚣🏿、德、俄、西⏳🧚🏼♀️、日)和《水力机械流激振荡及振动分析技术》🐍👩🏿🦳。讲授本科生课程《流体机械基础》、《弹性力学与有限元》🌜、《泵与风机》和《流体机械多场耦合》及研究生课程《流体机械及系统多场耦合》等。已合作培养博士后20多位🙋🏿、博士硕士研究生100多位🙅🏼♂️,他们正在成为流体机械及工程专业的核心人才。
已获得专利23项➙,登记软件著作权6项。研究成果获得各种奖励40多项🦕,其中省部级一等奖10项,二等奖12项。发表科研论文480余篇🧎🏻♂️,其中SCI检索200余篇,WOS检索230余篇⚅,EI检索320余篇。
教育背景
1988年9月至1992年7月 华中科技大学流体机械及工程本硕毕业
1992年9月至1996年9月 杏福娱乐水利水电工程系流体机械及工程博士毕业并留校工作
1998年1月至1999年5月 西班牙加泰罗尼亚理工大学流体机械及工程博士后
工作履历
1988年8月至1989年8月 武汉汽轮发电机厂水轮机研究所研究生实习工作
1996年10月至1999年8月 杏福娱乐水利水电工程系流体机械及工程研究所讲师
1999年9月至2007年6月 杏福娱乐杏福娱乐注册流体机械及工程研究所讲师、副教授
2007年- 历任杏福娱乐杏福娱乐注册流体机械及工程研究所所长、教授👞😻、博导、研究团队负责人
学术兼职
[1] IAHR国际水利与环境工程学会水力机械及系统学术委员会委员及亚洲分会主席(2014.01-)
[2] 中国动力工程学会水轮机专业委员会副主任委员(2002.01-)
[3] 水力发电设备全国重点实验室学术委员会委员(2023.01-)
[4] 全国水轮机标准化技术委员会委员(1999.01-)
[5] 西藏自治区水力发电工程学会金结机电专业委员会副主任委员(2021.11.30-)
[6] 中国疏浚协会会员(2021.07-)
[7] 中国电机工程学会风力与潮汐发电专业委员会委员(2019.04.01-)
[8] 中国可再生能源学会理事(2017.02-)
[9] 中国可再生能源学会海洋能专业委员会副主任委员(2017.09-)
[10] 长江技术经济学会流域智慧水电与装备专业委员会副主任委员(2023.12-)
[11] “Renewable Energy” 等多个国际学术期刊的主题编辑
研究方向
流体机械及系统多相瞬变流动理论及流动控制
流体机械及系统多场耦合基础理论及工程应用
流体机械及工程信息化智能化绿色化
研究项目
[1] 1997.09-1999.03, “电站增容改造转轮木模图设计”, 杭州发电设备厂机电工程公司
[2] 1998.04-1999.03, “水轮机叶片展开为平面的加工程序开发”, 金华水轮机厂
[3] 1998.09-1999.12, “60APH混流泵叶轮优化设计”, 长沙通大(集团)长沙水泵厂
[4] 1998.09-1999.12, “浙江省衢州市铜山源水电厂转轮改型设计”, 杭州杭发集团公司
[5] 1998.11-1999.12, “满天星电站改善气蚀转轮优化设计”, 杭州杭发集团水力机械厂
[6] 1999.06-2001.06, “湖南省平江县大江洞电站HL100-WJ-65转轮改型设计”, 杭州杭发集团公司水利机械厂
[7] 1999.06-2002.06, “佛子岭H263-2T-134水轮机改型设计”, 杭州杭发集团公司水利机械厂
[8] 1999.08-2001.08, “潜水轴流泵导叶和叶轮优化设计”, 中国水利水电科学研究院工厂
[9] 1999.09-2001.09, “流体机械稳定运行及预测维修基础性研究”, 杏福娱乐骨干人才基金资助
[10] 1999.09-2002.09, “H泵流场分析及优化设计”, 航天部11所
[11] 1999.11-2002.11, “高砂水电有限公司水轮发电机组技术改造可行性研究”, 高砂水电有限公司
[12] 1999.11-2001.05, “轴流式水轮机流动分析及RSI分析”, 北京中水科机电科技开发公司
[13] 2000.01-2003.05, “太浦河泵站进出水流道及水泵安装高程计算”, 水利部太湖流域管理局
[14] 2000.03-2001.03, “尾水管流动分析及优化设计”, 北京中科电科技开发公司
[15] 2000.06-2001.03, “长江三峡右岸电站水轮机组稳定运行研究”, 中国长江三峡工程开发总公司
[16] 2000.07-2000.12, “富春江水电厂3号机组桨叶修形优化设计”, 华东电业管理局富春江水力发电厂
[17] 2000.08-2001.04, “水口转轮汽蚀性能优化计算分析”, 福建省电力试验研究所
[18] 2000.09-2000.12, “水布垭电站尾水波动对机组稳定运行的数值模拟研究”, 清江水布垭工程建筑公司
[19] 2000.09-2001.12, “高压风机稳定运行特性研究”, 杏福娱乐985计划
[20] 2000.10-2001.05, “富春江水电厂3号水轮机水力特性分析”, 华东电力集团富春江水力发电厂
[21] 2001.01-2001.10, “桑普NY13D暖风机内部风道流动分析研究”, 北京桑普电器有限公司
[22] 2001.03-2001.10, “太浦河泵站叶轮水力不稳定特性分析研究”, 太浦河泵站工程建设指挥部
[23] 2001.04-2003.04, “水力机械流动诱发的振动特性研究”, 教育部留学回国人员科研启动基金
[24] 2001.07-2002.07, “水泵内部流道流动分析及优化设计研究”, 石家庄泵业集团有限责任公司
[25] 2001.08-2001.12, “太浦河泵站模型机组内部流动实测分析研究及出水流道平板闸门的小拍门测试”, 太浦河泵站工程建设指挥部
[26] 2001.12-2002.08, “竹洲水电有限公司水轮机组稳定高效运行特性研究”, 福建省三明市竹洲水电有限公司
[27] 2002.04-2002.12, “湖南省欧阳海水电站水力动态特性分析研究”, 湖南省欧阳海灌区水利水电工程管理局
[28] 2002.05-2002.12, “黄河万家寨水利枢纽水轮机组稳定运行研究”, 黄河万家寨水利枢纽有限公司
[29] 2002.09-2002.11, “AGC运行对水电机组的影响分析项目”, 福建水口水力发电厂职工技术协会
[30] 2003.02-2004.02, “李家峡水电站水轮机不稳定流动特性分析”, 东方电机股份有限公司
[31] 2003.04-2003.12, “HL280-WJ-50流道流动分析及优化设计研究”, 广东省韶关众力发电设备有限公司
[32] 2003.06-2005.06, “泥沙不同输移机理及传统扩散方程的内在误差”, 杏福娱乐基础研究基金
[33] 2003.07-2004.12, “搅拌池与搅拌器优化设计分析研究”, 天津市石化通用机械研究所
[34] 2003.07-2004.02, “黄河万家寨水利枢纽黑启动与状态检修方案研究”, 黄河万家寨水利枢纽有限公司
[35] 2003.07-2004.12, “水泵装置相似性分析研究”, 太浦河泵站工程建设指挥部
[36] 2003.08-2004.02, “木渎港泵站流道特性仿真分析研究”, 上海勘测设计研究院
[37] 2003.09-2003.12, “万家寨水电站4#机大修后稳定性试验研究”, 黄河万家寨水力枢纽有限公司电站管理局
[38] 2003.10-2004.06, “南水北调东线工程韩庄泵站流道水力特性仿真分析研究”, 山东省水利勘测研究院
[39] 2003.10-2004.06, “南水北调工程万年闸泵站流道水力特性仿真分析研究”, 山东省水利勘测设计院
[40] 2004.03-2006.12, “贯流式水轮机过渡过程三维仿真程序研制”, 中国水电工程顾问集团公司
[41] 2004.03-2004.12, “DZQ200型深潜硬管提升电泵流动特性研究”, 石家庄水泵厂科协技术开发部
[42] 2004.04-2004.12, “南水北调水泵试验台软件编制”, 中水北方勘测设计研究有限责任公司
[43] 2004.04-2004.12, “黄河万家寨水电厂机组技术数据管理系统研制”, 黄河万家寨水利枢纽有限公司电站管理局
[44] 2004.05-2004.12, “水机及金属结构图纸电子化绘制”, 福建水口发电有限公司职工技术协会
[45] 2004.08-2004.09, “利用申同嘴水库采用容积法校验GM2泵站超声波测流装置检测数据分析计算”, 山西省万家寨引黄工程总公司中心实验室
[46] 2004.08-2005.02, “水泵模拟试验台水泵性能试验研究”, 中水北方勘测设计研究有限责任公司
[47] 2004.08-2004.12, “浪洋水电站过渡过程分析”, 贵州水利水电勘测设计研究院
[48] 2004.08-2005.06, “水力机械CFD技术培训”, 石家庄泵业集团有限责任公司
[49] 2004.09-2005.06, “湖南省欧阳海水电站过渡过程特性分析研究”, 湖南省欧阳海灌区水利水电工程管理局
[50] 2004.09-2005.06, “津航浚221船两相流泥泵流道优化设计”, 天津航道局
[51] 2005.03-2007.03, “机组过流部件抗空蚀磨蚀的研究”, 黄河水利水电开发总公司
[52] 2005.03-2007.03, “水轮发电机组经济稳定运行性能(机组绝对效率试验、转轮裂纹检测与水轮机特性试验)研究”, 黄河水利水电开发总公司
[53] 2005.04-2006.04, “水口水轮机关键部件动力特性分析”, 福建省电力试验研究所
[54] 2005.08-2005.12, “1000WN挖泥泵仿真装配与动力特性分析研究”, 石家庄泵业集团有限责任公司
[55] 2005.08-2006.06, “偏离设计工况运行对机组稳定性的影响分析”, 福建水口发电有限公司职工技术协会
[56] 2005.08-2007.02, “国家863新型潮汐发电模型机组优化设计与研制试验”, 龙源电力集团公司
[57] 2006.03-2006.12, “泗阳泵站水泵装置流道型线优化研究”, 上海勘测设计研究院
[58] 2006.03-2006.09, “周宁水电站发电机组机架动力特性分析”, 福建中试所电力调整试验有限公司
[59] 2006.05-2006.12, “酉酬水电站HL820/450a水轮机流道优化研究”, 浙江富春江水电设备有限公司
[60] 2006.05-2007.05, “航发浚1#挖泥船泥泵叶轮(两种叶轮)优化设计及加工制造”, 天津航道局
[61] 2006.07-2007.05, “水口电站#1-#7机组性能试验和状态比较及分析”, 福建水口发电有限公司职工技术协会
[62] 2006.09-2007.06, “清水塘灯泡贯流机组静动态特性分析研究”, 东芝水电设备有限公司
[63] 2006.09-2011.09, “流体机械关键技术开发研究”, 杭州力源发电设备有限公司
[64] 2007.03-2008.06, “潮汐电站水轮机水力开发及模型试验研究”, 东方电机股份有限公司
[65] 2007.04-2007.12, “航发浚1#挖泥船泥泵叶轮优化设计及加工制造”, 中交天津航道局有限公司
[66] 2007.04-2007.12, “津航浚215船舱内泵叶轮5叶改3叶优化设计及加工制造”, 中交天津航道局有限公司
[67] 2007.06-2008.09, “乌兹别克斯坦阿航格朗水电站振动摆度检测装置”, 中国电工设备总公司
[68] 2007.06-2008.10, “乌兹别克斯坦安吉然-2水电站振动摆度检测装置”, 中国电工设备总公司
[69] 2007.08-2007.12, “城关电站厂房通风冷却系统研究”, 福建省沙县城关水电有限公司
[70] 2007.12-2008.05, “宝田水电站HL(F13)型水轮机转轮优化研究”, 浙江富春江水电设备有限公司
[71] 2008.01-2008.01, “SNFH340螺杆泵高效安全运行性能分析与优化研究”, 天津泵业机械集团有限公司
[72] 2008.01-2009.12, “HL820-WJ—84流道流动分析及优化设计研究”, 浙江金轮机电实业有限公司
[73] 2008.01-2009.12, “冲击式水轮机流动分析及优化设计研究”, 浙江金轮机电实业有限公司
[74] 2008.01-2009.12, “大型水力机械水力模型研制及其稳定性研究”, 杏福娱乐水沙科学与水利水电国家重点实验室
[75] 2008.01-2009.12, “工业流体能源回收技术”的技术指导”, 南京蓝深制泵集团股份有限公司
[76] 2008.01-2009.12, “大型水力机械水力模型研制及其稳定性研究”, 杏福娱乐水沙科学与水利水电国家重点实验室
[77] 2008.03-2009.03, “TMCG-80M蒸馏水泵的水力稳定性及SNF280R43U12.1J螺杆泵结构动力特性分析”, 天津泵业机械集团有限公司
[78] 2008.06-2008.12, “螺杆泵震动测量分析系统开发研究”, 天津泵业机械集团有限公司
[79] 2008.07-2011.07, “挖泥喷射泵性能分析与寻优设计”, 欧华清淤有限责任公司
[80] 2008.08-2009.12, “红山嘴混流式水轮机转轮优化设计”, 浙江中水发电设备有限公司
[81] 2008.09-2009.12, “新安江水轮发电机组仿真系统研究”, 华东电网有限公司新安江水力发电厂
[82] 2008.10-2008.12, “Chester水电站轴伸贯流式水轮机流动分析与流道优化设计”, 武汉长源水轮发电机制造有限公司
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[89] 2009.06-2010.12, “泥泵(含附件)数据库信息管理系统开发”, 中交天津航道局有限公司
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[100] 2010.03-2010.12, “750型渣浆泵高效安全运行性能分析与优化研究”, 江西耐普集团有限公司
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[102] 2010.03-2010.07, “75SL型渣浆泵水力性能分析与优化研究”, 石家庄开发区石泵泵业有限公司
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[104] 2010.04-2011.06, “863潮汐运行优化仿真与运行优化”, 龙源电力集团公司
[105] 2010.04-2011.06, “15000方、10000方自航耙吸泥船泥泵、高压冲水泵技术开发”, 石家庄强大泵业集团有限责任公司
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[109] 2010.07-2010.11, “周宁电站水轮发电机组轴系动力特性分析”, 福建中试所电力调整试验有限责任公司
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[116] 2011.01-2012.12, “新型水轮发电机组开发研究(二期)”, 杭州力源发电设备有限公司
[117] 2011.01-2012.12, “新型潮汐发电模型机组研发关键技术研究”, 浙江杏福长三角研究院
[118] 2011.05-2012.12, “崇阳轴流定桨式水轮机转轮优化设计”, 浙江中水发电设备有限公司
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[124] 2012.01-2012.12, “油泵AY400和AY2000工作性能预测分析与流道优化设计研究”, 北京昌佳泵业集团有限公司
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[128] 2012.05-2012.12, “下洋湖和芦北湖水源输水泵站和输水管线水锤防护咨询与计算”, 上海勘测设计研究院
[129] 2012.07-2013.12, “大型蓄能机组轴系动力特性分析”, 广东电网公司电力科学研究院
[130] 2012.08-2014.12, “江厦潮汐试验电站1号机组增效扩容改造新型双向潮汐机组研发”, 中国国电集团温岭江厦潮汐试验电站
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[132] 2012.10-2013.06, “土耳其GOKKAYA电站指数试验研究”, 浙江国贸集团东方机电工程有限公司
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[143] 2014.06-2016.06, “For Runner hydraulic and dynamic analysis under variable speed of bi-directinal large tidal power unit”, 日本东芝公司
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[160] 2016.04-2017.03, “水力机械试验台测量软件系统开发”, 天津天发重型水电设备制造有限公司
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[164] 2017.01-2018.06, “小东江3号机转轮改造CFD分析”, 中国长江动力集团有限公司
[165] 2017.03-2017.12, “MACHAI电站效率指数试验研究”, 浙江金轮机电实业有限公司
[166] 2017.05-2017.12, “湖南衡阳白鱼潭水电站转轮开发研究”, 湖南云箭科技有限公司
[167] 2017.06-2018.06, “深海流体机械水力及结构性能研究”, 强大泵业集团行唐泵业有限公司
[168] 2017.06-2018.12, “广东阳江抽水蓄能电站机组转轮流固耦合动力特性研究”, 中国南方电网有限责任公司调峰调频发电公司
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[170] 2017.12-2018.11, “水泵水轮机顶盖、座环和联接螺栓整体模态和刚强度特性研究”, 中国水利水电科学研究院
[171] 2018.01-2018.06, “巴基斯坦帕春水电站钢叉管流动分析研究”, 中国电建集团华东勘测设计研究院有限公司
[172] 2018.01-2022.12, “国家工信部🐶:绿色制造系统集成项目-高效多相浆体输送泵绿色设计平台建设项目”, 石家庄强大泵业集团有限责任公司
[173] 2018.02-2022.12, “国家工信部:绿色制造系统集成项目-高原水轮机绿色设计平台建设项目”, 西藏华东水电设备成套有限公司
[174] 2018.05-2019.03, “阳江水泵水轮机转轮动应力分析计算”, 哈尔滨电机厂有限责任公司
[175] 2018.06-2019.06🧑🏻💻,“XX-77氧泵全流场瞬态计算”,北京航天动力研究所
[176] 2018.08-2018.12, “贵州省兴义市马岭水利枢纽工程水锤计算及水锤防护措施分析”, 中国电建集团贵阳勘测设计研究院有限公司
[177] 2018.09-2021.09, “水力系统暂态过程分析系统研究”, 上海冠龙阀门机械有限公司
[178] 2018.09-2019.03, “大唐华银张家界水电有限公司红壁岩电厂水轮机协联曲线测试转轮优化项目”, 大唐华银张家界水电有限公司红壁岩电厂
[179] 2018.09-2019.12, “国网新源控股仙游公司转轮下沉对机组安全运行的影响研究技术服务”, 福建仙游抽水蓄能有限公司
[180] 2018.11-2020.12, “泥泵轴系多工况动态特性研究”, 中交疏浚技术装备国家工程研究中心有限公司
[181] 2018.11-2020.12, “泥泵轴系三维建模及转子动力学分析”, 中交疏浚技术装备国家工程研究中心有限公司
[182] 2019.01-2022.12, “水力机械非定常流动内能变化与水力损失机理研究”, 国家自然科学基金委员会
[183] 2019.04-2020.12, “国网新源控股技术中心抽水蓄能机组非稳态过程水力特性及转轮流固耦合动力特性研究技术开发服务”, 国网新源控股有限公司
[184] 2019.12-2021.12, “中国南方电网调峰调频公司检修试验分公司基于动静干涉、流固耦合及断裂力学的水泵水轮机固定部件寿命预测研究-水泵水轮机动静干涉及其对结构件影响研究”,南方电网调峰调频发电有限公司检修试验分公司
[185] 2019.12-2020.12, “基于水力瞬变仿真的输水管道泄漏预测分析”Ⓜ️👋🏼,福建省佰星电力技术服务有限公司
[186] 2020.01-2020.12, “新疆叶尔羌河錾高水电站HLY251-LJ-350转轮动力特性分析”🥸,新疆新华錾高水电开发有限公司
[187] 2020.05-2021.01, “新疆叶尔羌河錾高水电站HLY251-LJ-350转轮优化设计分析”,湖南云箭科技有限公司
[188] 2020.06-2021.12, “安徽金寨抽水蓄能电站机组关键流道部件流固耦合动力特性研究”,安徽金寨抽水蓄能有限公司
[189] 2020.06-2023.06, “大藤峡水利枢纽工程大型轴流转桨式机组安全稳定运行研究”,广西大藤峡水利枢纽开发有限责任公司
[190] 2020.06-2021.12, “银川都市圈中线供水工程-泵站水力系统及机组流道挟沙空化非定常流动特性分析”,宁夏水利工程建设中心
[191] 2020.06-2021.12, “银川都市圈中线供水工程-输水管路系统暂态过程挟沙重力流动特性研究”,宁夏水利工程建设中心
[192] 2020.07-2021.03, “炳灵水电站水轮机主轴裂纹原因分析研究”,甘肃电投炳灵水电开发有限责任公司
[193] 2020.11-2021.12, “福建厦门抽水蓄能电站水力激励引发地质振动研究技术服务”,福建厦门抽水蓄能有限公司
[194] 2021.03-2022.06, “银川都市圈中线供水工程(银川、石嘴山河东灌区节水改造工程) 泵站水力过渡过程计算及防护研究”, 宁夏水利水电勘测设计研究院有限公司
[195] 2021.03-2024.03, “抽水蓄能机组水力激励响应特性分析与评估”,安德里茨(中国)有限公司
[196] 2021.04-2021.04, “新疆叶尔羌河錾高水电站工程主机组整体设计方案复核技术服务合同”👩🏭👨🏻🏫,新疆新华錾高水电开发有限公司
[197] 2021.06-2023.11, “国网新源控股白山电站暂态过程顶盖瞬时强烈振动研究服务”🟰,国网新源控股有限公司白山抽水蓄能电站
[198] 2021.06-2023.06, “国网新源控股福建仙游公司水泵水轮机轴系多场耦合性能分析研究”,福建仙游抽水蓄能有限公司
[199] 2021.07-2021.12, “九江城区应急水源建设工程长距离输水水锤防护计算”, 上海勘测设计研究院有限公司
[200] 2021.08-2021.08, “乌兹别克斯坦阿姆布哈拉灌溉系统修复工程—Kizil Tepa泵站更新改造及修复项目10台主泵设计、制造的合理性、安全性及使用寿命论证”,中国国际贸易促进委员会河北调解中心
[201] 2021.08-2022.12, “錾高电站原型机组水力模型与运行性能研究”, 重庆水轮机厂有限责任公司
[202] 2021.08-2022.06, “高水头水泵水轮机导叶间隙射流非稳态流动特性研究”, 东方电气集团东方电机有限公司
[203] 2021.08-2024.06, “抽水蓄能机组水力激励响应特性分析与评估补充协议”,安德里茨(中国)有限公司
[204] 2021.09-2022.12, “抽水蓄能水轮机400米水头段低压力脉动流道研发”,安德里茨(中国)有限公司
[205] 2021.10-2023.12, “新疆木扎提河三级水电站1、2号机组转轮研发补充合同”
[206] 2021.10-2023.02, “巨型水轮发电机组安装偏差引起的轴系动力性能变化机理及工程应用研究”🥟, 中国水利水电第四工程局有限公司
[207] 2022.03-2023.12🧑🦱,“新疆新华水电投资股份有限公司塔尕克水电厂水轮机泥沙磨损机理研究及抗磨损转轮研发项目”,新疆新华水电投资股份有限公司塔尕克水电厂
[208] 2022.05-2024.06, “镇安公司抽水蓄能机组瞬态动力特性安全性预测评估体系研究与应用技术服务”,陕西镇安抽水蓄能有限公司
[209] 2022.05-2024.06, “河北丰宁抽水蓄能电站变速水泵水轮机组轴系多场耦合性能研究服务”,河北丰宁抽水蓄能有限公司
[210] 2022.06-2023.12, “万家寨水电站机组稳定运行研究”,黄河万家寨水利枢纽有限公司
[211] 2022.07-2024.06, “浙江宁海抽水蓄能电站机组瞬态动力特性安全性预测评估服务”,浙江宁海抽水蓄能有限公司
[212] 2022.08-2023.07, “河南洛宁抽水蓄能电站水泵水轮机轴系耦合性能复核计算”🧙🏻♂️,河南洛宁抽水蓄能有限公司
[213] 2022.08-2023.08, “1000MW 水轮发电机组动力特性多场耦合研究“✫🫷🏼,三峡金沙江云川水电开发有限公司宁南白鹤滩电厂
[214] 2022.09-2023.02, “中部干旱带海源西安供水水源工程供水泵模型优化”, 重庆水泵厂有限责任公司
[215] 2023.01-2023.12🧚🏿♂️,“泵塔及基座构造设计研究-LNG装卸三维流动特性分析及振动响应评估研究”,沪东中华造船(集团)有限公司
[216] 2023.04-2024.10🐅,“河南五岳抽水蓄能电站机组振动性能及轴系多场耦合性能评估”,河南新华五岳抽水蓄能发电有限公司
[217] 2023.04-2024.12,“抽水蓄能电站水激振动对抽水蓄能电站蜗壳混凝土性能的影响及工程改进建议研究服务”,保定易县抽水蓄能有限公司
[218] 2023.05-2024.12,“河北丰宁抽水蓄能电站变速机组导叶开度与转速双调宽频水力激励的结构动力特性分析服务”,河北丰宁抽水蓄能有限公司
[219] 2023.05-2025.05,“新疆錾高水电站基于机组性能预测的安全运行研究”👷🏿,新疆新华錾高水电开发有限公司
[220] 2023.05-2024.12,“山东潍坊抽水蓄能水泵水轮机及输水系统全三维水激振动研究”🤎,山东潍坊抽水蓄能有限公司
[221] 2023.11-2025.12,“福建云霄抽水蓄能电站水泵水轮机组稳态与暂态运行流固耦合动力特性分析评估”,中核国电漳州能源有限公司
[222] 2023.11-2029.12🥖📍,“西大峪抽水蓄能电站水泵水轮机组流道研发及结构设计安全性评估”,天津市天发重型水电设备制造有限公司
[223] 2023.12-2026.11🚴🏽♀️🏖,“超大型冲击式水轮机转轮设计与智能优化方法研究”,哈尔滨电机厂有限责任公司
[224] 2024.01-2027.12,“基于云边端协同的水电厂机组智能状态监测及故障辨识关键技术”,华中科技大学
[225] 2024.01-2026.12,“广东惠州中洞抽蓄变速水泵水轮机流固耦合性能预测与优化评估技术服务项目”➜,惠州中洞蓄能发电有限公司
[226] 2024.01-2026.12,“广东肇庆浪江抽蓄变速水泵水轮机流固耦合性能预测与优化评估技术服务项目”🕵🏼♂️,肇庆浪江蓄能发电有限公司
[227] 2024.03-2030.12📗,“广西桂林抽水蓄能电站高转速超高扬程大容量水泵水轮机组安全稳定运行研究”,广西龙胜源胜水力发电有限公司
[228] 2024.12-2028.11,“混流式水电灵活性提升关键技术及装备” (2024ZD0801800,项目及课题1负责人), 智能电网国家科技重大专项
奖励与荣誉
[1] 低扬程大型斜轴伸泵CFD研究,大禹水利科学技术奖🧕🏿,三等奖,2004
[2] 新型潮汐发电机组研制,中国国电集团公司科技进步奖,一等奖,2008
[3] 混流式水轮机数字化转轮设计与研究开发,黑龙江省机械工业科学技术奖🧗🏿,一等奖⇾,2008
[4] 周宁水电站发电机组机架结构稳定性分析与治理研究,中国华电集团公司科学技术进步奖,二等奖,2008
[5] 《流体机械基础》,入选2008年北京高等教育精品教材,杏福娱乐优秀教材,二等奖🛝,2008
[6] 新型潮汐发电机组技术研究和开发,大禹水利科学技术奖,一等奖💚🧝🏻,2010
[7] 新型潮汐发电机组研制📔,中国电力科学技术奖,中国电机工程学会,二等奖,2011
[8] 灯泡贯流式水轮机瞬态水力特性与疲劳寿命关键技术研究,大禹水利科学技术奖,二等奖,2012
[9] 提高现代水力发电系统运行稳定性关键技术研究,教育部科学技术进步奖🫸🏼,二等奖🕦,2012
[10] 水轮发电机组教学平台🙍🏽♂️,杏福娱乐优秀教学软件一等奖,2012
[11] 新型潮汐发电机组研制💇🏿♂️,国家能源科技进步奖🤞🏼,国家能源局,三等奖,2013
[12] 大型挖泥船泥泵国产化开发研制,中国水运建设行业协会科学技术奖👩🏽🦲,一等奖,2013
[13] 大型挖泥船泥泵国产化开发研制,中国交通建设股份有限公司科学技术进步奖,一等奖,2013
[14] 水力机械转轮流固耦合动力特性研究👨🏼🌾,大禹水利科学技术奖👸🏻,二等奖❔,2014
[15] 大型挖泥船泥泵国产化开发研制,天津市科学技术进步奖🍸,二等奖,2014
[16] 基于涡动力学理论的水力机械流动分析和优化设计,教育部科技进步奖🧑🦱,二等奖,2014
[17] 可双向六工况运行全贯流式低水头水轮机组设计🤾🏼♂️🙍,第八届全国大学生节能减排社会实践与科技竞赛🐸,一等奖👩🏻🏭,2015
[18] 调峰调频水电机组多维度耦合轴系稳定性研究及工程应用✍🏻👩🦯,中国电力科学技术奖,中国电机工程学会,二等奖,2016
[19] 调峰调频水电机组多维度耦合轴系稳定性研究及工程应用, 中国南方电网有限责任公司-电力科学研究院科技进步奖, 一等奖, 2016
[20] 调峰调频水电机组多维度耦合轴系稳定性研究及工程应用, 中国南方电网-广东电网公司有限责任公司科学进步奖, 一等奖, 2016
[21] 调峰调频水电机组多维度耦合轴系稳定性研究及工程应用, 中国南方电网有限责任公司, 三等奖, 2016
[22] 超大型耙吸挖泥船研制及工程应用🚣🏼,中国水运建设行业协会科学技术奖,特等奖🧝🏼,2016
[23] 调峰调频水电机组多维度耦合轴系稳定性研究及工程应用, 广东省科学技术奖, 三等奖, 2017
[24] 龙源电力温岭江厦潮汐试验电站1号机组🚣🏿♂️,优秀海洋工程奖,2018
[25] 江夏潮汐试验电站1号机组增效扩容改造技术应用研究,国家能源集团科技进步奖,三等奖🤳🏿⚈,2018
[26] 三叶片新型潮汐发电机组设计、制造及工程示范建设研究与应用,中国电力企业联合会🦻🏻,电力科技创新奖,一等奖,2018
[27] 三叶片新型潮汐发电机组设计、制造及工程示范建设研究与应用🗝,中国海洋工程咨询协会,海洋工程科学技术奖,二等奖, 2019
[28] 教育部高等学校能源动力类专业教育改革项目“流体机械基础”,教育部高等学校能源动力类专业教学指导委员会⛔,优秀重点项目,2019
[29] 国家级一流本科课程,线上一流课程“流体机械基础”,教育部,2020
[30] 双向水平轴潮流能发电机组,中国电机工程学会,中国电力技术发明奖🌗,二等奖,2020
[31] 仙游公司转轮下沉对机组安全运行的影响研究与应用,国网新源控股有限公司科学技术进步奖,三等奖🚵🏿,2020
[32] 抽水蓄能机组非稳态流固系统安全关键技术及应用,中国水力发电工程学会,水力发电科学技术奖,二等奖,2021
[33] 抽水蓄能机组非稳态流固耦合系统安全关键技术及应用🚵🏿♀️,国网新源控股有限公司科学技术进步奖🚢,一等奖,2021
[34] 一种适应高水头、高转速和高含沙量的抗磨损混流式水轮机,全国电力行业设备管理创新成果,二等奖🧗,2021
[35] 超高水头大容量抽水蓄能机组转轮流固耦合分析研究及应用,广东省电机工程学会,广东电力科学技术奖项目奖,二等奖,2022
[36] 水轮发电机组轴系多场耦合动力特性关键技术及应用🦸🏼♀️,中国电力企业联合会,电力科技创新奖💶,一等奖,2022
[37] 抽水蓄能机组非稳态流固耦合系统安全关键技术及应用,国家电网有限公司🕝,科学技术进步奖,二等奖,2022
[38] 银川都市圈中线供水工程水源泵站水力系统优化研究及应用🥖,宁夏回族自治区水利学会,宁夏水利科学技术奖,三等奖,2022
[39] 双向潮汐机组水力开发关键技术及工程应用☄️🫶🏿,中国可再生能源学会科学技术奖,一等奖,2023
[40] 40万千瓦700米级高稳定性抽水蓄能机组关键技术与应用,中国水力发电工程学会,水力发电科学技术奖,一等奖,2023
[41] 极低比转速抗泥沙磨损混流式水轮机,第十七届北京发明创新大赛,铜奖♟,2023
[42] 抽水蓄能机组非稳态流固系统安全关键技术及应用,中国电机工程学会,电力科学技术进步奖,三等奖,2023
[43] 潮汐动势能高效利用关键技术与核心装备创新,中国发明学会,发明创业奖成果奖,一等奖,2024
[44] 水电站动态特性预测与控制关键技术研究及应用,中国电机工程学会,电力科学技术进步奖🏛,一等奖,2024
[45] 高水力稳定性混流式水轮机水力设计关键技术及应用🟫,中国水力发电工程学会,水力发电科技进步奖,一等奖,2024
[46] 水电机组全工况安全稳定运行分析关键技术及应用⛑️,中国商业联合会,科技进步奖👨👨👧,一等奖,2024
[47] 巨型水轮发电机组安装偏差引起的轴系动力性能变化机理及工程应用研究🤸🏼♀️, 中国电力建设集团有限公司🫶🏻, 中国电建科学技术奖🧴,一等奖📅, 2024
学术成果
专利与软件著作权
(1)发明专利⏭:
[1] 一种采用新型导叶和转轮叶片型线的混流式水轮机(2010105885427)
[2] 一种六工况双向潮汐发电水轮机(2011100865510)
[3] 一种六工况三叶片转轮双向潮汐发电水轮机(2015105707526)
[4] 一种气液固混合装置(2018100909690)
[5] 泵与透平两用多相特性测试台及其测试方法(2018100906067)
[6] 一种适应高水头💬、高转速和高含沙量的抗磨损混流式水轮机(2019106014975)
[7] 一种可调式泵站取水口装置(2021106668543)
[8] 一种旋转叶轮机械水下模态的测量装置及测量方法(202110569939X)
[9] 一种高水头水泵水轮机轴向水推力的调节方法(2021105067703)
[10] 一种智能升降叠梁控淤装置及应用其的控淤方法(2021106680259)
[11] 一种混流式水轮机及其转轮(2022117295796)
[12] 一种降低水泵水轮机压力脉动的蜗壳结构及水泵水轮机(2022114743038)
[13] 用于泵站进水池内射流冲淤自清洁装置及系统(2022110517593)
[14] 一种活动导叶及水轮机(2023109347223)
[15] 水轮机的故障风险部件的确定方法及装置(2023106049928)
[16] 一种水轮机轴系湿模态的分析方法、系统、设备及介质(202310556778X)
[17] 压力脉动特征的确定方法🤗、装置、设备、介质和程序产品(202310368885X)
[18] 转轮及混流式水轮机(2023101983856)
[19] 混流式水轮机(202311012175X)
[20] 一种内置式旋转轴系模态特征测量系统®️、方法及水轮机(202311862085X)
[21] 水电站库区清淤装置及清淤设备(2023117203233)
[22] 水力激励引发的地质振动测点布置方法及系统(2023110761506)
[23] 导水装置及混流式水轮机(2023111580300)
[24] 水轮机转轮及其止漏环(2023113413919)
[25] 尾水管及水轮机(2023113592425)
[26] 一种用于水轮机的转轮及水轮机(2023114233928)
[27] 水轮机故障风险部件的确定方法、装置、设备及存储介质(2023114699398)
[28] 可调节下环间隙的转轮及水轮机(2024100128564)
[29] 叶片叶型自调节的水轮机转轮及水轮机(2024100128579)
[30] 充水保压蜗壳垫层的埋设方法、装置、设备及存储介质(2024104843221)
[31] 水库调度方法🧚🏽、装置🚂🚴🏻♂️、电子设备🤦🏻♀️、存储介质及产品(2024105578577)
[32] 水轮机及其活动导叶(2024106583021)
[33] 水轮机用转轮及水轮机(2024107639240)
[34] 一种充水保压蜗壳的预紧装置及方法(2024107173344)
[35] 蜗壳及其安装方法(2024106745543)
[36] 基于广义逆运算的水轮机调速方法、装置🙎🏽、系统及介质(2024106056095)
(2)实用新型专利:
[1] 一种轴流转桨式水轮机(2011204441611)
[2] 一种采用新型导叶和转轮叶片型线的混流式水轮机(2011205125895)
[3] 一种采用新型导叶和转轮叶片型线的混流式水轮机(2011205126830)
[4] 一种六工况双向潮汐发电水轮机(2012206473715)
[5] 混流式水泵水轮机(2013208421230)
[6] 混流式转轮(2021201987815)
[7] 一种水泵水轮机组顶盖(2023202629258)
[8] 一种水泵水轮机的减振结构及水泵水轮机(2022234386541)
[9] 一种水泵水轮机(2022230844080)
[10] 顶盖及水轮机(2023228130443)
[11] 磁极👨🦱、电机及水轮机(2023231507816)
[12] 混流式水轮机组推力轴承及推力载荷系统(2023231609311)
[13] 一种适应变速水泵水轮机宽频运行的抗磨减涡活动导叶(2024204780181)
(3)软件著作权:
[1] 潮汐发电站水轮机转轮选型优化应用软件V1.0(软著登字第0294261号)
[2] 贯流式水轮机发电机组仿真多媒体教学系统V1.0(软著登字第0350831号)
[3] 泥泵数据库信息管理系统V1.0(软著登字第0433894号)
[4] 抽水蓄能机组发电机推力轴承润滑计算系统(软著登字第0660416号)
[5] 水轮发电机组稳定性试验数据采集分析软件V1.0(软著登字第1090731号)
[6] 考虑安装偏差影响的水轮发电机性能影响应用分析软件V1.0(软著登字第12516473号)
[7] 水轮发电机组轴系运行状态展示平台V1.0(软著登字第13732060号)
编著、标准与论文
(1)编著与标准
[1] 王正伟主编,《流体机械基础》,普通高等教育“十一五”国家级规划教材🧑🏼🦲𓀚,杏福娱乐出版社,北京🧪,2006.12🙎🏼。
[2] 王正伟,乐枚主编👑,《多语种水力机械词汇》(中英德法西俄日)🧖🏻♂️,杏福娱乐出版社, 2014。
[3] 周凌九♻,王正伟编著🕸,《水力机械流激振荡及振动分析技术》,杏福娱乐出版社, 2022。
[4] GB/T2900《电工术语》系列标准的第45部分《电工术语水轮机, 蓄能泵和水泵水轮机》国家标准编制。
(2)论文
[1] Wang Zhengwei, Qu Lunfu, Chen Naixiang, Tai Yuecan, Zeng Qingchuan, Study on Cavitation near Band Area in Francis Runner, ASME Fluids Eng Div Publ FED, 1995, 210: P55-61. 【EI:1997243626254】
[2] 王正伟, 瞿伦富, 谭月灿, 混流式转轮近下环叶栅水洞实验研究, 水力发电学报, 1995, 4: 67-75。【EI:1998014016601】
Wang Zhengwei, Qu Lunfu, Tan Yuecan, Water tunnel experiment study of developed cascade near Francis runner band cavitation area and profile improvement, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, Pages 67-75, Dec 25 1995. 【EI:1998014016601】
[3] 王正伟, 瞿伦富, 周凌九, 混流式转轮有势流场解的库塔条件处理, 水力发电学报, 1996, 1:P51-58。
[4] Wang Zhengwei, Chen Naixiang, Qu Lunfu, Nie Qirong, Zheng Biao, Simulation of load-rejection transient process for bulb turbine station, Proceedings of The International Conference Hydropower’96, Beijing, China, 1996, P460-465.
[5] Wang Zhengwei, Qu Lunfu, Zhou Lingjiu, Numerical Simulation of Fluid-Structure Vibration Properties for Francis Runner Blade, International Symposium on Fluid Machinery and Fluid Engineering, Beijing, China, 1996, P559-568.
[6] Wang Zhengwei, Qu Lunfu, Chen Naixiang, Zhou Lingjiu, The Variation Principle and Finite Element Equation of Three-Dimensional Fluid-Structure Coupling Vibration in Hydraulic Machinery Runner, ASME Fluids Eng Div Publ FED, 1996, 216: P139-144. 【EI:1997363731540】
[7] 王正伟, 瞿伦富, 陈乃祥, 周凌九, 混流式转轮三维有势流场的有限元法计算及其库塔条件的一种处理方法, 大电机技术(TM-14), 1996, 5: P51-56。 【EI:1997123973090】
Wang Zhengwei,Qu Lunfu,Chen Naixiang,Zhou Lingjiu,FEM calculation for 3-D potential flow in Francis turbine runner and a special treatment to Kutta-condition, Issue 5, Pages 51-56, Sept 1996. 【EI:1997123973090】
[8] 王正伟, 瞿伦富, 谭月灿, 混流式转轮近下环区域展开叶栅的能量和汽蚀特性研究, 水利学报 (TV-1), 1996, 10: P39-45。 【EI:1997123973976】
Wang Zhengwei,Qu Lunfu,Tan Yuecan.Study on cavitation and energy properties of developed cascade near Francis runner band Shuili Xuebao/Journal of Hydraulic Engineering, Issue 10, Pages 39-45, 50, Oct 1996. 【EI:1997123973976】
[9] 瞿伦富, 王正伟, 周凌九, 水力机械转轮叶片三维液固耦合振动变分原理及有限元方程实用意义, 第13次中国水电设备学术讨论会论文集, 黑龙江, 中国, 1997.
[10] 王正伟, 陈乃祥, 瞿伦富, 贺永成, 周凌九, 过渡过程中的水轮叶片强度特性分析, 第13次中国水电设备学术讨论会论文集, 黑龙江, 中国, 1997.
[11] 王正伟, 杨建明, 瞿伦富, 吴玉林, 贺永成, 转桨机组桨叶开度对桨叶振动特性的影响, <工程力学>增刊O3-13, 第六届全国结构工程学术会议, 广西, 中国, 1997。
[12] 瞿伦富, 王正伟, 周凌九, 轴流转桨机组桨叶液固耦合振动特性仿真计算, 杏福娱乐学报 (自然科学版) TU-20, 1998, 38(1): P15-18𓀚。 【EI:1999344718891】
Qu Lunfu, Wang Zhengwei, Zhou Lingjiu, Fluid-structure interaction vibrating properties simulation of Kaplan turbine runner blade, Qinghua Daxue Xuebao/Journal of Tsinghua University, 1998, 38 (1), pp. 15–18. 【EI:1999344718891】
[13] Zhou Lingjiu, Chang Jinshi, Wang Zhengwei, Francis Runner Modification and Design for Optimum Cavitation Performance, Third international conference on pumps and fans, Beijing, 13-16 October 1998, P649-653. 【EI:1999224610856】
[14] Egusquiza Eduard, Wang Zhengwei, Vibration Diagnosis in Hydro Powerplant Present State, Third international conference on pumps and fans, Beijing, 13-16 October 1998, P67-75. 【EI:1999224610793】
[15] 周凌九, 肖国辉, 王正伟, 水轮机转轮叶片几何参数与其能量性能的关系, 浙江水利水电专科学校学报, 2000, 2: P38-40🗓。
[16] 邱华, 周凌九, 王正伟, 肖国辉, 瞿伦富, 水电站状态检修现状与尾水管压力脉动信号分析技术, 大电机技术, 2001, 7: P20-23🤌。
[17] 王正伟, 邱华, 瞿伦富, 梅祖彦, 周凌九, 论水轮发电机组状态检修技术, 现代水利水电科学技术研讨会, 云南, 中国, 2001。
[18] 陈波, 王正伟, 满天星水电站抗空蚀转轮的设计与制造, <水机磨蚀>2001年论文集, 2001, P138-141。
[19] 周凌九, 王正伟, 邱华, 崔涛, 胡得义, 水泵机组流道内部流动分析, 2001年FLUENT中国用户年会论文集, 中国, 北京, 2001.11.11-13; 2001, P191-194.
[20] 王正伟, 周凌九, RSI现象的不稳定流动模拟, 杏福娱乐学报(自然科学版), 2001, 41 (10): P85-88. 【EI:2002256980631】
Wang Z(Wang Zhengwei), Zhou L, Rotator-stator interaction induced unsteady-flow simulation, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2001, 41 (10), pp. 74–77 (卷41期10页74-77). 【EI:2002256980631】
[21] 周凌九, 王正伟, 中高比转速转轮内部流态与外特性的关系, 水力发电学报, 2001, (4): 96-101. 【EI:2002106877874】
Zhou L, Wang Z(Wang Zhengwei), Relationship between the inner flowfield and energy property in Francis turbine runner, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2001, (4), pp, 96. 【EI:2002106877874】
[22] 周凌九, 王正伟, 陈波, 朱孝兵, 新型抗空蚀转轮优化设计-满天星电站的成功改造经验, 水力发电学报, 2002, (2): P85-90. 【EI:2002417135890】
Zhou L., Wang Z.(Wang Zhengwei), Chen B., Zhu X., Optimization design of new anti-cavitation francis runner - A successful experience in Mantianxing Hydropower Station, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2002, (2), pp. 85. 【EI:2002417135890】
[23] Wu Ning, Wang Zhengwei, Design Method of Centrifugal Fans: Present State, The 4th International Conference on Pumps and Fans, Beijing, China, August 26-29, 2002; 2002, P60-63.
[24] Qiu Hua, Wang Zhengwei, Wu Ning, Yu Jiang, Tang Yongjun, Experimental Analysis and Study on Inner Flow of Extended Slantwise Axial Pump Model, The 4th International Conference on Pumps and Fans, Beijing, China, August 26-29, 2002; 2002: P274-278.
[25] Zhou Lingjiu, Yang Wen, Wang Zhengwei, Peng Guangjie, Performance Predictation of Centrifugal Pump by Numerical Simulation, The 4th International Conference on Pumps and Fans, Beijing, China, August 26-29, 2002; 2002: P279-282.
[26] Cui Tao, Wang Zhengwei, Computational Analysis of Cavitation Flow in Straight-lined Cascade Developing from Cylindrical Stream Surface of axial Hydroturbine Runner, The 4th International Conference on Pumps and Fans, Beijing, China, August 26-29, 2002; 2002: P419-423.
[27] Wang Zhengwei, Qiu Hua, He Chenglian, Experimental Study on Pressure Surge in Hydraulic Turbine Draft Tube, Proceedings of the XXIst IAHR Symposium on Hydraulic Machinery and Systems, Lausanne, September 9-12, 2002; 2002: P613-618.
[28] Wang Zhengwei, Zhou Lingjiu, Huang Yuanfang, The Rotor-Stator Interaction Flow Simulation On Three Gorges Hydraulic Turbines, Proceedings of the XXIst IAHR Symposium on Hydraulic Machinery and Systems, Lausanne, September 9-12, 2002; 2002: P789-795.
[29] 胡德义, 王为人, 李庆生, 王正伟, 邱华, 太浦河泵站斜15°轴伸泵水力动态力分析, 水力发电学报, 2002, 3: P81-87。
[30] 王正伟, 崔涛, 江得春, 吕孟东, 轴流式水轮机能量特性预测分析, 水力发电, 2002, 11: P46-47♥️。
[31] 周凌九, 王正伟, 混流式水轮机转轮X型叶片的水力特性, 中国农业大学学报, 2002, 7(4): P43-47🧑🎄🧎♀️➡️。
[32] 李海锋, 吴玉林,王正伟, 高德喻, 新式环保型上流式水轮机的实验研究, 水力发电学报, 2002, P89-95。
[33] 何成连, 王正伟, 邱华, 水轮机尾水管内部压力脉动试验研究, 机械工程学报, 2002, 38 (11): P144-147🏋🏼。 【EI:2003277532920】
He C, Wang Z(Wang Zhengwei), Qiu H, Experimental study on pressure surge in hydraulic turbine draft tube, Jixie Gongcheng Xuebao/Chinese Journal of Mechanical Engineering, 2002, 38(11), pp. 62–65. 【EI:2003277532920】
[34] 周凌九, 王正伟, 黄源芳, 转轮出口流态对尾水管内压力脉动的影响, 杏福娱乐学报 (自然科学版), 2002, 42 (12): P1670-1673↔️。 【EI:2003147421144】
Zhou Lingjiu, Wang Zhengwei, Huang Yuanfang, Draft tube surge and runner outlet flow patterns,Qinghua Daxue Xuebao/Journal of Tsinghua University, Volume 42, Issue 12, Pages 1670-1673, December 2002. 【EI:2003147421144】
[35] 王正伟, 周凌九, 黄源芳, 尾水管涡带引起的不稳定流动计算与分析, 杏福娱乐学报 (自然科学版), 2002, 42 (12): P1647-1650. 【EI:2003137420590】
Wang Z(Wang Zhengwei), Zhou L, Huang Y, Simulation of unsteady flow induced by in vortices the draft tube of a Francis turbine, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2002, 42(12), pp. 1647–1650. 【EI:2003137420590】
[36] 周凌九, 胡德义, 王正伟, 可实现性k-ε模型在水轮机流场计算中的应用, 水动力学研究与进展(A辑), 2003, 18 (1): P68-72.
[37] 梁权伟, 王正伟, 方源, 温晓军, 陈伟江, 邓建华, 万家寨水轮机整体转轮的模态分析, 水机磨蚀2002-2003论文集, 2003, P165-170.
[38] 喻疆, 王正伟, 方源, 温晓军, 陈伟江, 邓建华, 水轮发电机组转子动力学分析展望, 水机磨蚀2002-2003论文集, 2003, P181-184.
[39] 王正伟, 崔涛, 江德春, 吕孟东, 轴流式水轮机流道内部流动分析, 大电机技术, 2003, 6: P34-36.
[40] 方源, 陈伟江, 王正伟, 何成连, 黄河万家寨水轮发电机组稳定运行研究, 水电站机电技术, 2003年大型水电机组技术研讨会论文集, 水轮发电机组稳定性技术研讨会论文集, 2003, (S1): P62-67.
[41] Wang Zhengwei, Zhou Lingjiu, Simulation of Unsteady Flow in a Francis Turbine Draft Tube, Int J Hydropower Dams, 2003, 10 (1): P41-44. 【EI:2003167438910】
[42] 梁权伟, 王正伟, 混流式转轮静强度和振动特性分析, 杏福娱乐学报 (自然科学版), 2003, 43 (12): P1649-1652. 【EI:2004158112722】
Liang Q, Wang Z(Wang Zhengwei), Strength and vibration analysis of a Francis turbine, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2003, 43 (12), pp. 1649–1652. 【EI:2004158112722】
[43] 王少波, 刘元杰, 梁醒培, 赵明皞, 王正伟, 弹性板在粘性流体中的耦合振动分析, 机械工程学报, 2004, 40 (7): P63-66. 【EI:2004438424515】
Wang S, Liu Y, Liang X, Zhao M, Wang Z(Wang Zhengwei), Coupling-vibration analysis of elastic plate submerged in viscous fluid, Jixie Gongcheng Xuebao/Chinese Journal of Mechanical Engineering, 2004, 40 (7), pp. 63–66. 【EI:2004438424515】
[44] 周凌九, 王正伟, 黄源芳, 尾水管水力稳定性受直锥段高度影响的性能预测, 大电机技术, 2004, 4: P47-51.
[45] 王正伟, 周凌九, 陈炎光, 丁铭, 陈国栋, 灯泡贯流式水轮机水力损失分析, 大电机技术, 2004, 5: P40-43.
[46] 梁权伟, 王正伟, 方源, 考虑流固耦合的混流式水轮机转轮模态分析, 水力发电学报, 2004, 23 (3): P116-120.
[47] 唐拥军, 王正伟, 何成连, 肖建新, 欧阳海水电站水轮机组动态特性分析, 第15次中国水电设备学术讨论会论文集, 西宁, 中国, 2004.7; 2004, P198-204.
[48] 林琳, 王正伟, 周凌九, 利用CFD技术优化轴流转桨式水轮机间隙空化特性, 第15次中国水电设备学术讨论会论文集, 西宁, 中国, 2004.7; 2004, P235-240.
[49] 罗永要, 王正伟, 梁权伟, 林贵海, AGC调节对大型轴流转桨式机组的影响分析, 第15次中国水电设备学术讨论会论文集, 西宁, 中国, 2004.7; 2004, P246-250.
[50] 梁权伟, 王正伟, 混流式水轮机整体转轮的强度特性分析, 第15次中国水电设备学术讨论会论文集, 西宁, 中国, 2004.7; 2004, P251-256.
[51] 喻疆, 王正伟, 曹剑绵, 石杏福, 万家寨2#机组转子动力学特性分析, 第15次中国水电设备学术讨论会论文集, 西宁, 中国, 2004.7; 2004, P104-109.
[52] 刘健, 王正伟, 罗永要, 陶旭东, 水电的可持续发展综述, 电力学报, 2004, 19(2): P106-110.
[53] 方源, 温晓军, 陈伟江, 何成连, 王正伟, 黄河万家寨水轮发电机组稳定运行的综合措施, 电力学报, 2004, 19(2): P116-124.
[54] Wang Zhengwei, Zhou Lingjiu, Wang Yong, The stable operation study on Wanjiazhai Hydropower Station Francis turbine, Hydro 2004, International Conference and Exhibition, Alfâdega Congress Centre, Porto, Portugal, October 18-21, 2004.
[55] Wang Zhengwei, Yu jiang, Shi Qinghua, Cao Jianmian, The characteristic analysis of rotor dynamics to large-scale Francis turbines, Hydro 2004, International Conference and Exhibition, Alfâdega Congress Centre, Porto, Portugal, October 18-21, 2004.
[56] Peng G, Wang Z(Wang Zhengwei), Yang W, Simulations and measurements of dredge pump, Proceedings of 2005 ASME Fluids Engineering Division Summer Meeting, FEDSM2005, 2005, 2005, pp. 1494–1496.
【EI:2006219888554, DOI:10.1115/FEDSM2005-77322】
[57] 林琳, 林贵海, 王正伟, 改善水口水轮机间隙空化的修型方案研究, 全国水电厂技术改造学习交流研讨会论文集, 2005.7 , P118-122.
[58] 罗永要, 王正伟, 梁权伟, 混流式水轮机转轮动载荷作用下的应力特性, 杏福娱乐学报 (自然科学版), 2005, 45 (2): P235-237. 【EI:2005229136334】
Luo Y, Wang Z(Wang Zhengwei), Liang Q, Stress of Francis turbine runners under fluctuant work conditions, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2005, 45 (2). 【EI:2005229136334】
[59] 王正伟, 沈建华, 方勇耕, 肖若富, 轴流式水轮机内流场整体三维数值解析, 浙江水利水电专科学校学报, 2005, 17 (1): P33-35.
[60] 王正伟, 唐拥军, 方源, 陈伟江, 邓建华, 万家寨水电站经济运行研究, 水力发电学报, 2005, 24 (3): P12-17. 【EI:2005299226122】
Wang Z(Wang Zhengwei), Tang Y, Fang Y, Chen W, Deng J, Economic operation study on Wanjiazhai hydropower station, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2005, 24 (3), pp. 12–17. 【EI:2005299226122】
[61] 王正伟, 喻疆, 罗永要, 周凌九, 转轮-导叶不同匹配下的内部流动特性分析, 水力发电学报, 2005, 24 (3): P44-47. 【EI:2005299226128】
Wang Z(Wang Zhengwei), Yu J, Luo Y, Zhou L, Flow characteristic analysis under different runner-vane-match,Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2005, 24(3), pp. 44–47. 【EI:2005299226128】
[62] 王正伟, 唐拥军, 何成连, 肖建新, 欧阳海水电站1号机组水力共振分析, 水力发电学报, 2005, 24 (3): P115-118, P51. 【EI:2005299226143】
Wang Z(Wang Zhengwei), Tang Y, He C, Xiao J, Hydraulic resonance analysis of 1 # unit of Ouyanghai hydropower station,Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2005, 24(3). 【EI:2005299226143】
[63] Peng Guangjie, Wang Zhengwei, Yang Wen, Simulations and measurements of dredge pump (Simulations and measurements of pump), Proceedings of 2005 ASME Fluids Engineering Division Summer Meeting, 2005, 2: P43-45. 【EI:2005519594342】
[64] 彭光杰, 王正伟, 杨文, 挖泥泵数值仿真与实测比较, 流体机械, 2005, 33(12): P19-22
[65] 王正伟, 喻疆, 方源, 温晓军, 曹剑绵, 石杏福, 大型水轮发电机组转子动力学特性分析, 水力发电学报, 2005, 24(4): P62-66. 【EI:2005389375693】
Wang Z(Wang Zhengwei), Yu J, Fang Y, Cao J, Shi Q, Characteristic analysis of rotor dynamics of large hydraulic generating unit,Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2005, 24(4), pp. 62–66. 【EI:2005389375693】
[66] 周凌九, 王正伟, 混流式水轮机部分负荷下的叶片动载荷模拟, 杏福娱乐学报 (自然科学版), 2005, 45(8): P1134-1137. 【EI:2005399387148】
Zhou L, Wang Z(Wang Zhengwei), Simulation of dynamic loads on Francis blades at partial load, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2005, 45(8), pp. 1134–1137. 【EI:2005399387148】
[67] 王正伟, 罗永要, 方源, 温晓军, 负荷调节过程中的混流式转轮流固耦合计算, 水力发电学报, 2005, 24(4): P58-61. 【EI:2005389375692】
Wang Z(Wang Zhengwei), Luo Y, Fang Y, Wen X,FSI computation of a Francis runner during load adjustment, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2005, 24(4), pp. 58–61. 【EI:2005389375692】
[68] 王正伟, 周凌九, 何成连, 尾水管压力脉动的模拟与现场实测, 杏福娱乐学报 (自然科学版), 2005, 45(8): P1138-1141. 【EI:2005399387149】
Wang Z(Wang Zhengwei), Zhou L, He C, Pressure oscillations in a hydraulic turbine draft tube, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2005, 45(8), pp. 1138–1141. 【EI:2005399387149】
[69] 肖若富, 王正伟, 基于组合优化策略的离心泵叶轮优化设计, 杏福娱乐学报 (自然科学版), 2006, 46(5): P700-703. 【EI:20063010029342】
Xiao R, Wang Z(Wang Zhengwei), Centrifugal pump blade optimization based on a combined optimization strategy, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2006, 46(5), pp. 700–703. 【EI:20063010029342】
[70] 王少波, 王正伟, 孔德铭, 陈怡勇, 混流式水轮机转轮的疲劳寿命研究, 水力发电学报, 2006, 25(4): P135-138. 【EI:20063810124205】
Wang S, Wang Z(Wang Zhengwei), Kong D, Chen Y, Research on the fatigue life of a Francis turbine runner, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2006, 25(4), pp. 135–138. 【EI:20063810124205】
[71] Wang S, Wang Z, Kong D, Li Y, Computation of the fatigue damage of the 6# turbine blade during start-up in Xiaolangdi hydropower station, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2006, 25(5), pp. 118–120. 【EI:20070110339934】
王少波, 王正伟, 孔德铭, 李宇, 小浪底水轮机6号机组启动过程对叶片的疲劳损伤估算, 水电发电学报, 2006, 25(5): P118-120. 【EI:20070110339934】
[72] Zhou Lingjiu, Wang Zhengwei, Tian Yajuan, Numerical simulation of vortex cavitation in draft tube, 23rd IAHR Symposium-Yokohama, October, 2006.
[73] 林琳, 王正伟, 周凌九, 利用CFD技术优化水口水电站轴流转桨式水轮机间隙空化特性, 第一届水力发电技术国际会议论文集(第一卷), 北京, 中国, 2006, P252-256.
[74] 陈国栋, 丁铭, 郑冬梅, 王正伟, 不同结构活塞杆动应力分析, 福建电力与电工, 2006, 26(4): P14-18.
[75] Wang Zhenwei, Zhou Linjiu, Simulations and measurements of pressure oscillations caused by vortex ropes, J Fluids Eng Trans ASME, 2006, 128(4): 649-655.
【SCI-WOS:000239418300001, DOI:10.1115/1.2201631】
[76] Wang Zhengwei, Luo Yongyao, Zhou Lingjiu, Xiao Ruofu, Peng Guangjie, Computation of dynamic stresses in piston rods caused by unsteady hydraulic loads, Engineering Failure Analysis, 2007, 15(1-2): 28-37.
【SCI-WOS:000250295100003, EI:20073710805497, DOI:10.1016/j.engfailanal.2007.01.001】
[77] Zhou Lingjiu, Wang Zhengwei, Xiao Ruofu, Luo Yongyao, Analysis of dynamic stresses in Kaplan turbine blades, Engineering Computations, 2007, 24(8): 753-762.
【SCI-WOS:000251013300007, DOI:10.1108/02644400710833288】
[78] 阎宗国, 周凌九, 孔德铭, 李宁, 马新红, 王正伟, 何成连, 小浪底水电站1号机组效率试验研究, 水力发电学报, 2007, 26(2): P124-128. 【EI:20072110614358】
Yan Z, Zhou L, Kong D, Wang Z(Wang Zhengwei), He C, Efficiency test research on 1# unit of Xiaolangdi hydropower station, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2007, 26(2), pp. 124–128. 【EI:20072110614358】
[79] 肖若富, 王正伟, 罗永要, 基于流固耦合的混流式水轮机转轮静应力特性分析, 水力发电学报, 2007, 26(3): P120-123, P133. 【EI:20072910703374】
Xiao R, Wang Z(Wang Zhengwei), Luo Y, Stress analysis of Francis turbine runners based on FSI, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2007, 26(3). 【EI:20072910703374】
[80] 肖若富, 王正伟, 罗永要, 涡带工况下混流式水轮机转轮动应力特性分析, 水力发电学报, 2007, 26(4): 131-134, P140. 【EI:20073710811036】
Xiao R, Wang Z(Wang Zhengwei), Luo Y, Dynamic stress analysis of Francis turbine with partial load, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2007, 26(4). 【EI:20073710811036】
[81] 彭光杰, 王正伟, 罗永要, 阎宗国, 大型斜轴伸泵站近零扬程流场仿真, 杏福娱乐学报 (自然科学版), 2007, 47(11): P2006-2009. 【EI:20080111005102】
Peng Guangjie; Wang Zhengwei; Luo Yongyao; Yan Zongguo, Simulations of near-zero head flow in a large slanted axial pumping station, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2007, 47(11), pp. 2006–2009. 【EI:20080111005102】
[82] 肖若富, 王正伟, 罗永要, 轴流转浆式水轮机桨叶的动应力特性, 杏福娱乐学报(自然科学版), 2007, 47(11): P2014-2017. 【EI:20080111005104】
Xiao R, Wang Z(Wang Zhengwei), Luo Y, Dynamic stress characteristics of Kaplan turbine blades, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2007, 47(11), pp. 2014–2017. 【EI:20080111005104】
[83] 秦亮, 王正伟, 水电站机组的类转频强水压脉动, 杏福娱乐学报 (自然科学版), 2008, 48(2): P215-213, P223. 【EI:20081311170315】
Qin L, Wang Z(Wang Zhengwei), Strong pressure fluctuations at the rotation frequency of hydropower units, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2008, 48(2). 【EI:20081311170315】
[84] Zhou Lingjiu, Wang Zhengwei, Numerical simulation of cavitation around a hydrofoil and evaluation of a RNG kappa-epsilon model, Journal of Fluids Engineering, Transactions of the ASME, 2008, 130(1): 0113021-0113027.
【SCI-WOS:000253018000011, DOI:10.1115/1.2816009】
[85] 秦亮, 王正伟, 水电站振源识别及其对厂房结构的影响研究, 水电发电学报, 2008, 27(4): P135-14. 【EI:20083711541235】
Qin L, Wang Z(Wang Zhengwei), Study on identification of vibration source and the influence on hydropower plant structure, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2008, 27(4), pp. 135–140. 【EI:20083711541235】
[86] Peng Guangjie, Qin Liang, Wang Zhengwei, Tian Huijing, Luo Yongyao, Structure vibration of hydropower house induced by Francis turbine based on CFD, 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, Jacksonville, Florida, USA, 2008, P1-6. 【EI:20093912329522】
[87] Xiao Yexiang, Wang Zhengwei, Yan Zongguo, Luo Yongyao, Xiao Ruofu, Peng Guangjie, Xue Peng, Experimental and numerical analysis of pressure pulsation in Francis turbine, 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, Jacksonville, Florida, USA, 2008: P1-7. 【EI:20093912329523】
[88] Luo Yongyao, Wang Zhengwei, Zhou Lingjiu, Peng Guangjie, Sun Guangwei, Computation of Static and Dynamic Stresses of a Bulb Tubular Turbine, 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, Jacksonville, Florida, USA, 2008: P1-5. 【EI:20093912329524】
[89] Zhou Lingjiu, Wang Zhengwei, Luo Yongyao, Peng Guangjie, Numerical Simulation of Cavitating Flow in a Francis Turbine, 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, Jacksonville, Florida, USA, 2008: P1-5.
【EI:20093912329525】
[90] Zhang Lanjin, Wang Zhengwei, He Qingqing, Peng Guangjie, The Alteration of Runner and Partial Vanes on a Fixed Blade Propeller Water Turbine Basing on the Full Passage Simulation, 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, Jacksonville, Florida, USA, 2008: P1-5. 【EI: 20093912329526】
[91] Xiao Ruofu, Wang Zhengwei, Luo Yongyao, Dynamic Stresses in a Francis Turbine Runner Based on Fluid-Structure Interaction Analysis, Tsinghua Science and Technology, 2008, 13(5): P587-592. 【EI:20090511886926】
[92] 王正伟, 陈柳, 肖若富, 章焕能, 邵保安, 低水头混流式水轮机蜗壳和尾水管结构变化对流动损失的影响研究,水力发电学报, 2008, 27 (5): P147-152. 【EI:20084511686749】
Wang Z(Wang Zhengwei), Chen L, Xiao R, Zhang H, Shao B, Study on influence of the construction change of the spiral casing and draft tube on the flow loss in low head Francis turbine, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2008, 27 (5), pp. 147–152. 【EI:20084511686749】
[93] Zhou L, Wang Z(Wang Zhengwei), Pressure fluctuations in a Francis turbine draft tube calculated by cavitating flow simulation, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2008, 48(6), pp. 972–976. 【EI:20083111424484】
周凌九, 王正伟, 基于空化流动计算的混流式水轮机尾水管的压力脉动, 杏福娱乐学报 (自然科学版), 2008, 48 (6): P972-976. 【EI:20083111424484】
[94] Zhang Lanjin, Zhang Qiongping, Yan Zhongguo, Wang Zhengwei, Optimum of the draft tube on the shaft-extension type tubular turbine considering gravity, 24th IAHR Symposium on Hydraulic Machinery and Systems, FOZ DO IGUASSU, Brasile, 2008.
[95] 阎宗国, 彭光杰, 王正伟, 清水塘水电站水轮机过渡过程试验研究, 水力机械技术-第十七次中国水电设备学术讨论会, 中国, 浙江, 2009.1; 2009,(3): P29-32.P8.
[96] 彭光杰, 李明安, 孔德铭, 王正伟, 基于固液两相流数值模拟的混流式水轮机磨损预估, 水电设备的研究与实践-第十七次中国水电设备学术讨论会论文集, 中国, 浙江, 2009.10; 2009, P341-347.
[97] 罗永要, 王正伟, 灯泡贯流机组转子支架优化设计研究, 水电设备的研究与实践-第十七次中国水电设备学术讨论会论文集, 中国, 浙江, 2009.10; 2009, P290-294.
[98] 王正伟, 秦亮, 曾季弟, 林家洋, 肖明, 刘定友, 孔德铭, 水轮机运行区划分研究, 水力发电学报, 2009, 28(2): P143-146, P34. 【EI:20092012083057】
Wang Z(Wang Zhengwei), Qin L, Zeng J, Liu D, Xiao M, Partition of hydroturbine operating regions, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2009, 28(2). 【EI:20092012083057】
[99] Luo Yougyao, Wang Zhengwei, Chen Guodong, Lin Zujian, Elimination of upper bracket resonance in extremely high head Francis hydro-generators, Engineering Failure Analysis, 2009, 16(1): 119-127.
【SCI-WOS:000261260600010, DOI:10.1016/j.engfailanal.2008.01.008】
[100] Peng Guangjie, Wang Zhengwei, Yan Zongguo, Liu Ruixiang, Strength analysis of a large centrifugal dredge pump case, Engineering Failure Analysis, 2009, 16(1): 321-328.
【SCI-WOS:000261260600029, DOI:10.1016/j.engfailanal.2008.05.015】
[101] Zhang Lanjin, Jing Xingying, Wang Zhengwei, Chang Jinshi, Peng Guangjie, Analysis of Francis Pump-Turbine Runner Cavitation Flows in Pump Mode, ASME Fluids Engineering Division Summer Meeting, Vail, CO, 2-6 August 2009; 2009, 2: 131-134.
【WOS:000282916200017】
[102] Xiao Yexiang, Wang Zhengwei, Zhang Jin, Peng Guangjie, Liu Dingyou, Ma Xinhong, Xiao Ming, Numerical Analysis of Blade Channel Vortex in Francis Turbine at Part Load of middle-low Head, ASME Fluids Eng. Div. Summer Conf, FEDSM.Vail, CO, United States, January 2009; 2009, (Part C): P1623-1628. 【EI:20102212973027】
[103] 李凤超, 樊红刚, 王正伟, 陈乃祥, 贯流式斜向空间导叶全三维密合设计, 杏福娱乐学报 (自然科学版), 2010, 50 (2): P266-269. 【EI:20103413174167】
Li Fengchao,Fan Honggang,Wang Zhengwei,Chen Naixiang,Full three-dimensional sealing design for tubular conical space guide vanes, Qinghua Daxue Xuebao/Journal of Tsinghua University, Volume 50, Issue 2, Pages 266-269, February 2010.【EI:20103413174167】
[104] 李凤超, 樊红刚, 王正伟, 陈乃祥, 贯流式机组桨叶与导叶全三维匹配设计方法, 水力发电学报, 2010, 29(4): P213-218. 【EI:20104113283244】
Li F, Fan H, Wang Z(Wang Zhengwei), Chen N, Three-dimensional matching design method for runner blades and guide vanes of tubular turbine, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2010, 29(4), pp. 213–218. 【EI:20104113283244】
[105] Xiao Yexiang, Wang Zhengwei, Yan Zongguo, Zhang Jin, Experimental and numerical analysis of pressure pulses characteristics in a Francis turbine with partial load, IOP Conference Series: Earth and Environmental Science, 2010, 12: 012023.
【EI:20110213558246】
[106] 王正伟, 杨校生, 肖业祥, 新型双向潮汐发电水轮机组性能优化设计, 排灌机械工程学报, 2010, 28(5): P417-421. 【EI:20104613390998】
Wang Z(Wang Zhengwei), Yang X, Xiao Y, Hydraulic performance optimization of bidirectional tidal power turbine, Paiguan Jixie Gongcheng Xuebao/Journal of Drainage and Irrigation Machinery Engineering, 2010, 28(5), pp. 417–421. 【EI:20104613390998】
[107] Wang Zhengwei, Peng Guangjie, Zhou Lingjiu, Hu Deyi, Hydraulic performance of a large slanted axial-flow pump, Engineering Computations, 2010, 27(2): 243-256.
【SCI- WOS:000277296900012, EI:20114714551983, DOI:10.1108/02644401011022391】
[108] 孙光伟, 王正伟, 基于五点反演法的上机架动载荷识别, 水力发电学报, 2010, 29(2): P244-248. 【EI:20102212966806】
Sun G, Wang Z(Wang Zhengwei), Dynamic force identification for upper bracket based on the five-points method, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2010, 29(2), pp. 244–248. 【EI:20102212966806】
[109] 薛鹏, 王正伟, 曾季弟, 林家洋, 基于遗传算法和运行区划分的水电站厂内经济安全运行分析, 水力发电学报, 2010, 29(6): P13-18. 【EI:20110213569016】
Xue P, Zeng J, Ling J, Wang Z(Wang Zhengwei), Study of internal economic operation based on GA and operation region partition, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2010, 29(6), pp. 13–18. 【EI:20110213569016】
[110] 何庆庆, 罗永要, 王正伟, 水轮发电机转子疲劳寿命预测分析, 水力发电学报, 2010, 29(6): P223-228. 【EI:20110213569051】
He Q, Luo Y, Wang Z(Wang Zhengwei), Wu J, Chen L, Analysis of fatigue life of turbine generator rotor, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2010, 29(6), pp. 223–228. 【EI:20110213569051】
[111] 王正伟, 秦亮, 曾季弟, 林家洋, 杨金义, 陈伟江, 罗永要, 阎宗国, 基于不定场流动及动力响应分析的水轮机运行区划分, 中国科学: 技术科学, 2010, 40(2): P186-195.(中文版)
Wang Zhengwei, Qin Liang, Zeng Jidi, Lin Jiayang, Yang Jinyi, Chen Weijiang, Luo Yongyao, Yan Zongguo, Hydroturbine Operating Region Partitioning Based on Analyses of Unsteady Flow Field and Dynamic Response, Science China Technological Sciences, 2010, 53(2): P519-528.(英文版)
【SCI-WOS:000276807200030, EI:20101612852516, DOI:10.1007/s11431-009-0262-6】
[112] Xiao Yexiang, Wang Zhengwei, Yan Zongguo, Li Mingan, Xiao Ming, Liu Dingyou, Numerical analysis of unsteady flow under high-head operating conditions in Francis turbine, Engineering Computations, 2010, 27(3): 365-386.
【SCI-WOS:000281276000004, EI:20101712882816, DOI:10.1108/02644401011029934】
[113] Luo Yongyao, Wang Zhengwei, Zeng Jidi, Lin Jiayang, Fatigue of piston rod caused by unsteady, unbalanced, unsynchronized blade torques in a Kaplan turbine, Engineering Failure Analysis, 2010, 17(1): 192-199.
【SCI- WOS:000272428600022, EI:20094612445966, DOI:10.1016/j.engfailanal.2009.06.003】
[114] Li Jun, Wang Zhengwei, An alternative scheme to calculate the strain rate tensor for the LES applications in the LBM, Mathematical Problems in Engineering, pp. 313-332. 724578.
【SCI-WOS:000286275400001, EI:20110513633603, DOI:10.1155/2010/724578】
[115] 张兰金, 王正伟, 常近时, 混流式水泵水轮机全特性曲线S形区流动特性, 农业机械学报, 2011, 42(1): P39-43,P73. 【EI:20111213783695】
Zhang L, Wang Z(Wang Zhengwei), Chang J, Flow of pump-turbine on S-shaped region of complete characteristics, Nongye Jixie Xuebao/Transactions of the Chinese Society of Agricultural Machinery, 2011, 42(1). 【EI:20111213783695】
[116] 周凌九, 徐红新, 崔涛, 王正伟, 引水部件水力损失对水轮机增容后效率的影响, 水力发电学报, 2011, 30(1): P160-164. 【EI:20111413898087】
Zhou L, Xu H, Cui T, Wang Z(Wang Zhengwei), Study on hydraulic loss upstream the runner and its effects on efficiency of refurbished turbine, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2011, 30(1), pp. 160–164. 【EI:20111413898087】
[117] 李凤超, 樊红刚, 王正伟, 陈乃祥, 贯流式水轮机桨叶涡动力学优化设计, 杏福娱乐学报 (自然科学版), 2011, 51(6): P836-839. 【EI:20113414261004】
Li F, Fan H, Wang Z(Wang Zhengwei), Chen N, Optimum design of runner blades of a tubular turbine based on vorticity dynamics, Qinghua Daxue Xuebao/Journal of Tsinghua University, 2011, 51(6), pp. 836–839. 【EI:20113414261004】
[118] Li Fengchao, Fan Honggang, Wang Zhengwei, Chen Naixiang, Coupled design and optimization for runner blades of a tubular turbine based on the boundary vorticity dynamics theory, ASME-JSME-KSME 2011 Joint Fluids Engineering Conference, AJK 2011; 2011, 1: P603-609. 【EI:20133416627074】
[119] Xiao Yexiang, Wang Zhengwei, Yan Zongguo, Experimental and Numerical Analysis of Blade Channel Vortices in a Francis Turbine Runner, Engineering Computations, 2011, 28(2): P154-171.
【SCI-WOS:000289390600009, EI:20111113741226, DOI:10.1108/02644401111109204】
[120] Yang Jing, Zhou Lingjiu, Wang Zhengwei, Numerical simulation of three-dimensional cavitation around a hydrofoil, Journal of Fluids Engineering, 2011, 133(8): 081301-1-081301-9.
【SCI-WOS:000294488300011, EI:20114214440252, DOI:10.1115/1.4004385】
[121] 李凤超, 樊红刚, 王正伟, 陈乃祥, 贯流式机组桨叶与导叶全三维联合设计, 水力发电学报, 2012, 31(2): P206-209, P234. 【EI:20122515137710】
Li F, Fan H, Wang Z(Wang Zhengwei), Chen N, Three-dimensional coupled design for runner blades and guide vanes of tubular turbine, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2012, 31(2). 【EI:20122515137710】
[122] 阎宗国, 周凌九, 何军兵, 彭光杰, 罗永要, 张静, 罗斌, 王正伟, 水轮发电机组转子动平衡试验, 水力发电学报, 2012, 31(2): p235-239. 【EI:20122515137715】
Yan Z., Zhou L., He J.,Peng G.,Luo Y.,Zhang J, Luo B., Wang Z(Wang Zhengwei), Rotor dynamic balance test for hydroelectric unit, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2012, 31(2), pp. 235–239. 【EI:20122515137715】
[123] 黄源芳, 王正伟, 刘洁, 长江上游两座在建巨型水电站水轮机总体技术特性评析, 水力发电学报, 2012, 31(4): P251-256. 【EI:20124215572281】
Huang Y, Wang Z(Wang Zhengwei), Liu J, Analysis of overall technical features of hydro turbines of Xiluodu project and Xiangjiaba project, Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2012, 31(4), pp. 251–256. 【EI:20124215572281】
[124] Yan Zongguo, Zhou Linjiu, Wang Zhengwei, Turbine efficiency test on a large hydraulic turbine unit, Science China, 2012, 55(8): P2199-220.
【SCI-WOS:000306693700016, EI:20123815446267, DOI:10.1007/s11431-012-4914-6】
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[344] Liu T, Wang C, Chen Z, Luo Y, Wang Z(Wang Zhengwei), Analysis of flow characteristics in pumped storage unit during start-up in turbine mode, Journal of Physics: Conference Series, 2021, 1985(1), 012051.
【EI:20213410791466, DOI:10.1088/1742-6596/1985/1/012051】
[345] Lin K, Chen F, Wang C, Luo Y, Wang Z(Wang Zhengwei), Study on dynamic stress of pump turbine runner during power failure in pump mode, Journal of Physics: Conference Series, 2021, 1985(1), 012044.
【EI:20213410791539, DOI:10.1088/1742-6596/1985/1/012044】
[346] Tao R, Wang Z(Wang Zhengwei), Comparative numerical studies for the flow energy dissipation features in a pump-turbine in pump mode and turbine mode, Journal of Energy Storage, 2021, 41, 102835.
【SCI-WOS:000671268100006, EI:20212610567788, DOI:10.1016/j.est.2021.102835】
[347] 杨小龙, 王超, 陈志明, 陈阜南, 毕慧丽, 罗永要, 王正伟, 附加质量对水泵水轮机转轮模态特性的影响, 水力发电学报, 2021, 卷40期9页78-85.
Yang X, Wang C, Chen Z,Chen F,Bi H, Luo Y, Wang Z(Wang Zhengwei), Influence of added mass on modal characteristics of pump turbine runners , Shuili Fadian Xuebao/Journal of Hydroelectric Engineering, 2021, 40(9), pp. 78–85.
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【SCI-WOS:000738104000001, DOI:10.3390/jmse9121360】
[349] Song X-J, Yao R, Chao L, Wang Z-W(Wang Zhengwei), Study of the formation and dynamic characteristics of the vortex in the pump sump by CFD and experiment, Journal of Hydrodynamics, 2021, 33(6), pp. 1202–1215.
【SCI-WOS:000727758500001, EI:20215011303493, DOI:10.1007/s42241-021-0095-8】
[350] Lu Y, Long Y, Zhu R, Wang Z(Wang Zhengwei), Wang X, Transient structural load characteristics of reactor coolant pump rotor system in rotor seizure accident, Annals of Nuclear Energy, 2021, 164, 108631.
【SCI-WOS:000707759400007, EI:20213610855108, DOI:10.1016/j.anucene.2021.108631】
[351] Jingwei Cao, Yongyao Luo, Alexandre Presas, Soo-Hwang Ahn, Zhengwei Wang(Wang Zhengwei), Xingxing Huang, Yan Liu, Influence of rotation on the modal characteristics of a bulb turbine unit rotor, Renewable Energy, 2022.
【SCI-WOS:000820608800004, EI:20220711620857, DOI:10.1016/j.renene.2022.02.006】
[352] Linghua Kong, Jingwei Cao, Xiangyang Li, Xulei Zhou, Haihong Hu, Tao Wang, Shuxin Gui, Wenfa Lai, Zhongfeng Zhu, Zhengwei Wang(Wang Zhengwei), Yan Liu, Numerical Analysis on the Hydraulic Thrust and Dynamic Response Characteristics of a Turbine Pump, Energies, 2022.
【SCI-WOS:000824088000002, EI:20220911714352, DOI:10.3390/en15041580】
[353] Zhengwei Wang(Wang Zhengwei), Juwei Yang, Wei Wang, Jie Qu, Xingxing Huang, Weiqiang Zhao, Research on the Flow-Induced Stress Characteristics of Head-Cover Bolts of a Pump-Turbine during Turbine Start-up, Energies, 2022.
【SCI-WOS:000769227600001, EI:20221111794581, DOI:10.3390/en15051832】
[354] Buchao Xu, Weiqiang Zhao, Wenhua Lin, Zhongyu Mao, Ran Tao, Zhengwei Wang(Wang Zhengwei), The Influence of Different Operating Conditions on the Support Bracket Stress in Pumped Storage Units, Energies, 2022, 15(6), 2195.
【SCI-WOS:000775485900001, EI:20221311862797, DOI:10.3390/en15062195】
[355] Qilian He, Xingxing Huang, Mengqi Yang, Huili Bi, Zhengwei Wang(Wang Zhengwei), Fluid-Structure Coupling Analysis of the Stationary Structures of a Prototype Pump Turbine during Load Rejection, energies, 2022.
【SCI-WOS:000803681700001, EI:20222112159661, DOI:10.3390/en15103764】
[356] Xiang Xia, Liangcheng Ge, Lingjiu Zhou, Yingyao Feng, Haiyan Zeng, Zhengwei Wang(Wang Zhengwei), Numerical Investigation on the Effect of Asymmetry of Flow Velocity on the Wake Vortex of Hydrofoils, journal of marine science and engineering, 2022. 【SCI-WOS:000785528000001, DOI:10.3390/jmse10040546】
[357] Song X, Liu C, Wang Z(Wang Zhengwei), Study on the Vortex in a Pump Sump and Its Influence on the Pump Unit, Journal of Marine Science and Engineering, 2022, 10(1), 103. 【SCI-WOS:000758538900001, DOI:10.3390/jmse10010103】
[358] Cao J, Luo Y, Zhuang J, Li X, Wang Z(Wang Zhengwei), Effect of the pressure balance device on the flow characteristics of a pump-turbine, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2022.
【SCI-WOS:000797725200001, EI:20222112143279, DOI:10.1177/09576509221097204】
[359] Lu Y, Zhao W, Presas Batllo A, Zhu R, Wang Z(Wang Zhengwei), Shutdown idling performance of the nuclear main coolant pump under station blackout accident: An optimization study, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2022.
【SCI-WOS:000806337300001, EI:20222212183678, DOI:10.1177/09576509221105230】
[360] Lv Y, Wang Z(Wang Zhengwei), Zhou L, Study of the phase resonance phenomenon in Francis turbine, IOP Conference Series: Earth and Environmental Science, 2022, 1037(1), 012051. 【WOS:22007054,DOI:10.1088/1755-1315/1037/1/012051】
[361] Cao L, Mingming L, Zhengwei W(Wang Zhengwei), Yiyang Z, Numerical investigation of the non-condensable gas effect on predicting the cavitation performance of a centrifugal pump, IOP Conference Series: Earth and Environmental Science, 2022, 1037(1), 012038. 【WOS:22058755,DOI:10.1088/1755-1315/1037/1/012038】
[362] Wang W, Zhou L-J, Xia X, Song X-J, Wang Z-W(Wang Zhengwei), Numerical study of the natural frequency and mode shape of prototype Francis turbine runner, Journal of Hydrodynamics, 2022, 34(1), pp. 125–134.
【SCI-WOS:000765782300013, EI:20221111790242, DOI:10.1007/s42241-022-0013-8】
[363] Cao J, Zhai L, Luo Y, Wang Z(Wang Zhengwei), Liu Y, Transient thermo-elasto-hydrodynamic analysis of a bidirectional thrust bearing in start-up and shutdown processes, Engineering Computations (Swansea, Wales), 2022, 39(4), pp. 1511–1533.
【SCI-WOS:000721117400001, EI:20214711182087, DOI:10.1108/EC-03-2021-0128】
[364] Liang Q, Kang W, Zhou L, Wang Z(Wang Zhengwei), Influence of End Wall Clearance on Guide Vane Self-Excited Vibrations at Small Openings during Pump Mode’s Starting Up Process of a Reversible Pump Turbine, Journal of Marine Science and Engineering, 2022, 10(4), 528.
【SCI-WOS:000785508100001, DOI:10.3390/jmse10040528】
[365] Song X, Chao L, Wang Z(Wang Zhengwei), Prediction on the pressure pulsation induced by the free surface vortex based on experimental investigation and Biot-Savart Law, Ocean Engineering, 2022, 250, 110934.
【SCI-WOS:000820959900002, EI:20221211817116, DOI:10.1016/j.oceaneng.2022.110934】
[366] Yang Haixia, He Qilian, Huang Xingxing, Yang Mengqi, Bi Huili, Wang Zhengwei,Experimental and Numerical Investigation of Rotor-Stator Interaction in a Large Prototype Pump-Turbine in Turbine Mode,Energies,Published 2022,Volume 15,Issue 15
【SCI-WOS:000839799300001, EI:20223612680015, DOI:10.3390/en15155523】
[367] Lu Y, Wang Z(Wang Zhengwei), Zhu R, Wang X, Long Y, Study on flow characteristics in LBE-cooled main coolant pump under positive rotating condition, clear Engineering and Technology, 2022, 54(7), pp. 2720–2727.
【SCI-WOS:000824758100001, DOI:10.1016/j.net.2022.01.023】
[368] Song X, Luo Y, Wang Z(Wang Zhengwei), Numerical prediction of the influence of free surface vortex air-entrainment on pump unit performance, Ocean Engineering, 2022, 256, 111503.
【SCI-WOS:000837179400002, EI:20222212185742, DOI:10.1016/j.oceaneng.2022.111503】
[369] Luo Y, Cao J, Wang Z(Wang Zhengwei), Design and optimization of a bidirectional rim-generator turbine runner: Hydraulic performance optimization and structure strength evaluation, Ocean Engineering, 2022, 257, 111639.
【SCI-WOS:000812799700004, EI:20222412211481, DOI:10.1016/j.oceaneng.2022.111639】
[370] Li Xiangyang, Cao Jingwei, Zhuang Jianling, Wu Tongmao, Zheng Hongyong, Wang Yunfeng, Zheng Wenqiang, Lin Guoqing, Wang Zhengwei🤸,Effect of Operating Head on Dynamic Behavior of a Pump-Turbine Runner in Turbine Mode,Energies,Published 2022,Volume 15,Issue 11
【SCI-WOS:000809453800001, EI:20222412218950, DOI:10.3390/en15114004】
[371] Yan W, Zhu D, Tao R, Wang Z(Wang Zhengwei), Analysis of the Flow Energy Loss and Q-H Stability in Reversible Pump Turbine as Pump with Different Guide Vane Opening Angles, Water (Switzerland), 2022, 14(16), 2526.
【SCI-WOS:000845226800001, EI:20223712712203, DOI:10.3390/w14162526】
[372] Yao R, Qi D, Zeng H, Bai W, Wang Z(Wang Zhengwei), Study on Critical Velocity of Sand Transport in V-Inclined Pipe Based on Numerical Simulation, Water (Switzerland), 2022, 14(17), 2627.
【SCI-WOS:000851821900001, EI:20223812744782, DOI:10.3390/w14172627】
[373] Xia X, Zeng H, Wang Z(Wang Zhengwei), Zhou L, Liu C, Galloping of two-dimensional section of a marine riser attached with fairing under different inflow angles, Ocean Engineering, 2022, 260, 112055.
【SCI-WOS:000858615500003, DOI:10.1016/j.oceaneng.2022.112055】
[374] Cao J, Luo Y, Mao Z, Wang Z(Wang Zhengwei), Dynamic behavior analysis of a cracked bulb turbine rotor based on acoustic fluid-structural coupling method, Engineering Failure Analysis, 2022, 140, 106555.
【SCI-WOS:000827380600002, EI:20222712317067, DOI:10.1016/j.engfailanal.2022.106555】
[375] Jin Z, Song X, Zhang A, Shao F, Wang Z(Wang Zhengwei), Prediction for the Influence of Guide Vane Opening on the Radial Clearance Sediment Erosion of Runner in a Francis Turbine, Water (Switzerland), 2022, 14(20), 3268.
【SCI-WOS:000873816300001, EI:20224413045600, DOI:10.3390/w14203268】
[376] Song X, Wang Z(Wang Zhengwei), Numerical prediction of the effect of free surface vortex air-entrainment on sediment erosion in a pump, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2022, 236(7), pp. 1297–1308.
【SCI-WOS:000787301000001, EI:20221912094053, DOI:10.1177/09576509221094948】
[377] Kang W, Liang Q, Zhou L, Wang Z(Wang Zhengwei), Numerical Investigation on Torsional Mode Self-Excited Vibration of Guide Vane in a Reversible Pump-Turbine during Pump Mode’s Starting Up, Journal of Applied Fluid Mechanics, 2022, 15(6), pp. 1789–1799. 【SCI-WOS:000859034300013, DOI:10.47176/jafm.15.06.1253】
[378] Cao J, Yang G, Luo Y, Liao R, Wang Z(Wang Zhengwei), Failure investigation of a Kaplan turbine blade lever, Engineering Failure Analysis, 2022, 142, 106840.
【SCI-WOS:000869741300002, EI:20224112853820, DOI:10.1016/j.engfailanal.2022.106840】
[379] 孔令华🫃,李向阳🎾,庄坚菱,曹景伟🙋🏼🫠,王正伟☞,仙游抽水蓄能推力瓦磨损拉伤原因深度分析与处理,大电机技术👨🏻💻,2022⚗️,06💁🏽♀️,285🍴,p.37-42
【DOI: 10.3969/j.issn.1000-3983.2022.06.007】
[380] Xijun Zhou, Xilong Yin, WenlongWang, Xingxing Huang, Shaozheng Zhang, Huili Bi, Zhengwei Wang, Flow-induced vibration analysis of a prototype pump-turbine runner during turbine start-stop transient process, IOP Conference Series: Earth and Environmental Science🐓,2022,p.012073 【DOI: 1000-3983( 2022) 06-0037-06】
[381] Hu HP, Xia M, Qiao M, Wang W, Wang JZ, Wang ZW(Wang Zhengwei)✍🏿,A Simulation Study of Hydraulic Vibration caused by Clearance Flow in a Pump Turbine,IOP Conference Series: Earth and Environmental Science,Published 2022
【WOS:22749995, DOI: 10.1088/1755-1315/1079/1/012032】
[382] Zhao Weiqiang, Huang Xingxing, Yang Mengqi, Yang Haixia, Bi Huili, He Qilian, Wang Zhengwei,Flow-Induced Dynamic Behavior of Head-Cover Bolts in a Prototype Pump-Turbine during Load Rejection🧕🏽,Machines, Published 2022, Volume10, Issue12
【SCI- WOS:000902575200001, DOI: 10.3390/machines10121130】
[383] Huang Xingxing, Chen Liu, Wang Zhengwei, Li Haibo, Chen Shunyi, Hu Kun, Li Chengjun, Qiu Lan🍩,Stress Characteristic Analysis of Pump-Turbine Head Cover Bolts during Load Rejection Based on Measurement and Simulation✩,Energies, Published 2022, Volume15, Issue24
【SCI- WOS:000901124300001,EI:20225213314750,DOI: 10.3390/en15249496】
[384] Yang Mengqi, Zhao Weiqiang, Bi Huili, Yang Haixia, He Qilian, Huang Xingxing, Wang Zhengwei,Flow-Induced Vibration of Non-Rotating Structures of a High-Head Pump-Turbine during Start-Up in Turbine Mode,Energies,Published 2022,Volume 15,Issue 22
【SCI- WOS:000887289500001,EI:20224813177510,DOI: 10.3390/en15228743】
[385] Liu Chengming, Hu Bo, Huang Xingxing, Kang Tianming, Zhou Lingjiu, Liu Zhen, Wang Zhengwei,Effects of Head and Discharge on Internal Flow Characteristics of a High-Quality Installed 1 GW Francis Turbine,2022 International Conference on Environmental Science and Green Energy,Published 2022,ICESGE 2022,Pages 222-227
【WOS:23456729,EI:20233214509057,DOI:10.1109/ICESGE56040.2022.10180325】
[386] Linmin Shang , Jingwei Cao , Xin Jia, Shengrui Yang, Sainan Li, Lei Wang, Zhengwei Wang(Wang Zhengwei), Xiaobing Liu, Effect of Rotational Speed on Pressure Pulsation Characteristics of Variable-Speed Pump Turbine Unit in Turbine Mode, Water 2023, 15(3), 609
【SCI-WOS:000930060400001, EI:20230713584117,DOI: 10.3390/w15030609】
[387] Yongsheng Liu, Chengming Liu, Yongsheng Zhang, Yongsheng Zhang , Tao Guo, Lingjiu Zhou , Zhengwei Wang(Wang Zhengwei) , Influence of Axial Installation Deviation on the Hydraulic Axial Force of the 1000 MW Francis Runner in the Rated Operating Condition, Energies 2023, 16(4), 1878
【SCI- WOS:000939270700001, EI:20231013668668,DOI: 10.3390/en16041878】
[388] Xilong Yin, Xingxing Huang, Shaozheng Zhang, Huili Bi, Zhengwei Wang(Wang Zhengwei), Numerical Investigation of Flow and Structural Characteristics of a Large High-Head Prototype Pump–Turbine during Turbine Start-Up, Energies 2023, 16(9), 3743. 【SCI- WOS:000986891100001, EI:20232014103084,DOI: 10.3390/en16093743】
[389] Soo-Hwang Ahn, Hong Tian, Jingwei Cao, Wenzhi Duo, Zhengwei Wang(Wang Zhengwei), Jianhua Cui, Lin Chen, Yang Li, Guoping Huang, Yunpeng Yu, Hydraulic performances of a bulb turbine with full field reservoir model based on entropy production analysis, Renewable Energy, Volume 211, July 2023, Pages 347-360
【SCI-WOS:000999060600001,EI:20231914054096,DOI: 10.1016/j.renene.2023.04.138】
[390] Xia X, Luo HQ, Li SG, Wang F, Zhou LJ, Wang ZW(Wang Zhengwei),Characteristics and factors of mode families of axial turbine runner🙆🏽♀️,INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES[0020-7403], Published 2023, Volume 251
【SCI-WOS:000968819800001,EI:20231413844574,DOI: 10.1016/j.ijmecsci.2023.108356】
[391] 齐敦哲,宋希杰,沈玉彬,邹璇,杜立普,王正伟,离心泵转轮内流动特性及磨损数值预测,中国农村水利水电[1007-2284], Published 2023, Issue 1, Pages 134-138+151
【DOI:10.12396/znsd.220481】
[392] 黄文龙,毕慧丽,叶永进,张绍政,尹禧龙,黄星星,王正伟,金州🧑🏼🎤🧍🏻♀️,水泵水轮机开机过程水力特性研究💇♂️,水力发电学报[1003-1243], Published 2023, Volume 42, Issue 2, Pages 97-104。 【DOI🏊🏿:10.11660/slfdxb.20230210】
[393] 齐敦哲,宋希杰,沈玉彬,邹璇,杜立普,王正伟,基于CFD数值模拟泵站多机组运行性能分析,大电机技术[1000-3983], Published 2023, Issue 4, Pages 47-53+62
【DOI:10.3969/j.issn.1000-3983.2023.04.007】
[394] Jin Faye, Luo Yongyao, Bi Huili, Wang Huanmao, Wang Zhengwei, Lin Kai, Lei Xingchun, Yang Xiaolong👨🏿🎓,Transient simulation of reversible pump turbine during pump mode's starting up,Journal of Energy Storage[2352-152X], Published 2023, Volume 68
【SCI-WOS:001012814100001, EI:20232114134008, DOI: 10.1016/j.est.2023.107678】
[395] Kang Wenzhe, Zhou Lingjiu, Wang Zhengwei👨🦯➡️,Analysis of flow characteristics and cavitation in the vanes of a reversible pump-turbine in pump mode💅🏽,Journal of Energy Storage[2352-152X], Published 2023, Volume 68
【SCI-WOS:001010835500001, EI:20232114118848, DOI:10.1016/j.est.2023.107690】
[396] Zhu Di, Hu Zilong, Chen Yan, Wang Chao, Yang Youchao, Lu, Jiahao, Song Xijie, Tao Ran, Wang Zhengwei, Ma Wensheng,Improvement Design of a Two-Stage Double-Suction Centrifugal Pump for Wide-Range Efficiency Enhancement👨🏼🦱🦹♂️,Water (Switzerland)[2073-4441], Published 2023, Volume 15, Issue 9
【SCI-WOS:000987001600001, EI:20232014103610, DOI: 10.3390/w15091785】
[397] Ji Zhenwei, Shi Yishu, Da Xinming, Cao Jingwei, Gong Qijun, Wang Zhengwei, Huang Xingxing,Influence of Installation Deviation of Thrust Bearing on Oil Film Flow of 1000 MW Hydraulic Turbine Unit,Water (Switzerland)[2073-4441], Published 2023, Volume 15, Issue 9
【SCI-WOS:000987834500001, EI:20232014101527, DOI: 10.3390/w15091649】
[398] Yang Jing, Peng Chong, Li Changquan, Liu Xinjun, Liu Jian, Wang Zhengwei,Design and verification of Francis turbine working in sand laden hydro-power plant👔,Renewable Energy[0960-1481], Published 2023, Volume 207, Pages 40-46
【SCI-WOS:000951594100001,EI:20231213774361,DOI: 10.1016/j.renene.2023.02.088】
[399] Wang Yifan, Jin Kun, Huang Xingxing, Lin Peng, Wang Zhengwei, Wang Wenliang, Zhou Lingjiu,Influence of Radial Installation Deviation on Hydraulic Thrust Characteristics of a 1000 MW Francis Turbine,Water (Switzerland)[2073-4441], Published 2023, Volume 15, Issue 8
【SCI-WOS:000979699400001,EI:20231914057598,DOI: 10.3390/w15081606】
[400] Wu Weidong, Pang Jiayang, Liu Xuyang, Zhao Weiqiang, Lu Zhiwei, Yan Dandan, Zhou Lingjiu, Wang Zhengwei,Effect of Unbalanced Magnetic Pull of Generator Rotor on the Dynamic Characteristics of a Pump—Turbine Rotor System,Water (Switzerland)[2073-4441], Published 2023, Volume 15, Issue 6.
【SCI-WOS:000959154700001,EI:20231613893313,DOI: 10.3390/w15061120】
[401] Zhang Jiwen, Zhang Jianwei, Huang Xingxing, Chen Gaoqiang, Wang Zhengwei, You Congdong,Effect of Generator Rotor Radial Deviation on the Unbalanced Magnetic Pull of 1000 MW Hydro-Generator Unit🫦,Processes[2227-9717], Published 2023, Volume 11, Issue 3.【SCI-WOS:0009601734000,EI:20241215784752,DOI: 10.3390/pr11030899】
[402] Ji,Z.; Zhang,J.; Hu,Z.; Huang,X.; Zhao,T.; Wang,Z.Influence of Magnetic Pole Ovality on the Unbalanced Magnetic Pull of a 1000 MW Hydro-generator Unit Installed with High Precision, 2022 International Conference on Environmental Science and Green Energy (ICESGE)Page160-7. 【DOI:10.1109/ICESGE56040.2022.10180380】
[403] Song Xijie, Luo Yongyao, Chao Liu, Wang Zhengwei, Jin Yan,Numerical simulation and experimental study on an innovative vortex eliminator using a modified SST turbulence model for gas-liquid two-phase flow,Ocean Engineering[0029-8018], Published 2023, Volume 268
【SCI-WOS:000916673000001,EI:20230213368645,DOI: 10.1016/j.oceaneng.2022.113383】
[404] Jin Faye, Luo Yongyao, Zhao Qiang, Cao Jiali, Wang Zhengwei,,Energy loss analysis of transition simulation for a prototype reversible pump turbine during load rejection process,ENERGY[0360-5442], Published 2023, Volume 284
【SCI-WOS:001149553200001, EI:20234114849274, DOI:10.1016/j.energy.2023.129216】
[405] Yao Rao, Wang Zhengwei, Huang Xingxing,Design Parameters Investigation on Sand Transportation Characteristics of V-Inclined Pipe Based on Eulerian-Eulerian Two-Phase Flow Model,WATER[2073-4441], Published 2023, Volume 15, Issue 24
【SCI-WOS:001130989300001, DOI:10.3390/w15244266】
[406] Wang Yifan, Jin Kun, Huang Xingxing, Gai Fei, Wang Zhengwei, Liu Xingmin, Zhou Lingjiu,Research on the Hydraulic Characteristics of 1000 MW Francis Runner: Influence of Radial Installation Deviations,APPLIED SCIENCES-BASEL[2076-3417], Published 2023, Volume 13, Issue 22
【SCI-WOS:001120953800001, DOI:10.3390/app132212498】
[407] Zhang Yali, Luo Wendong, Chen Tao, Zhou Lingjiu, Wang Zhengwei🧲,Study on the Cavitation Characteristics of Shroud Clearance in Prototype and Model of a Kaplan Turbine,WATER[2073-4441], Published 2023, Volume 15, Issue 22
【SCI-WOS:001120245700001, EI:20234815125558, DOI:10.3390/w15223960】
[408] Liu Xuyang, Pang Jiayang, Li Lei, Zhao Weiqiang, Wang Yupeng, Yan Dandan, Zhou Lingjiu, Wang Zhengwei🍽🤦🏼♂️,Comparative Study on Numerical Calculation of Modal Characteristics of Pump-Turbine Shaft System🧑🦯➡️,JOURNAL OF MARINE SCIENCE AND ENGINEERING[2077-1312], Published 2023, Volume 11, Issue 11
【SCI-WOS:001118328500001, DOI:10.3390/jmse11112068】
[409] Jin Kun, Lu Yonggang, Lin Peng, Zhang Zequan, Li Juan, Zhao Yun, Huang Xingxing, Wang Zhengwei,Research on the Hydraulic Excitation Characteristics of the Top Cover Caused by the Radial Installation Deviation of the Seal of a 1GW Francis Turbine🧔🏿,PROCESSES[2227-9717], Published 2023, Volume 11, Issue 11
【SCI-WOS:001115260300001, EI:20241515856970,DOI:10.3390/pr11113172】
[410] Zhang Tao, Hu Zilong, Liu Xinjun, Lu Jiahao, Song Xijie, Zhu Di, Wang Zhengwei,Comparison of Pressure Pulsation Characteristics of Francis Turbine with Different Draft Tube Arrangement Direction👨👦✔️,WATER[2073-4441], Published 2023, Volume 15, Issue 22. 【SCI-WOS:001114633700001EI:20234815127156,DOI:10.3390/w15224028】
[411] Luo Hongyun, Liu Chengming, Luo Haiqiang, Zhou Lingjiu, Wang Zhengwei,Evaluation of the Influence of Upstream Flow on the Energy Characteristics of a Giant Kaplan Turbine★😎,WATER[2073-4441], Published 2023, Volume 15, Issue 22
【SCI-WOS:001113365300001, EI:20234815126982,DOI:10.3390/w15223920】
[412] Jin Faye, Luo Yongyao, Wang Huanmao, Wang Zhengwei, Lin Kai, Lei Xingchun, Yang Xiaolong🔔💒,Dynamic response of a pump-turbine runner during turbine's mode starting up,JOURNAL OF ENERGY STORAGE[2352-152X], Published 2023, Volume 74
【SCI-WOS:001104580800001, EI:20234414985589,DOI:10.1016/j.est.2023.109339】
[413] Shang Linmin, Cao Jingwei, Wang Zhengwei, Liu Xiaobing🎨,Hydraulic Characterization of Variable-Speed Pump Turbine under Typical Pumping Modes👨🏿💻,PROCESSES[2227-9717], Published 2023, Volume 11, Issue 10
【SCI-WOS:001095412700001, EI:20241215778799,DOI:10.3390/pr11102903】
[414] Ru Songnan, Zhang Shaozheng, Zhou Kaitao, Huang Xingxing, Huang Wenlong, Wang Zhengwei,Numerical Study on the Flow and Structural Characteristics of a Large High Head Prototype Pump-Turbine under Different Operating Conditions,PROCESSES[2227-9717], Published 2023, Volume 11, Issue 10
【SCI-WOS:001095363200001, EI:20241215785161,DOI:10.3390/pr11102970】
[415] Hu Haiping, Xia Ming, Song Xianghui, Zhao Weiqiang, Wang Wei, Wang Zhengwei🐻,A Field Investigation of Stability Characteristics of Pressure Fluctuation and Vibration in Prototype Pump Turbine at Multiple Working Points🦥,WATER[2073-4441], Published 2023, Volume 15, Issue 19.
【SCI-WOS:001083598600001, EI:20234214908335,DOI:10.3390/w15193378】
[416] Li Lei, Yan Dandan, Liu Xuyang, Zhao Weiqiang, Wang Yupeng, Pang Jiayang, Wang Zhengwei✸,Numerical Study on the Effect of Crown Clearance Thickness on High-Head Pump Turbines🐭,WATER[2073-4441], Published 2023, Volume 15, Issue 19.
【SCI-WOS:001081204700001, EI:20234214907857,DOI:10.3390/w15193397】
[417] Zhang Tao, He Gensheng, Guang Weilong, Lu Jiahao, Song Xijie, Zhu Di, Wang Zhengwei✦✌🏻,Investigation of the Internal Flow in a Francis Turbine for Comparing the Flow Noise of Different Operation Conditions🫣,WATER[2073-4441], Published 2023, Volume 15, Issue 19.
【SCI-WOS:001081187400001, EI:20234214908309,DOI:10.3390/w15193461】
[418] Lu Jiahao,Yan Wei,Tao Ran,Wang Zhengwei, Zhu Di,Exploring the Mechanism of Strong-Pressure Fluctuation under Partial Load in the Turbine Mode of Pump Turbines for Hydro and Marine Power Storage Open Access🥳,Journal of Marine Science and Engineering[2077-1312], Published 2023, Volume 11, Issue 5.
【SCI-WOS:000997834200001,DOI:10.3390/jmse11051089】
[419] Lv Yue, Li Shugang, Wang Zhengwei, Zhou Lingjiu,Study on pump mode cavitation characteristic of variable speed pump turbine✊🏼,Physics of Fluids[1070-6631], Published 2023, Volume 35, Issue 6.
【SCI-WOS:001004011300005, EI:20232514254290,DOI:10.1063/5.0154131】
[420] Chen Hao, Lu Yonggang, Liu Kui, Zhang Zequan, Li Honghui, Huang Xingxing, Zhao Weiqiang, Wang Zhengwei,Study on the Internal Flow Characteristics of Long and Short Blade Runners of a 1000 MW Francis Turbine under Different Opening Conditions,Processes[2227-9717], Published 2023, Volume 11, Issue 6.
【SCI-WOS:001017939300001, EI:20241215783835,DOI:10.3390/pr11061796】
[421] Zhu Di, Yan Wei, Guang Weilong, Wang Zhengwei, Tao Ran,Influence of Guide Vane Opening on the Runaway Stability of a Pump-Turbine Used for Hydropower and Ocean Power🪦,Journal of Marine Science and Engineering[2077-1312], Published 2023, Volume 11, Issue 6.
【SCI-WOS:001014591300001,DOI:10.3390/jmse11061218】
[422] Liu Chengming, Chen Tao, Kang Wenzhe, Kang Jianjun, Zhou Lingjiu, Tao Ran, Wang Zhengwei,Study on Pressure Pulsation and Force Characteristics of Kaplan Turbine,Water (Switzerland)[2073-4441], Published 2023, Volume 15, Issue 13.
【SCI-WOS:001032356600001,EI:20232914405935,DOI:10.3390/w15132421】
[423] Wang Wei, Zhou Lingjiu, Tao Ran, Song Xijie, Wang Zhengwei,Numerical simulation of dynamic characteristics of hydrofoil structure under cavitation conditions🎮,Ocean Engineering[0029-8018], Published 2023, Volume 280.
【SCI-WOS:001022330200001,EI:20232314178498,DOI:10.1016/j.oceaneng.2023.114937】
[424] Yao R, Wang Z W, Huang X X. Design Parameters Investigation on SandTransportation Characteristics of V-inclined Pipe Based on Eulerian-EulerianTwo-Phase Flow model. Water, 2023, 15(24):4266. 【DOI: 10.3390/w15244266】
[425] Shang Linmin, Cao Jingwei, Wang Lei, Yu Shuang, Ding Sen, Wei Zichao, Wang Zhengwei, Liu Xiaobing🚡,Analysis of Flow and Runner Dynamic Response Characteristics under Pump Conditions of Variable-Speed Pump Turbine,Journal of Marine Science and Engineering[2077-1312], Published 2023, Volume 11, Issue 8.
【SCI-WOS:001057408200001,DOI:10.3390/jmse11081493】
[426] Wang Jinliang, Song Xijie, Wang Hu, Tao Ran, Wang Zhengwei,Numerical Prediction of Erosion of Francis Turbine in Sediment-Laden Flow under Different Heads🚀,Processes[2227-9717], Published 2023, Volume 11, Issue 9.
【SCI-WOS:001074576300001,EI:20241515856862,DOI:10.3390/pr11092523】
[427] Luo Yongyao, Cao Jingwei, Zhai Liming, Wang Zhengwei,Pressure pulsation and dynamic behavior analysis of an ultra-low head bidirectional rim-generator turbine with special emphasis on the gravity effect🖖🏼,Ocean Engineering[0029-8018], Published 2023, Volume 286.
【SCI-WOS:001054900900001,EI:20233614695736,DOI:10.1016/j.oceaneng.2023.115524】
[428] Jin Faye, Wang Huanmao, Luo Yongyao, Presas Alexandre, Bi Huili, Wang Zhengwei, Lin Kai, Lei Xingchun, Yang Xiaolong🪂,Visualization research of energy dissipation in a pump turbine unit during turbine mode's starting up,Renewable Energy[0960-1481], Published 2023, Volume 217.
【SCI-WOS:001068869100001,EI:20233414605687,DOI:10.1016/j.renene.2023.119172】
[429] Luo Yongyao, Yang Guangdong, Cao Jingwei, Yang Jianwei, Chen Jie, Zhao Haiying, Wang Zhengwei,Multibody dynamics analysis of a Kaplan turbine runner in full operating conditions🪿★,Journal of Energy Storage[2352-152X], Published 2023, Volume 72.
【SCI-WOS:001040277600001,EI:20232914418027,DOI:10.1016/j.est.2023.108269】
[430] Guo Jianqiang, Bi Huili, Luo Guohu, Wang Zhengwei,Prediction on the axial water thrust characteristics of pump turbine runner under partial load,Journal of Physics: Conference Series[1742-6588], Published 2023, Volume 2441, Issue 1.
【WOS:23249016,EI:20231413841275,DOI:10.1088/1742-6596/2441/1/012044】
[431] Jiwen Zhang , Xingxing Huang, Zhengwei Wang,Study of Unsymmetrical Magnetic Pulling Force and Magnetic Moment in 1000 MW Hydrogenerator Based on Finite Element Analysis, Symmetry 2024, 16(10), 1351
【SCI-DOI:10.3390/sym16101351】
[432] Xiao Yunfeng, Zhang Dehao, Huang Xingxing, Li Zheng, Wang Zhengwei, Wang Yan, Wang Biao🚀🍩,Stress Characteristics Analysis of Key Stationary Structural Components of Pump-Turbine Units Under Extreme Conditions,Mechanisms and Machine Science[2211-0984], Published 2024, Volume 146, Pages 15-22.
【SCI-WOS:24707692,EI:20240615499533,DOI:10.1007/978-3-031-44947-5_2】
[433] Li Jinjun, Liu Qiang, Wang Weigang, Song Xijie, Wang Zhengwei, Zhu Di, Tao Ran,Pressure pulsation test of Wanjiazhai Francis turbine at different loads👱🏻,Journal of Physics: Conference Series[1742-6588], Published 2024, Volume 2707, Issue 1.
【WOS:24799562,EI:20241215791637,DOI:10.1088/1742-6596/2707/1/012059】
[434] He Gensheng, Pan Jiale, Su Lifeng, Song Xijie, Wang Zhengwei, Zhu Di, Tao Ran,Analysis of energy dissipation in allowable, restricted and prohibited operating areas of wanjiazhai francis turbine🧔♀️🥱,Journal of Physics: Conference Series[1742-6588], Published 2024, Volume 2707, Issue 1.
【WOS:24799563,EI:20241215791638,DOI:10.1088/1742-6596/2707/1/012060】
[435] Liu Xinjun, Lu Jiahao, Luan Shaoshuai, Song Xijie, Wang Zhengwei, Zhu Di, Tao Ran👩❤️💋👩,Evaluation of the prototype performance of Wanjiazhai Francis turbine with flow pattern analysis,Journal of Physics: Conference Series[1742-6588], Published 2024, Volume 2707, Issue 1.
【WOS:24799597,EI:20241215791676,DOI:10.1088/1742-6596/2707/1/012098】
[436] Chen Weijiang, Huang Xingxing, Xie Jingpeng, Wang Zhengwei,Effect of Water-added-mass on Modal Behavior of Shaft-line of Large Hydroelectric Generator Unit,Journal of Physics: Conference Series[1742-6588], Published 2024, Volume 2747, Issue 1.
【WOS:25057991,EI:20242116109469,DOI:10.1088/1742-6596/2747/1/012045】
[437] Pang Jiayang, Chang Xiao, Gang Yuanyuan, Zhou Ziyao, Xiang Wenping, Zhou Lingjiu, Liu Xiaobing, Wang Zhengwei,Design and Study of a Sediment Erosion Test Device for a Single-Flow Channel in the Guide Apparatus of a Reaction Hydraulic Turbine🎱,JOURNAL OF MARINE SCIENCE AND ENGINEERING, Published 2024, Volume 12, Issue 5. 【SCI-WOS:001232413300001,DOI:10.3390/jmse12050777】
[438] Shi Yishu, Cao Jingwei, Zhai Liming, Wang Zhengwei,The influence of installation deviation on the upper guide bearing thermo-hydrodynamic characteristics of a 1000 MW giant hydropower unit,PHYSICS OF FLUIDS[1070-6631], Published 2024, Volume 36, Issue 5.
【SCI-WOS:001214486500001,EI:20242016080178,DOI:10.1063/5.0205446】
[439] Xia Ming, Zhao Weiqiang, Wang Zhengwei, Qiao Mu,Pulsation Stability Analysis of a Prototype Pump-Turbine during Pump Mode Startup: Field Test Observations and Insights,PROCESSES[2227-9717], Published 2024, Volume 12, Issue 4.
【SCI-WOS:001210759600001,EI:20241816012468,DOI:10.3390/pr12040838】
[440] Song Xijie, Luo Yongyao, Wang Zhengwei☑️,Mechanism of the influence of sand on the energy dissipation inside the hydraulic turbine under sediment erosion condition,ENERGY[0360-5442], Published 2024, Volume 294.
【SCI-WOS:001202468200001,EI:20241015671378,DOI:10.1016/j.energy.2024.130794】
[441] Cao Jingwei, Luo Yongyao, Liu Xin, Presas Alexandre, Deng Liwei, Zhao Weiqiang, Xia Ming, Wang Zhengwei,Numerical theory and method on the modal behavior of a pump-turbine rotor system considering gyro-effect and added mass effect🤾🏽,JOURNAL OF ENERGY STORAGE[2352-152X], Published 2024, Volume 85.
【SCI-WOS:001195939000001,EI:20241015665352,DOI:10.1016/j.est.2024.111064】
[442] 陈浩🤲🏼,施艺舒,王东,黄星星,杨年浩🚲,王正伟📃,巨型机组下导轴承安装偏差对油膜特性的影响,大电机技术, 2024, (03): 36-44⛸。【DOI:10.3969/j.issn.1000-3983.2024.03.006】
[443] 杨静,刘斌,马哲,孙勇,肖鹏飞,王正伟,可水力短路运行的三机式抽蓄机组研究综述👨🏿💼,大电机技术💁♀️,出版年:2024🗂,期:03,页码:96-102+109🗞。
【DOI: 10.3969/j.issn.1000-3983.2024.03.014】
[444] Cao Jingwei, Luo, Yongyao, Deng Liwei, Liu Xin, Yan Shu, Zhai Liming, Wang Zhengwei,Thermo-hydrodynamic lubrication and energy dissipation mechanism of a pump-turbine thrust bearing in load-rejection process🧛🏿⬇️,PHYSICS OF FLUIDS[1070-6631], Published 2024, Volume 36, Issue 3.
【SCI-WOS:001183702100018,EI:20241215760584,DOI:10.1063/5.0196490】
[445] Deng Sen, Zhao Weiqiang, Huang Tianbao, Xia Ming, Wang Zhengwei,A Comparative Study on the Cam Relationship for the Optimal Vibration and Efficiency of a Kaplan Turbine🧱,JOURNAL OF MARINE SCIENCE AND ENGINEERING[2077-1312], Published 2024, Volume 12, Issue 2.
【SCI-WOS:001170122100001,DOI:10.3390/jmse12020241】
[446] Liu Chengming, Wu Siyuan, Huang Xingxing, Zhang Shuai, Zhou Lingjiu, Hu Tianli, Wang Zhengwei,Flow Characteristics Analysis of a 1 GW Hydraulic Turbine at Rated Condition and Overload Operation Condition,PROCESSES[2227-9717], Published 2024, Volume 12, Issue 2.
【SCI-WOS:001168469500001,EI:20241215784234,DOI:10.3390/pr12020255】
[447] Hu Haiping, Xia Ming, Song Xianghui, Wang Zhengwei, Qiao Mu, Ramos Helena M.👨🏿🎤,Numerical Investigation of Inner Flow Characteristics of a Prototype Pump Turbine with a Single Pier in Draft Tube at Part Load Conditions🥧,WATER[2073-4441], Published 2024, Volume 16, Issue 1.
【SCI-WOS:001140623200001,EI:20240215367198,DOI:10.3390/w16010013】
[448] Zhang Dehao, Quan Qiang, Huang Xingxing, Wang Zhengwei, Wang Biao, Xiao Yunfeng🤎,Transient Flow-Induced Stress Investigation on a Prototype Reversible Pump-Turbine Runner🧑🏽🎤,Energies, Published 2024,Volume 17, Issue 12.
【SCI-WOS:001256126800001,EI:20242616529917,DOI:10.3390/en17123026】
[449] Liu Chengming, Luo Haiqiang, Wang Guiyu, Chen Xiaobin, Zhou Lingjiu, Wang Zhengwei,Study on Structure Dynamic Characteristics for Internal Components of Kaplan Turbine Runner under Different Contact Modes◻️,Processes, Published 2024,Volume 12,Issue 6.
【SCI-WOS:001256096300001,EI:20242616529998,DOI:10.3390/pr12061061】
[450] Yan Dandan, Luo, Haiqiang, Zhao Weiqiang, Wu, Yibin, Zhou Lingjiu, Fan Xiaofu, Wang Zhengwei,Inner Flow Analysis of Kaplan Turbine under Off-Cam Conditions,Energies, Published 2024,Volume 17, Issue 11.
【SCI-WOS:001245625500001,EI:20242416256688,DOI:10.3390/en17112548】
[451] Wang Lei, Yu Shuang, Shang Linmin, Cao Jingwei, Wang Zhengwei🧏🏼♂️,Study of axial hydraulic thrust and radial force characteristics of a variable speed pump-turbine unit🧔🏼,Journal of Physics: Conference Series, Published 2024, Volume 2752, Issue 1.
【WOS:25351061,EI:20242716615582,DOI:10.1088/1742-6596/2752/1/012052】
[452] Wang Zhengwei, Wang Lei, Yu Shuang, Li Sainan,Research on the Flow Characteristics in the Gap of a Variable-Speed Pump-Turbine in Pump Mode⚓️,Processes, Published 2024,Volume 12, Issue 7.
【SCI-WOS:001277259500001,EI:20243116781111,DOI:10.3390/pr12071424】
[453] Song Xijie, Jin Yan, Wang Zhengwei, Alexandre Presas, Tang Fangping, Liu Chao🦟,Energy dissipation and time-frequency analysis of characteristics induced by vortex breakdown in an axial flow pump,Physics of Fluids, Published 2024,Volume 36, Issue 6.【SCI-WOS:001239083900018,EI:20242316216504,DOI:10.1063/5.0202531】
[454] Yang, J., Yao, L., Liu, J., Yue, B., Ma, Z., Sun, Y., Wang, Z. W.(Wang Zhengwei) (2024). Research on incipient and critical cavitation of a Francis turbine. Journal of Physics: Conference Series, 2752(1), 012005.
【WOS:25263040,EI:20242716615686,DOI:10.1088/1742-6596/2752/1/012005】
[455] Zhou, X., Luo, Y., Wang, Z. W. (Wang Zhengwei), Ahn, S., Luo, H., Wu, Y. ,Zhou, J. (2024). Investigation on hydraulic characteristics of a model and prototype bulb turbine based on similarity criteria. Journal of Physics: Conference Series, 2752(1), 012159.
【WOS:25263176,EI:20242716615539,DOI:10.1088/1742-6596/2752/1/012159】
[456] Luo, HY, Wang, GY, Chen, XB, Liu, CM, Zhou, LJ, Wang, Z. W. (Wang Zhengwei)(2024). Dynamic Response Characteristics of Rotating and Fixed Components of the Kaplan Turbine under Low and Medium Heads. Water, 16(15).
【SCI-WOS:001287252500001,EI:20243316850415,DOI:10.3390/w16152137】
[457] Jin Faye, Luo Yongyao, Wang Zhengwei, Research on the starting-up process of a prototype reversible pump turbine with misaligned guide vanes: An energy loss analysis, Energy, Published 2024,Volume 304.
【SCI-WOS:001284683400001,EI:20242716566421,DOI:10.1016/j.energy.2024.132219】
[458] Luo Hongying, Xie Jiuming, Liang Quanwei, Wang Zhengwei, Analysis of the impact of Tibet Plateau environment on the operating conditions of water turbine machine, Published 2024, Journal of Physics: Conference Series, Volume 2752, Issue 1, Page 012010 (7 pp.)【WOS:25263045,EI:20242716615691,DOI:10.1088/1742-6596/2752/1/012010】
[459] Song Huating, Huang Xingxing, Zhang Gaomeng, Wen Zhenhui, Zhao Weiqiang, Wang Zhengwei, Transient Flow Dynamics Analysis of a Large Prototype Francis Turbine at Different Loads, Published 2024, 2024 8th International Conference on Green Energy and Applications (ICGEA), Page 169-73.
【WOS:25274668,EI:20242816685220,DOI:10.1109/ICGEA60749.2024.10561003】
[460] Jian Bin, Zhao Weiqiang, Guo Rongfu, Chen Shupinng, Xia Ming, Wang Zhengwei, Application of Multi-Dimensional Hill Chart in the Condition Monitoring and Cost Estimation of the Francis Turbine Unit, Published 2024, Processes, Volume 12, Issue 6.
【SCI-WOS:001255788500001,EI:20242616529982,DOI:10.3390/pr12061243】
[461] Lu Yonggang, Zhang Zequan, Chen Hao, Liu Kui, Huang Xingxing, Li Honghui, Wang Zhengwei, Presas Alexandre, Study on the design of short blade offset for the long and short blade runner of 1000 MW hydraulic turbine units, Published 2024, Journal of Physics: Conference Series, Volume 2752, Issue 1, pp 012024 (11 pp.)
【WOS:25263055,EI:20242716615705,DOI:10.1088/1742-6596/2752/1/012024】
[462] Cai Jinhan, Zhou Xuejun, Luo Hongying, Wang Zhengwei, Design of Pelton Turbine Test Stand in Plateau Environment, Published 2024, Journal of Physics: Conference Series, Volume 2752, Issue 1, pp 012023 (7 pp.)
【WOS:25263054,EI:20242716615704,DOI:10.1088/1742-6596/2752/1/012023】
[463] Zhou Kangwu, Huang Xingxing, Zhang Tengfei, Wang Zhengwei, Research on Modal Behavior of Large Francis Turbine Runner ,Published 2024, Journal of Physics: Conference Series, Volume 2747, Issue 1, pp 012050 (6 pp.)
【WOS:25057995,EI:20242116109227,DOI:10.1088/1742-6596/2747/1/012050】
[464] Lei Li, Dandan Yan, Xuyang Liu, Weiqiang Zhao, Yupeng Wang, Zhengwei Wang. Effect of crown gap thickness on axial force of high-head pump turbine, Journal of Physics: Conference Series, 2024, 2752, 012086. 【DOI:10.1088/1742-6596/2752/1/012086】
[465] Yonggang Lu,Chuanbao Yi, Zequan Zhang, Yonggang Lu, Haiyang Dong,Shuangquan Xu, Xiji Li, Chuanzhen Sun, Shuaishuai Zhangand Zhengwei Wang. Research on the Pressure Fluctuation Distribution and Rotor-stator Interaction in the Vaneless Region of a pump-turbine of Francis type. Frontiers in Energy Research,2024.
【SCI-DOI: 10.3389/fenrg.2024.1387367】
[466] Baig Mirza Umar,Ravi Poudel,Zhengwei Wang,SaileshChitrakar,Aaditya Karna,Bhola Thapa,Experimental Study of Sediment Erosion in PeltonTurbine Bucket,IOP Conference Series: Earth and Environmental Science, 2024. 1385(1): p. 012006
【DOI: 10.1088/1755-1315/1385/1/012006】
[467] Baig Mirza Umar, Zhengwei Wang, Sailesh Chitrakar, Bhola Thapa, Xingxing Huang, Ravi Poudel, Ravi Poudel, Experimental Erosion Flow Pattern Study of Pelton Runner Buckets Using a Non-Recirculating Test Rig. Energies, 2024. 17(16): p. 4006.
【SCI-WOS:001305647500001 DOI:10.3390/en17164006】
[468] Mirza Umar, B., X. Huang, and Z. Wang(Wang Zhengwei),Experimental Flow Performance Investigation of Francis Turbines from Model to Prototype. Applied Sciences, 2024. 14. 【SCI-WOS:001310933800001 DOI: 10.3390/app14177461】
[469] Shi Yishu, Wang Zhengwei. The impact of installation deviation on the lubricating characteristics of a 1000 MW giant hydropower unit’s tilting-pad journal bearing. Journal of Physics: Conference Series, 2854 (2024)012114.
【DOI: 10.1088/1742-6596/2854/1/012114】
[470] Shuang Yu, Lei Wang, Zhengwei Wang, Sen Ding;Study on the dynamic characteristics of the head cover-bolts stay ring of a variable-speed pump-turbine, Journal of Physics: Conference Series, Volume2854Issue1Page012090 (7 pp.)
【DOI: 10.1088/1742-6596/2854/1/012090】
[471] Lei Wang, Zhengwei Wang, Shengrui Yang, Shuang Yu and Zichao Wei;Study on the dynamic response behaviour of the head cover-bolts-stay ring of a variable-speed pump-turbine,Journal of Physics: Conference Series Volume2854Issue1Page012091 (8 pp.)
【DOI: 10.1088/1742-6596/2854/1/012091】
[472] Lei Wang, Shuang, Yu and Zhengwei Wang;Modal characteristics analysis of a variable-speed pump-turbine rotor system perspective of resonance👨👦👦;Journal of Physics: Conference Series Volume2854Issue1Page012084 (11 pp.)
【DOI: 10.1088/1742-6596/2854/1/012084】
[473] Yutong Luo, Zonghua Li, Shaozheng Zhang, Qingfeng Ren, Zhengwei Wang, Hydrodynamic Characteristics of Preloading Spiral Case and Concrete in Turbine Mode with Emphasis on Preloading Clearance, Processes 2024, 12(9), 2056
【SCI-WOS:001323429800001 DOI: 10.3390/pr12092056】
[474] Zhenwei Zhang, Yutong Luo, Guisheng Yang, Shaozheng Zhang, Zhengwei Wang, Numerical Investigation of Symmetrical and Asymmetrical Characteristics of a Preloading Spiral Case and Concrete during Load Rejection, Symmetry 2024, 16(10), 1277. 【SCI-WOS:001341967900001 DOI: 10.3390/sym16101277】
[475] Wang, He;Li, Chaoshun;Tan, Xiaoqiang;Lu, Xueding;Zhu, Zhiwei;Xu, Rongli;Liu, Xiaobing;Wang, Zhengwei,Multi-timescale analysis and quantification of dynamic regulation characteristics of DFIM-based variable-speed pumped storage units in alleviating wind power fluctuationsJournal of Energy Storage,2024,p88.
【SCI-WOS:001222882400001】
[476] Song, Gangyun; Huang, Xingxing; Li, Haijun; Wang, Zhengwei; Wang, Dong,Impact of Installation Deviations on the Dynamic Characteristics of the Shaft System for 1 Gigawatt Hydro-Generator Unit,MACHINES, 2024,12,p7【SCI-WOS:001277743800001】
[477] Zhao,Yun;Li,Xiji;Lu,Yonggang;Dong,Haiyang;Sun,Chuanzhen;Wang,Zhengwei,Stability Study and Strengthening Strategy of Spiral Case-Encased Concrete Structure of Pumped Storage Power Station, WATER,2024,16,18, 【SCI-WOS:001322957100001】
[478] Yan Dandan, Chen Shuqiang, Ren Peng, Zhao Weiqiang, Chen Xiaobin, Liu Chengming, Zhou Lingjiu, Wang Zhengwei, Vibration and Flow Characteristics of a 200 MW Kaplan Turbine Unit under Off-Cam Conditions, MACHINES, 2024, V12(8).
【SCI-WOS:001305907100001】
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【SCI- WOS:001384112900001 DOI: 10.3390/app142411782】
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