[{"name":"大坝安全监控技术","count":242,"id":1},{"name":"发电控制技术及设备","count":223,"id":2},{"name":"大坝监测仪器及自动化","count":172,"id":3},{"name":"Generation Control Technology and Equipment","count":144,"id":4},{"name":"水情测报与水调自动化","count":142,"id":5},{"name":"Dam Safety Inspection and Monitoring","count":103,"id":6},{"name":"Host and Auxiliary Equipment","count":84,"id":7},{"name":"主机及其辅助设备","count":83,"id":8},{"name":"Hydrological Forecast and Reservoir Regulation","count":72,"id":9},{"name":"Instruments and Automation System for Dams","count":70,"id":10},{"name":"状态检修","count":61,"id":11},{"name":"运行与管理自动化","count":60,"id":12},{"name":"设备保护","count":59,"id":13},{"name":"智能水电厂","count":58,"id":14},{"name":"工程施工","count":57,"id":15},{"name":"设备运行与检修技术","count":55,"id":16},{"name":"Engineering Construction","count":54,"id":17},{"name":"水电厂监控系统","count":53,"id":18},{"name":"专家论坛","count":50,"id":19},{"name":"信息动态","count":49,"id":20},{"name":"监测资料分析","count":47,"id":21},{"name":"闸门控制","count":45,"id":22},{"name":"专题","count":43,"id":23},{"name":"调速励磁与辅机控制","count":43,"id":24},{"name":"特别策划","count":42,"id":25},{"name":"现场经验","count":40,"id":26},{"name":"Automation of Operation and Management","count":39,"id":27},{"name":"Hydraulic and Hydraulics","count":39,"id":28},{"name":"Smart Hydropower Plant","count":37,"id":29},{"name":"Planning and Design","count":36,"id":30},{"name":"技术经济","count":36,"id":31},{"name":"水泵水轮机及其附属设备","count":36,"id":32},{"name":"规划与设计","count":36,"id":33},{"name":"Electrical Equipment","count":35,"id":34},{"name":"水工监测及自动化","count":34,"id":35},{"name":"Operation and Maintenance of Equipment","count":33,"id":36},{"name":"水电工程施工、试验及检测","count":33,"id":37},{"name":"电气设备","count":33,"id":38},{"name":"监测技术与监测设计","count":33,"id":39},{"name":"Host & Auxiliary Equipment","count":32,"id":40},{"name":"Hydraulic Monitoring & Automation","count":32,"id":41},{"name":"Subject on Operation of Hydropower Station and Reservoir Scheduling","count":32,"id":42},{"name":"水电站运行与水库调度技术交流会论文选","count":32,"id":43},{"name":"Technology Economy","count":31,"id":44},{"name":"水情水调自动化技术专题","count":31,"id":45},{"name":"泵站自动化","count":31,"id":46},{"name":"Equipment Protection","count":30,"id":47},{"name":"Expert Forum","count":30,"id":48},{"name":"Research on Pumped Storage Serving New Power System","count":30,"id":49},{"name":"水电厂计算机监控","count":29,"id":50},{"name":"经验点滴","count":29,"id":51},{"name":"业务支撑","count":26,"id":52},{"name":"水资源实时监控","count":25,"id":53},{"name":"Special Feature","count":23,"id":54},{"name":"主机与辅助设备","count":23,"id":55},{"name":"原位测试与室内试验","count":23,"id":56},{"name":"水工及水力学","count":23,"id":57},{"name":"理论与算法研究","count":23,"id":58},{"name":"辅机控制及自动化元件","count":22,"id":59},{"name":"服务新型电力系统的抽水蓄能研究","count":21,"id":60},{"name":"金属结构","count":21,"id":61},{"name":"Computer Monitoring and Control","count":20,"id":62},{"name":"Sluice Control","count":20,"id":63},{"name":"监控与自动化","count":20,"id":64},{"name":"计算机监控技术","count":20,"id":65},{"name":"Condition-based Maintenance","count":19,"id":66},{"name":"Instruments and Automatic System for Dams","count":19,"id":67},{"name":"Metal Construction","count":19,"id":68},{"name":"发电电动机及其附属设备","count":19,"id":69},{"name":"水工及其水力学","count":18,"id":70},{"name":"运行与管理","count":18,"id":71},{"name":"Operation & Maintenance","count":16,"id":72},{"name":"Research on Theories and Algorithms","count":16,"id":73},{"name":"高压电气设备","count":16,"id":74},{"name":"Automation of Pumping Station","count":15,"id":75},{"name":"Safety Inspection and Monitoring","count":15,"id":76},{"name":"水电优化调度","count":15,"id":77},{"name":"水电与电力市场","count":14,"id":78},{"name":"运行与维护","count":14,"id":79},{"name":"Auxiliaries Control and Automatic Component","count":13,"id":80},{"name":"Business Support","count":13,"id":81},{"name":"State Monitoring","count":13,"id":82},{"name":"综述","count":13,"id":83},{"name":"自动化元件及仪器仪表","count":13,"id":84},{"name":"Monitor & Automation","count":12,"id":85},{"name":"Pump Turbine & Auxiliary Facilities","count":12,"id":86},{"name":"安装与试验","count":12,"id":87},{"name":"抽水蓄能","count":12,"id":88},{"name":"特别策划——智能水电站关键技术","count":12,"id":89},{"name":"绿色电力自动化","count":12,"id":90},{"name":"Automatic Control of Hydropower Station","count":11,"id":91},{"name":"Survey","count":11,"id":92},{"name":"新技术与新产品","count":11,"id":93},{"name":"水电站自动控制","count":11,"id":94},{"name":"状态监测","count":11,"id":95},{"name":"Hydropower Project Construction、Test & Detection","count":10,"id":96},{"name":"水工建筑物","count":10,"id":97},{"name":"辅助控制系统","count":10,"id":98},{"name":"2021中国水电青年科技论坛优秀论文","count":9,"id":99},{"name":"Excellent Paper of China Hydropower Technology Youth Forum 2021","count":9,"id":100},{"name":"Generator-motor & Auxiliary Facilities","count":9,"id":101},{"name":"Hydropower Plant Automation","count":9,"id":102},{"name":"Operation and Management","count":9,"id":103},{"name":"Relay Protection","count":9,"id":104},{"name":"抽水蓄能服务新型电力系统研究","count":9,"id":105},{"name":"继电保护","count":9,"id":106},{"name":"Automation of Green Power","count":8,"id":107},{"name":"High Voltage Electrical Equipment","count":8,"id":108},{"name":"Special Column——Intelligent Control of Hydropower Station","count":8,"id":109},{"name":"Special Feature——Research on Hydrology and Sedimentation for Hydropower Engineering Planning and Design","count":8,"id":110},{"name":"水工监测及其自动化","count":8,"id":111},{"name":"特别策划——水电工程规划设计的水文泥沙技术研究","count":8,"id":112},{"name":"电网安全技术","count":8,"id":113},{"name":"2023年中国水电青年科技论坛优秀论文","count":7,"id":114},{"name":"Excellent Paper of China Hydropower Technology Youth Forum 2022","count":7,"id":115},{"name":"Excellent Paper of China Hydropower Technology Youth Forum 2023","count":7,"id":116},{"name":"Generation control Technology and Equipment","count":7,"id":117},{"name":"Hydraulic Structures","count":7,"id":118},{"name":"Hydrological Forecast anti Reservoir Regulation","count":7,"id":119},{"name":"Special Feature—Key Technologies of Sea Water Pumped Story Power Station","count":7,"id":120},{"name":"Special Feature—Key Technologies of Smart Hydropower Plant","count":7,"id":121},{"name":"Special Feature—Research and Application Key Technologies for Large Pumped Storage Power Station Construction","count":7,"id":122},{"name":"Special Feature—Research and Application of New Control Technology for Large Hydropower Generation Units","count":7,"id":123},{"name":"Special Feature——Exploration and Prospect of High-quality Development of Pumped Storage Industry","count":7,"id":124},{"name":"Special Feature——New Progress in the Research of Relay Protection and Excitation Technology in Power Plants","count":7,"id":125},{"name":"Special Feature——Research on Key Technologies for Safe and Stable Operation of Hydropower Units and Powerhouse","count":7,"id":126},{"name":"Special Feature——Research on Key Technologies of Hydro Wind and Solar Multi-energy Complementation","count":7,"id":127},{"name":"Special Feature——Research on Key Technologies of Rock-filled Concrete Dam Construction in Water Conservancy and Hydropower Projects","count":7,"id":128},{"name":"Special Planning——Key Technology of Equipment Condition Monitoring and Evaluation Management for Hydropower Station","count":7,"id":129},{"name":"Three Functions and Two Networks—Research and Application of Intelligent Construction of Pumped Storage Power Stations","count":7,"id":130},{"name":"“三型两网”专栏——抽水蓄能电站群智慧建造研究与应用","count":7,"id":131},{"name":"建设实践","count":7,"id":132},{"name":"特别策划——发电厂继电保护和励磁技术研究新进展","count":7,"id":133},{"name":"特别策划——大型水电机组控制设备新技术研究及应用","count":7,"id":134},{"name":"特别策划——抽水蓄能行业高质量发展探索与展望","count":7,"id":135},{"name":"特别策划——智能水电厂关键技术研究","count":7,"id":136},{"name":"特别策划——水利水电工程中堆石混凝土筑坝关键技术研究","count":7,"id":137},{"name":"特别策划——水电机组及厂房安全稳定运行关键技术研究","count":7,"id":138},{"name":"特别策划——水电站设备状态监测与评价管理关键技术","count":7,"id":139},{"name":"特别策划——水风光多能互补关键技术研究","count":7,"id":140},{"name":"特别策划—大型抽水蓄能电站建设关键技术的研究与应用","count":7,"id":141},{"name":"特别策划—海水抽水蓄能电站关键技术","count":7,"id":142},{"name":"短文","count":7,"id":143},{"name":"2019 Expert Forum","count":6,"id":144},{"name":"2019专家论坛","count":6,"id":145},{"name":"2020中国水电青年科技论坛优秀论文","count":6,"id":146},{"name":"Assistant Control System","count":6,"id":147},{"name":"Excellent Papers of China Hydropower Technology Youth Forum 2020","count":6,"id":148},{"name":"Grid Security Technology","count":6,"id":149},{"name":"Hydrological Forecast & Reservoir Regulation","count":6,"id":150},{"name":"Hydropower and Electricity Market","count":6,"id":151},{"name":"Key Technology of Intelligent Hydropower Station","count":6,"id":152},{"name":"Pumped Storage","count":6,"id":153},{"name":"Special Feature—Four Units Load Rejection in High Head Pumped Storage Station","count":6,"id":154},{"name":"Special Feature—Key Design Technologies for Large Pumped Storage Power Station","count":6,"id":155},{"name":"Special Feature—Key Technologies Of Intelligent Hydropower Station","count":6,"id":156},{"name":"Special Feature—Research on key technology of surge chamber in Large Pumped Storage Power Station","count":6,"id":157},{"name":"Special Feature—The 30 Years' Development of Concrete Face Rockfill Dam in China","count":6,"id":158},{"name":"Special Feature——Application Exploration of New Technology of Protection and Excitation in Hydropower Plant","count":6,"id":159},{"name":"Special Feature——Control and Simulation of Hydraulic Turbine Governor Systems","count":6,"id":160},{"name":"Special Feature——Handling of Major Technical Issues on Site of Pumped Storage Power Station","count":6,"id":161},{"name":"Special Feature——Hydro-wind-photovoltaic-battery Multi-energy Complementary Planning ethnology","count":6,"id":162},{"name":"Special Feature——Innovative Technology of Huge-size Hydraulic Machinery for Next Generation","count":6,"id":163},{"name":"Special Feature——Intelligent Operation,Maintenance and Control Technologies for Large Hydropower Plants and Pumped Storage Power Plants","count":6,"id":164},{"name":"Special Feature——Multi-energy Complementarity of New Power System","count":6,"id":165},{"name":"Special Feature——Operation Performance Analysis and Stability Enhancement Study of Hydraulic Turbo-Machineries","count":6,"id":166},{"name":"Special Feature——Operation and Maintenance of Pumped Storage Power Stations","count":6,"id":167},{"name":"Special Feature——Research on Key Technologies of Dam Seismic Safety","count":6,"id":168},{"name":"Special Feature——Research on Safety Quality Control Technology of Important Bolts in Pumped Storage Power Station","count":6,"id":169},{"name":"Special Feature——Research on the operation stability of pumped storage units","count":6,"id":170},{"name":"Special Feature——Safety Evaluation of Metal Structures for Hydropower and Pumped Storage","count":6,"id":171},{"name":"Special Feature——The Optimization and Application Measures on Key Technologies in Mechanical and Electric Engineering of Large Pumped Storage Power Station","count":6,"id":172},{"name":"Special column—2019","count":6,"id":173},{"name":"Study on Geological Investigation of Pumped Storage Power Station under the Target of \"Double Carbon\"","count":6,"id":174},{"name":"“双碳”目标下抽水蓄能电站的地质勘察工作研究","count":6,"id":175},{"name":"专栏——2019中国水电青年科技论坛优秀论文","count":6,"id":176},{"name":"专栏——水电厂自动化","count":6,"id":177},{"name":"专栏——水电站智能控制","count":6,"id":178},{"name":"主机及辅助设备","count":6,"id":179},{"name":"原位测试与室内测试","count":6,"id":180},{"name":"引水工程安全监测论文选","count":6,"id":181},{"name":"智能化数据综合分析","count":6,"id":182},{"name":"梯级调度","count":6,"id":183},{"name":"深化应用","count":6,"id":184},{"name":"特别策划——中国混凝土面板堆石坝发展30年","count":6,"id":185},{"name":"特别策划——叶片式水力机械运行性能分析与稳定性提升研究","count":6,"id":186},{"name":"特别策划——大坝抗震安全关键技术研究","count":6,"id":187},{"name":"特别策划——大型抽水蓄能电站机电工程关键技术优化及应用","count":6,"id":188},{"name":"特别策划——大型抽水蓄能电站设计关键技术","count":6,"id":189},{"name":"特别策划——大型水电站与抽水蓄能电站智慧运维与控制技术","count":6,"id":190},{"name":"特别策划——抽水蓄能机组运行稳定性研究","count":6,"id":191},{"name":"特别策划——抽水蓄能电站现场重大技术问题处理","count":6,"id":192},{"name":"特别策划——抽水蓄能电站运行与维护","count":6,"id":193},{"name":"特别策划——抽水蓄能电站重要螺栓安全质量控制技术研究","count":6,"id":194},{"name":"特别策划——新型电力系统之多能互补","count":6,"id":195},{"name":"特别策划——水电厂继电保护和励磁新技术的应用探索","count":6,"id":196},{"name":"特别策划——水电和抽水蓄能金属结构安全评价","count":6,"id":197},{"name":"特别策划——水电机组调速系统控制与仿真","count":6,"id":198},{"name":"特别策划——水风光储多能互补规划技术","count":6,"id":199},{"name":"特别策划——面向未来的大型水力机械关键技术研究","count":6,"id":200}]