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全球能源互联网, 2020 柔性直流输电换流阀所用的核心器件绝缘栅双极型晶体管(IGBT)的开关速度很快,IGBT开关过程中会产生强烈的电磁骚扰,加上雷击等瞬态骚扰,导致阀厅形成非常规的强电磁骚扰环境。子模块控制器作为子模块的控制和保护单元,属于低压信号设备,位于高压端子模块本体上,负责接收阀基控制器的开关指令和子模块本体的控制保护,因此电磁兼容(EMC)性能面临着严峻考验。为提升换流阀子模块控制器的EMC能力,对换流阀子模块周围电磁环境进行了仿真分析,并根据分析结果和相关标准,设定了控制器相关EMC试验参数 ...
闻福岳 +5 more
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Research on Flexible HVDC Transmission Technology and Strategies for Improving the Operational Stability of IGBT Components [PDF]
, 2023 [Introduction] With the continuous improvement of the strategic position of clean energy, more and more new energy power generation equipment is connected to the power grid, but its power quality is unstable, which has a great impact on the AC ...
Tao WANG +3 more
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全球能源互联网, 2020 模块化多电平换流器高压直流输电(modular multilevel converter based high voltage direct current,MMCHVDC)系统中链路延时对系统动态性能影响较大,如果延时设计不合理,会导致系统的稳定性变差。随着电压等级的提升,子模块数量相应增加,如何降低控制及保护的延时成为挑战。研究分析昆柳龙直流工程柳北换流站极1换流阀阀控下行、过流保护和上行3种链路延时的组成,提出了相应的测试方法,完成测试并提出优化方向。阀控下行、过流保护和上行链路延时分别小于40 ...
胡煜 +4 more
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Application and Prospect of Flexible Transmission and Distribution Technology in Internet Data Center [PDF]
, 2023 [Introduction] As an important thrust of China's "new infrastructure", internet data centers have ushered in opportunities for vigorous development and become new areas of energy use, putting forward higher requirements for the power supply level and ...
Deyang CHEN +7 more
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New Generation High-Performance VSC-HVDC Back-to-Back Technology and Application in Project [PDF]
, 2023 [Introduction] Due to the dense load, complex grid structure, and close electrical connections in the Guangdong power grid area, there are three major problems for a long time: the risk of large-scale power outages, the interaction between AC and DC, and
Bo ZHU +5 more
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, 2023 张北可再生能源柔性直流电网工程投运以来,交直流系统中数次出现次、超同步振荡问题。对2022年某日振荡发生时现场录波采集到的交直流振荡波形数据进行分析,录波数据分析表明,交流侧的次同步(43.75 Hz)、超同步(56.25 Hz)振荡,在dq坐标系下均表现为6.25 Hz振荡,同时在直流电压和直流电流中也出现了6.25 Hz的振荡频率。初步判断振荡发生的原因是:风电场功率快速变化时,站间骤然变化的直流电压引起了直流电流发生振荡,直流电流通过直流通路造成MMC子模块电容电压产生振荡 ...
刘一民 +5 more
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小开机方式下滇西北送广东±800 kV特高压直流被动进入孤岛过电压研究 [PDF]
全球能源互联网, 2018 为使滇西北送广东±800 kV特高压直流输变电工程投运后尽快满送功率,在送端电厂机组长期处于开机量较小的情况下,需云南主网增加外送滇西北直流功率。针对送端小开机方式下直流被动进入孤岛后的系统过电压展开了风险分析,提出了提升直流输送能力的过电压抑制措施并进行了现场调试验证。计算表明:若以传统的过电压保护策略,送端电厂开2机和5机情况下直流输送功率极限分别为1500 MW和3300 MW;采取直流被动进入孤岛后采用先全切交流滤波器组、切断成功后延时闭锁直流的过电压抑制措施后,可以将直流输能力提升至额定功率 ...
施健 +6 more
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全球能源互联网, 2018 针对柔性直流输电系统直流侧故障快速清除的难题,结合南澳多端柔性直流输电工程的实际生产应用需求,提出了一种新型机械式高压直流断路器拓扑方案,研制出了160 kV超快速机械式高压直流断路器产品,提出了一种采用发电机源提供电流来模拟直流故障的开断试验方法,并完成了双向大电流开断试验,开断电流大于9 kA、开断时间小于5 ms。研究并提出了160 kV机械式高压直流断路器工程应用技术方案,并完成南澳加装高压直流断路器示范工程的现场系统调试 ...
陈名 +7 more
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Method and application of carbon emission calculation for ultra-high voltage (UHV) project construction [PDF]
, 2023 [Objective] As one of the seven key areas of “new infrastructure” development during China’s 14th Five-Year Plan period, the ultra-high voltage (UHV) projects are the backbone of China’s new power system and is of great significance to the transmission ...
CHEN Xiaohong, FU Yipeng, HUANG Chengdong, WANG Yangjie
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全球能源互联网, 2018 采用常规直流与柔性直流混合的特高压多端直流输电系统是昆柳龙直流工程技术方案之一,对采用全桥和半桥混合拓扑的特高压柔性直流输电换流器充电时的均压问题进行分析,提出了两种不同的充电策略。研究了混合三端直流系统的启停顺控流程和直流线路瞬时故障穿越、重启策略。在RT-LAB中搭建三端混合直流输电系统,连接外部阀控装置进行实时仿真实验,实验结果验证了提出的充电策略的正确性,表明所提出的直流线路故障穿越和重启策略可以很好地实现系统穿越故障,使系统重新进入稳态。此外,在±10.5 kV/60 ...
熊岩 +4 more
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