The demands for massive renewable energy integration, passive network power supply, and global energy interconnection have all gradually increased, posing new challenges for high voltage direct current(HVDC) power tra...The demands for massive renewable energy integration, passive network power supply, and global energy interconnection have all gradually increased, posing new challenges for high voltage direct current(HVDC) power transmission systems, including more complex topology and increased diversity of bipolar HVDC transmission. This study proposes that these two factors have led to new requirements for HVDC control strategies. Moreover, due to the diverse applications of HVDC transmission technology, each station in the system has different requirements. Furthermore, the topology of the AC-DC converter is being continuously developed, revealing a trend towards hybrid converter stations.展开更多
In view of the imbalanced distribution of power load and resources, including the status of “electric shortage” in some cities in our country, the article discusses the long-distance transmission technology. It main...In view of the imbalanced distribution of power load and resources, including the status of “electric shortage” in some cities in our country, the article discusses the long-distance transmission technology. It mainly analyzed two ways of the long-distance transmission: UHV AC transmission and UHV DC transmission. The fractional frequency transmission technology and half wavelength AC transmission technology of AC transmission are introduced. Some key technologies of long-distance transmission are described. It has a guess for long-distance transmission future direction.展开更多
基于电压源换流器高压直流输电(voltage source converter based HVDC,VSC-HVDC)的直流系统存在与交流线路并联运行的情况。交直流系统之间相互切换的运行工况复杂,且切换过程存在切换依据难以确定、切换冲击大以及通信延时等问题。为...基于电压源换流器高压直流输电(voltage source converter based HVDC,VSC-HVDC)的直流系统存在与交流线路并联运行的情况。交直流系统之间相互切换的运行工况复杂,且切换过程存在切换依据难以确定、切换冲击大以及通信延时等问题。为解决该问题,在分析VSC-HVDC工作原理、数学模型及其控制策略的基础上,提出了一种大型风电场经VSC-HVDC交直流并联系统并网的运行控制策略,该策略在不改变换流站控制方式的情况下,可实现交直流并联系统运行方式的无缝切换。基于MATLAB/Simulink仿真软件,建立了系统仿真模型,对交直流并联系统稳态运行及动态切换过程进行了仿真分析。仿真结果表明,所提出的控制策略能够较好地实现交直流并联系统有功功率的精确分配和运行方式的无缝切换,算法简单,可靠性高。展开更多
高压直流输电系统嵌入大型交流系统,将进一步增加换相失败、直流闭锁等故障对系统安全稳定的影响,交流系统与直流系统的交互作用,将使系统动态更加复杂。针对电网不同运行方式下大扰动后系统复杂动态响应特性分析难题,文中提出一种基于...高压直流输电系统嵌入大型交流系统,将进一步增加换相失败、直流闭锁等故障对系统安全稳定的影响,交流系统与直流系统的交互作用,将使系统动态更加复杂。针对电网不同运行方式下大扰动后系统复杂动态响应特性分析难题,文中提出一种基于机电-电磁混合仿真与机器学习的智能分析方法。该方法基于主成分分析(principal components analysis,PCA)降维、基于密度的噪声应用空间聚类(density-based spatial clustering of applications with noise,DBSCAN)、K-means等算法建立二阶段聚类模型,可针对直流落点近区严重故障后大量混合仿真动态曲线在高维空间中自动聚类,并给出相应标识与严重程度;提取交直流系统在不同故障下的典型动态模式,自动标注并识别各模式下主导安全稳定问题。文中所提方法的有效性在2025年华东电网运行方式中得以验证,仿真结果表明,所提方法可有效提取不同故障下系统动态模式,将有效支撑后续复杂故障下的交直流系统动态机理分析。展开更多
特高压(ultra high voltage,UHV)交流与直流线路同廊道运行时带电作业区域电压高、场强大,交直流混合电场比单一电场更为复杂。为确保作业人员安全,结合实际±1100 kV直流和1000 kV交流线路,建立了包含输电导线、杆塔及带电作业人...特高压(ultra high voltage,UHV)交流与直流线路同廊道运行时带电作业区域电压高、场强大,交直流混合电场比单一电场更为复杂。为确保作业人员安全,结合实际±1100 kV直流和1000 kV交流线路,建立了包含输电导线、杆塔及带电作业人员的三维计算模型,通过分析开展带电作业时人员的体表混合场强、电位转移电流及暂态能量,对作业人员安全防护进行研究。结果表明:随着作业人员不断接近直流线路,体表场强受交流线路影响越明显,最高可使作业人员体表场强增大约9%,达到1920 kV/m;交流线路的存在将导致电位转移电流增长约7%,但对暂态能量影响较小。通过对特高压线路不停电检修所减少的碳排放量进行进一步计算,验证了特高压带电作业对减少碳排放具有促进作用。展开更多
The increasing flexibility of active distribution systems(ADSs)coupled with the high penetration of renewable distributed generators(RDGs)leads to the increase of the complexity.It is of practical significance to achi...The increasing flexibility of active distribution systems(ADSs)coupled with the high penetration of renewable distributed generators(RDGs)leads to the increase of the complexity.It is of practical significance to achieve the largest amount of RDG penetration in ADSs and maintain the optimal operation.This study establishes an alternating current(AC)/direct current(DC)hybrid ADS model that considers the dynamic thermal rating,soft open point,and distribution network reconfiguration(DNR).Moreover,it transforms the optimal dispatching into a second-order cone programming problem.Considering the different control time scales of dispatchable resources,the following two-stage dispatching framework is proposed.d dispatch uses hourly input data with the goal(1)The day-ahea of minimizing the grid loss and RDG dropout.It obtains the optimal 24-hour schedule to determine the dispatching plans for DNR and the energy storage system.(2)The intraday dispatch uses 15-min input data for 1-hour rolling-plan dispatch but only executes the first 15 min of dispatching.To eliminate error between the actual operation and dispatching plan,the first 15 min is divided into three 5-min step-by-step executions.The goal of each step is to trace the tie-line power of the intraday rolling-plan dispatch to the greatest extent at the minimum cost.The measured data are used as feedback input for the rolling-plan dispatch after each step is executed.A case study shows that the comprehensive cooperative ADS model can release the line capacity,reduce losses,and improve the penetration rate of RDGs.Further,the two-stage dispatching framework can handle source-load fluctuations and enhance system stability.展开更多
基金supported by the State Grid Science & Technology Project (GEIGC-E-[2018]026)
文摘The demands for massive renewable energy integration, passive network power supply, and global energy interconnection have all gradually increased, posing new challenges for high voltage direct current(HVDC) power transmission systems, including more complex topology and increased diversity of bipolar HVDC transmission. This study proposes that these two factors have led to new requirements for HVDC control strategies. Moreover, due to the diverse applications of HVDC transmission technology, each station in the system has different requirements. Furthermore, the topology of the AC-DC converter is being continuously developed, revealing a trend towards hybrid converter stations.
文摘In view of the imbalanced distribution of power load and resources, including the status of “electric shortage” in some cities in our country, the article discusses the long-distance transmission technology. It mainly analyzed two ways of the long-distance transmission: UHV AC transmission and UHV DC transmission. The fractional frequency transmission technology and half wavelength AC transmission technology of AC transmission are introduced. Some key technologies of long-distance transmission are described. It has a guess for long-distance transmission future direction.
文摘基于电压源换流器高压直流输电(voltage source converter based HVDC,VSC-HVDC)的直流系统存在与交流线路并联运行的情况。交直流系统之间相互切换的运行工况复杂,且切换过程存在切换依据难以确定、切换冲击大以及通信延时等问题。为解决该问题,在分析VSC-HVDC工作原理、数学模型及其控制策略的基础上,提出了一种大型风电场经VSC-HVDC交直流并联系统并网的运行控制策略,该策略在不改变换流站控制方式的情况下,可实现交直流并联系统运行方式的无缝切换。基于MATLAB/Simulink仿真软件,建立了系统仿真模型,对交直流并联系统稳态运行及动态切换过程进行了仿真分析。仿真结果表明,所提出的控制策略能够较好地实现交直流并联系统有功功率的精确分配和运行方式的无缝切换,算法简单,可靠性高。
文摘高压直流输电系统嵌入大型交流系统,将进一步增加换相失败、直流闭锁等故障对系统安全稳定的影响,交流系统与直流系统的交互作用,将使系统动态更加复杂。针对电网不同运行方式下大扰动后系统复杂动态响应特性分析难题,文中提出一种基于机电-电磁混合仿真与机器学习的智能分析方法。该方法基于主成分分析(principal components analysis,PCA)降维、基于密度的噪声应用空间聚类(density-based spatial clustering of applications with noise,DBSCAN)、K-means等算法建立二阶段聚类模型,可针对直流落点近区严重故障后大量混合仿真动态曲线在高维空间中自动聚类,并给出相应标识与严重程度;提取交直流系统在不同故障下的典型动态模式,自动标注并识别各模式下主导安全稳定问题。文中所提方法的有效性在2025年华东电网运行方式中得以验证,仿真结果表明,所提方法可有效提取不同故障下系统动态模式,将有效支撑后续复杂故障下的交直流系统动态机理分析。
基金supported by Universiti Sains Malaysia through Research University Team(RUTeam)Grant Scheme(No.1001/PELECT/8580011)。
文摘The increasing flexibility of active distribution systems(ADSs)coupled with the high penetration of renewable distributed generators(RDGs)leads to the increase of the complexity.It is of practical significance to achieve the largest amount of RDG penetration in ADSs and maintain the optimal operation.This study establishes an alternating current(AC)/direct current(DC)hybrid ADS model that considers the dynamic thermal rating,soft open point,and distribution network reconfiguration(DNR).Moreover,it transforms the optimal dispatching into a second-order cone programming problem.Considering the different control time scales of dispatchable resources,the following two-stage dispatching framework is proposed.d dispatch uses hourly input data with the goal(1)The day-ahea of minimizing the grid loss and RDG dropout.It obtains the optimal 24-hour schedule to determine the dispatching plans for DNR and the energy storage system.(2)The intraday dispatch uses 15-min input data for 1-hour rolling-plan dispatch but only executes the first 15 min of dispatching.To eliminate error between the actual operation and dispatching plan,the first 15 min is divided into three 5-min step-by-step executions.The goal of each step is to trace the tie-line power of the intraday rolling-plan dispatch to the greatest extent at the minimum cost.The measured data are used as feedback input for the rolling-plan dispatch after each step is executed.A case study shows that the comprehensive cooperative ADS model can release the line capacity,reduce losses,and improve the penetration rate of RDGs.Further,the two-stage dispatching framework can handle source-load fluctuations and enhance system stability.