输电能力

考虑FACTS配置的电网输电能力计算计算电网可用输电能力的方法述评

Calculation of Power Network Available Transfer Capability Considering Optimal Mounted Positions of FACTS Devices

提出采用临界点附近的线路电压稳定指标来评估FACTS元件安装地点对输电能力影响的效果。

Branch-based voltage stability index nears the point of voltage collapse is used to evaluate the effect of location of FACTS devices .

用于提高输电能力的TCSC选址和定容方案

Selection Scheme for Installation Site and Optimal Capacity of TCSC to Increase Transfer Capability

最大输电能力（TTC）的计算是整个ATC分析的基础和关键，也是当前研究的热点。

The calculation of Total Transfer Capability ( TTC ) is the groundwork of ATC research .

分别从提高输电能力和电压稳定性两个方面研究SVC的影响。

The influences of SVC on the Shandong power system are analyzed in transmission capacity and voltage stability .

电力系统区域间电网的可用输电能力（ATC）是所有电力市场参与者进行交易活动所必须了解的一项重要参数。

Available transfer capability ( ATC ) of interconnected power systems is important information for all the participants in power markets .

基于P-Q解耦的可用输电能力的计算分析

Analysis of ATC Calculation Based on P-O Decomposition

可用输电能力（ATC）是衡量电力系统在安全稳定运行的前提下区域间功率交换能力的指标。

Available Transfer Capability ( ATC ) is a measure to evaluate the electric power exchange among areas in a reliable manner .

TCSC装置的应用能够有效地提高系统输电能力、降低网损、改善系统稳定性，但由于其成本相对比较昂贵，因此在输电网规划中，其选址与定容问题具有较高的研究价值。

The application of TCSC can effectively increase the transfer capability , reduce the network loss and improve the system stability .

提出了计算电网可用输电能力（ATC）的一种新方法。

This paper presents a new method for calculating available transfer capability ( ATC ) based on semi-smooth Newton method in deregulated environment .

提高10kV配电线路功率因数和输电能力的探讨

Discussion on Improvement of Power Factor and Transmission Capability of 10 kV Distribution Lines

江苏500kV电网北电南送提高输电能力的措施探讨

Measurement for improving transmission capacity of north-to-south power transmission of Jiangsu Power Grid

提高交流500kV线路输电能力的实用化技术和措施

Engineering technologies and measures for improving the transmitting capability of 500 kV transmission lines

然而，由于多种原因，SED会使输电能力的使用不均匀，产生与输电能力不协调的矛盾。

However , due to various reasons , SED may cause a conflict between the production cost and the homogeneousness of transmitting electricity .

考虑到超短期负荷预测偏差的情况下，以购电费用变化量最小为目标函数重新调整发电计划，从而导致电网可用输电能力（ATC）发生变化。

Because of super short-term load forecast error , ATC is changing with the adjustment of the generation scheduling by the object function that purchasing charge is least .

本文的研究开发为电网可用输电能力（ATC）的实际应用提供了理论和技术基础。

The research and development in this paper provides theory and technical basis to the practical application of the Available Transfer Capability of the Power System ( ATC ) .

在对可用输电能力（ATC）问题研究现状分析的基础上，指出该问题研究不应只局限于刚性优化方面，还应进一步向柔性决策方向发展。

After summarizing available transfer capability ( ATC ) researches , it was pointed that the ATC research should tend towards flexible decision-making research on the basis of rigid optimality research .

在电力市场环境下，有效输电能力（ATC）是调度员进行区域间联网互供运行操作的一个重要技术指标和市场信号。

Under the environment of power market , available transfer capability ( ATC ) is an important technology index and market signal for the dispatcher in the operation of inter-connected power system .

在不改变系统发电模式和网络拓扑结构的前提下，如何更好地利用FACTS装置来提高系统的输电能力，改善系统的稳定性，已成为研究人员关心的问题。

It has the advantages of effectively increasing the transfer capability , reducing the network loss and improving the system stability without changing the generation mode and network structure . So it has been a noticeable problem for researchers to take good use of FACTS devices .

针对可用输电能力问题展开了深入研究，构造了适合ATC问题特点的改进粒子群优化模型，提高了ATC计算结果的准确性和有效性；

Based on the research of Available Transfer Capability ( ATC ), the paper presents a new improved particle swarm optimization ( PSO ) model to enhance the accuracy and validity of the ATC results .

随着HVDC和FACTS等新型装置投入电力系统，一方面大大增加了系统的可控程度和输电能力，另一方面也使系统的动态特性变得更为复杂，给电力系统分析领域带来新的挑战。

With new kinds of equipment such as HVDC and FACTS added into the power system , the controllability and transmission ability of power system is increased , meanwhile the dynamic character is more complicated , bringing new challenge to power system analysis area .

重点研究了基于静态电压稳定域（SVSR）的最小切负荷算法和最大输电能力（TTC）快速计算方法。

A minimum load shedding method and a total transfer capability ( TTC ) determining method are given based on Static Voltage Stability Region ( SVSR ) .

目前求解系统输电能力的方法主要有两种：连续性潮流计算法（简称CPF法）和最优潮流法（简称OPF法）。

Now the main methods of calculating the power system transmission capability are continuation power flow calculating method ( CPF method ) and optimal power flow calculating method ( OPF method ) .

通过IEEE算例系统关于最大输电能力和静态电压稳定的计算结果表明，该方法计算精度较高，同时与蒙特卡罗方法相比具有较小的计算量。

The analysis and computation results of total transfer capability and static voltage stability of IEEE test system shows that the proposed method maintains a high degree of accuracy and keeps low the computational burden when compared to the Monte Carlo method .

提出一种基于MonteCarlo仿真和静态电压稳定域方法的概率最大输电能力（TTC）分层计算模型，实现了综合考虑负荷、发电机出力和设备故障不确定性因素的概率TTC快速计算。

A layered TTC ( Total Transfer Capability ) calculation model is developed based on Monte Carlo simulation and the SVSR ( Statistic Voltage Stability Region ) method . Load , generator output and device contingencies uncertainties are considered in this model .

经济性指投资费用，可靠性采用需求方的缺电成本衡量，灵活性首次引用可用输电能力（ATC）来量化。

The investment cost is introduced to indicate economy , the outage cost of customers is adopted to evaluate the reliability , and available transfer capability ( ATC ) is proposed to quantify the flexibility of the network for the first time .

随着交直流混合电网在我国的形成，在电力市场环境下，交直流混合电网可用输电能力（ATC）的研究具有重要的理论意义和应用价值。

With the formation of AC / DC hybrid system in our country , in the power market environment , the research on Available Transfer Capability ( ATC ) for AC / DC hybrid system has important theoretical significance and practical value .

为解决华东电网500kV线路的输电能力瓶颈矛盾，开展了提高现行线路载流量的研究。

To solve the bottleneck of transmission capacity of 500 kV power lines in East China Power Grid , the study of increasing the carrying capacity of current transmission lines was conducted .

文中将基于可靠性分析技术的枚举法和基于序列二次规划的最优潮流算法相结合，用于求解电力系统不同区域间的最大输电能力（TTC）及其概率分布。

An optimal power flow ( OPF ) technique based on the sequential quadratic programming ( SQP ) and the enumeration method for power system reliability analysis are utilized to calculate total transfer capabilities ( TTCs ) of interconnected power systems and their probability distributions .

电力系统区域间可用输电能力（ATC）这一经济技术指标，在维持系统的安全稳定运行、输电阻塞的管理、引导市场交易进行等方面具有特别重要的意义。

Available transfer capability ( ATC ) is applied as the economic and technical indicator in inter-regional electric power system , it is of great importance in maintaining security and stability of the system , managing transmission congestion , and guiding the conduct of market transactions and other aspects .