本文介绍了一种新型电力负荷控制系统。
In this paper, a new electric power load control system is introduced.
根据形势的需要,重庆市电力负荷控制系统改造成重庆电力负荷管理系统。
According to the need of situation, Chongqing electric power load system was reconstructed into Chongqing electric power management system.
论述了提高电力负荷控制终端可靠性应采取的措施,介绍了超大规模集成电路在双向控制终端的设计与实现。
This paper discusses the measures to increase the reliability of the power Load control terminal, and introduces the design and realization of two way power control terminal with LSI.
它是基于“需方管理”概念下的新产品。在传统的单级控制的基础上,向下增加了一级控制功能,建立起用户内部的电力负荷控制。
This new system add one more layer control function on the basis of the traditional single layer control system, so it can establish a internal management system of the users.
在电力市场中,它是一个很重要的参数,与供电可靠性、负荷控制和电价规划密切相关。
In power market it is an important parameter for it is related to power supply reliability, load control and power pricing.
在电力需求侧管理中,直接负荷控制是其重要内容。
Direct load control is an important content in the electric power demand side management.
既节约了燃料和一定数量的电力,又可以有效控制用电空调的数量,减少夏季的空调用电负荷。
Not only economize fuel and some electricity but also may control the quantity of the air conditioner of power consuming effectively, air conditioner power consuming load of reducing summer.
超短期负荷预测将成为AGC(自动发电控制)实用化的基础,同时也是动态经济调度和电力市场运行所需的基本信息。
Short-term load forecasting is the foundation of Auto Generation Control (AGC). And it is needed in running and economic distributing of power system.
固体状态调节控制装置(电子程序装置)——调节电力输入,平衡所需负荷。
Solid state modulating control (electronic sequencer) - modulates power input and balances load to demand.
电力系统负荷预测是电力系统运行、控制和规划不可缺少的一部分,是电力市场技术支持系统的基础。
Power system load forecast, which is the base of power market technique supporting system, is an essential part of power system operation, control and planning.
然后,应用分层估计和前馈补偿原理导出电力系统状态估计和负荷频率控制方程。
Then the principles of hierarchical estimation and feed forward compensation are applied to derive the power system state estimation and load frequency control equations.
随着电网规模的不断扩大,电网结构越来越复杂,人们逐渐认识到了电力负荷模型在电力系统分析、运行与控制中的重要性。
With the constant expansion and more complex structure of power grid, people gradually realized the importance of electric load model in power system analysis, operation and control.
电力负荷预测是电力控制及运行方面的最重要的一项任务。
Power load forecasting is the most important task in the power control and running.
多区域电力系统的负荷频率控制(LFC)是保证电能质量和实施安全和经济调度的重要举措。
Load Frequency Control (LFC) of the multi-area power system is an important measure for guaranteeing the electric energy qualities and implementing the secure and economic dispatch.
本文从电力系统有功冲击负荷的数学模型和暂态过程着手,分析和探讨了有功冲击负荷实时控制的基本原理和方法。
By way of describing the mathematical model and analyzing the transient phenomena of active impact load in power systems, its real-time control methods are discussed.
配套相应的真空负荷开关可用于电力、金、山、工等部门的配电系统作控制和保护、别适合投切恶性负载和需频繁操作的场所。
Mating corresponding vacuum load switch is for electric power, metallurgy, mine, chemical controlling and protecting, it is suitable for location that has bad load and frequent operation.
提出应用系统控制参数与系统负荷裕度之间的灵敏度关系、对电力系统电压稳定进行控制的方法。
This paper describes the application of sensitivity of the loading margin with respect to parameter on control for voltage stability.
提出了应用系统控制参数与系统负荷裕度之间的灵敏度关系及对电力系统电压稳定进行预防控制的方法。
This paper describes the application of sensitivity of the loading margin with respect to parameter on preventive control for voltage stability.
负荷模型在电力系统分析计算、控制的研究中和安全自动装置的整定中的重要作用已经越来越被我国的电力工作者所认识。
The importance of dynamic load model for transient stability studies, generation control and regulation of automatic apparatus, is increasingly realized by electrical experts of our country.
本文介绍了电力负荷的工频控制技术。
The industrial frequency control technique lor power load control is introduced .
电力系统负荷模型的准确性对电力系统的分析与控制起着重要的作用。
Accurate load models play an important role for power system analysis and control.
带有编程控制的转化速率可以控制从一种负荷装置转换到另一装置,以降低电力布线上感应电压降,或控制测试设置上的感应瞬变电流。
A programmable slew rate allows a controlled transition from one load setting to another to minimize induced voltage drops on inductive power wiring, or control induced transients on a test device.
电力操作电源是发电厂、变电站中重要的二次设备,为控制负荷与动力负荷提供直流电源。
As important devices, power operating supplies provide DC power for loads in power plants and substations.
本文分析了电力有源滤波器的原理和组成结构,详细分析了检测负荷电流式、检测系统电流式、复合控制式三种控制模式;
This paper made detail study on the theory and structure of the APF and the three control methods: detecting load current method, detecting system current method and complex control method.
本文分析了电力有源滤波器的原理和组成结构,详细分析了检测负荷电流式、检测系统电流式、复合控制式三种控制模式;
This paper made detail study on the theory and structure of the APF and the three control methods: detecting load current method, detecting system current method and complex control method.
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