对实现海上石油平台电力组网的关键技术——能量管理系统(EMS)进行了研究。
The key technology for offshore platform power grid interlinked-Energy Management System(EMS) is studied in this paper.
作为能量管理系统(ems)的一个组成部分,电力系统状态估计的研究具有重要意义。
As a part of EMS (Energy Manage system), the study of power system state estimation is significance.
新一代能量管理系统(N -EMS)的计算模式特点是实时、跟踪、递归和智能预警。
The feature of the computing mode for the new generation of EMS (N-EMS) is real-time, tracing, recursive and intelligent early warning.
电气及控制系统设计包括低压电气系统、高压电气系统和整车控制与能量管理系统的设计。
Electrical and control system design include low-voltage electrical system design, high-voltage electrical system design, overall vehicle control and energy management system design.
电动客车的关键技术包括动力系统、整车车身结构设计与分析、整车控制和能量管理系统等。
Key technologies of electric vehicle include power system, vehicle body structure design and analysis, overall vehicle control and energy management system etc.
电力系统的静态安全分析是能量管理系统的重要组成部分,是保证系统安全运行的重要手段。
Static security analysis is an important component of energy management system, as an important means to ensure secure operation.
安徽地区电网电能量管理系统是为地区电网变电站内电能量自动采集和管理而设计的自动化系统。
The energy management system of Anhui local grid is an automation system built for automatic acquisition and processing of energy data of substations.
随着电力系统规模的不断扩大,能量管理系统中传统的串行实时数据处理方式已经不能满足系统的需求。
Along with the continual extension of the scale of power system, the conventional series processing computation mode is no longer suitable for real-time data processing.
管理中心设置在调度中心内,与EMS(能量管理系统)调度自动化系统联网,可以方便的接受EMS的各种信息。
It is connected to automated control system network, so it can receive all kinds of information from EMS (Energy Management system).
分析了能量管理系统(ems)的工程化特点,提出了一种基于公共信息模型(CIM)引擎的动态界面生成管理技术。
Based on the analysis of EMS (Energy management System) engineering, a CIM (Common Information Model) engine-based dynamic interface generation and management technique is put forward.
自动发电控制(简称agc)是能量管理系统(简称EMS)中最重要的控制功能,也是电力市场中一项重要的辅助服务。
Automatic Generation control (AGC) is of most important control function in Energy Management System (EMS), and is an important ancillary service in power market.
以人因工程为指导对智能电网中能量管理系统(ems)人机交互的设计进行探讨,重点对人机交互的关键技术进行剖析。
The design of HCI (human Computer Interaction) in EMS (Energy Management System) of smart grid is discussed under the guidelines of human factors engineering and some key technologies are analyzed.
该系统以数值天气预报为基 础,具有良好的人机界面,实现了与能量管理系统(energy management system,EMS)的无缝连接。
The system relies on numerical weather prediction, has friendly man-machine interface, and realizes seamless connection to the energy management system (EMS).
并讨论了将监控与数据采集(SCADA)实时数据库与能量管理系统(EMS)实时数据库进行合并的可行性及其优点,在应用分析时给出基于公共信息模型(CIM)的实时数据断面的存取方法。
The feasibility and advantages of merging the databases of SCADA and EMS are discussed. The application of the snapshot based on CIM in dispatching automation systems is proposed.
开发了一种并联式HEV的动力总成控制系统,可实现HEV能量管理和状态切换控制。
The powertrain control system of a hybrid electric vehicle (HEV) is developed, which can achieve energy management and state switching control.
其中动态功耗管理便是一种重要的减少系统范围的能量的方式。
The DPM (dynamic power management) is an important solution of reducing energy consumption in the system level.
运行结果表明,该系统能为土壤源热泵安全运行、监测管理和负荷能量调节提供可靠保证。
Operation results show that this system can provide a reliable guarantee on safety operation, supervisory control and load and energy adjustment for ground source heat pumps.
能量管理策略是混合动力汽车节能技术的关键,它是混合动力控制系统的核心。
EMS is a critical technology of fuel economy improvement for HEVs. It is essential in control system of the hybrid powertrain.
电源管理传统上着重于能量消耗的减少上,在计算机系统上当他们不用的时候的让他们进入静态模式如睡眠状态或挂起状态。
Power management has traditionally focused on the reduction of power consumption in computer systems by placing them into static modes such as sleep and suspend when not in use.
为了改进燃料电池混合动力客车的燃油经济性,基于等效氢耗理论,对燃料电池混合动力系统能量管理算法进行了优化。
In order to improve fuel economy of fuel cell hybrid electric bus, an optimized energy management algorithm was exploited based on equivalent hydrogen consumption theory.
因此研究专门的电池管理系统对电池的能量进行管理及维护是非常必要的。
Therefore, it is very necessary to research particular battery management system for managing and maintaining battery energy.
随后给出了针对该系统能量管理的分级模糊控制器的设计。
As follows, presented the design of the hierarchical controller to its energy management system.
目前,我国暖通空调控制系统按照定负荷、定控制回路工作点、定控制器参数运行,并且在能量管理功能方面有很多不足。
Nowadays, in China HVAC systems operate at fixed load, fixed working point and fixed controller parameter, and there are many problems in energy management.
选择电能量数据的合适采集、通信方式是线损精细化管理中电能量计量系统建设的重要环节之一。
Selecting proper acquisition and communication manner of watt-hour data is one of the important steps for the construction of watt-hour metering system in meticulous line loss management.
分析了暖通空调优化能量消耗的特点,介绍了暖通空调控制系统基础控制器参数整定、工作点优化和能量管理的现状。
Analyses the characteristics of energy consumption of HVAC systems, and presents the status of the controller auto-tuning, set-point optimization and energy management for HVAC systems.
基于混合系统理论,从功率平衡的观点研究了风光混合发电系统的能量管理策略,分析得出了多能量源之间的功率分配及工作模式切换律。
In this paper, a kind of energy management strategy based on hybrid system theory for wind and photovoltaic hybrid power system is considered from view point of power balancing.
由于双向变换器在该系统中承担了双向输送能量的任务,因此实现系统能量管理的核心是对双向变换器的合理有效控制。
Bi-directional converter implements bi-directional energy transfer in the system, so the core of energy management is effective control bi-directional converter.
本文从无线传感器网络中多应用场景下的能量管理问题出发提出了一个系统级分布式接入控制策略。
The system level distributed admission control scheme for wireless sensor network (WSN) in the presence of multiple applications is developed.
应用该软件对长网纸机干燥部的能量利用与通风系统的合理设计和管理进行了模拟。
It was used to simulate the design and the management of energy and ventilating system of fourdrinier dryer sections.
应用该软件对长网纸机干燥部的能量利用与通风系统的合理设计和管理进行了模拟。
It was used to simulate the design and the management of energy and ventilating system of fourdrinier dryer sections.
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