微电网是为协调大电网与分布式电源间的矛盾而提出的。
Microgrid is put forward to coordinate contradiction between the large power grid and distributed generation.
分布式电源系统在现代武器装备中得到了越来越广泛的应用。
The distributed power system has been used widely in modern weapon equipment.
该记录在高速列车分布式电源技术方面设立了一个新的ABB基准。
The record sets a new ABB benchmark in distributed power technology for very high-speed trains.
如何连接多种不同类型的分布式电源形成微网是微网必须解决的问题。
The connection of different types of micro sources to form a MicroGrid is an important task.
小文通过对现代通信设备供电系统的分析,阐述了分布式电源的设计要求。
This paper introduced power supply applying to communication system, and expatiated request of design for distributed power supply.
文中研究了分布式电源接入放射状链式配电网络前后负荷节点电压的变化。
This paper conducts study on voltage changes when some certain capacity's DGs are penetrated into radial feeders.
微网是一种可将各种小型分布式电源组合起来为当地负荷提供电能的低压电网。
A MicroGrid is a low voltage network with different micro generators (micro sources) and loads operating to supply electric power for the local area.
通过对实际算例的分析,本文方法能得到较为合理的分布式电源位置和容量方案。
The method proposed in this paper can get reasonable site and size of DG through the analysis of practical example.
依靠分布式电源发电和带蓄电池储能系统的孤立网络在国际上得到了广泛的应用。
Stand alone system with the distributed generation and the battery energy storage system (BESS) is widely applied in the world.
然而,分布式电源的大规模接入,对大电网的安全、稳定运行带来一定的负面影响。
However, a large number of distributed generations, connected to the bulk power network, have brought some negative impacts on secure and stable operation.
针对风力发电、光伏电池等分布式电源间歇性的特点,提出了平抑功率波动的策略。
For the intermittent characteristic of distributed energy such as wind power, photovoltaic cell, the strategy of suppressing the power fluctuations is put forward.
分布式电源(DG)对配电网网损和电压的影响主要与其位置和容量以及负荷分布有关。
The power loss and voltage distribution of distribution network are closely related to the location and size of DG (Distributed Generation) and the load distribution.
然后,运用启发式算法对优化模型进行求解,确定分布式电源的最佳配置点和配置容量。
The heuristic approach was used to solve the optimization model to determine the optimal allocation and size of distributed generation.
针对分布式电源准入容量计算的问题,提出了考虑电压调整约束后的准入功率优化计算模型。
An optimization method is proposed for computing the maximum penetration level of multiple distributed generators, taking into account voltage regulation constraints.
该模型的特点是能够模拟有载调压变压器、分布式电源事故停运以及多个分布式电源的情况。
Under-load tap changing transformer is modeled using a switch function, and the impact of distributed generator outage is included.
在其他方面的应用,如电力市场、电力系统扩建规划和分布式电源协调控制等,也有所提及。
Its applications in other aspects, e. g. power market, planning of power transmission expansion, control and operation of distribution systems with dispersed power resources are also given in brief.
随着可再生能源应用的大力推广,分布式电源DG以其特殊上风逐渐成为一种重要的电力电源形式。
With Promoting the application of renewable energy, Distributed generation becoming one of the most important form of electrical power.
大电网与分布式电源相结合的方式,在提高供电可靠性、减小系统旋转储备和有效利用能源等方面都颇具优势。
The use of wide area T&D systems to interconnect a large number of generators and loads provides tremendous benefits in the cost and reliability of electricity supply.
该分布式电源系统采用高频母线形式,原边电路采用双管正激电路,电压前馈控制,后级利用磁放大器精确控制。
The primary circuit has the form of double switch forward of feedforward control, the second circuit used the magnetic amplifier as the post regulator.
微网中的分布式电源常采用电力电子接口连接到微网,这增加了分布式电源接口控制的灵活性,减少了系统的惯性。
Most of micro sources in a MicroGrid are interfaced through power electronic converters. The interfaces of converters increase the flexibility of control but reduce the inertia of the MicroGrid.
通过对两个算例的分析可看到改进算法的效果以及粒子群算法解决分布式电源并网情况下反时限过流保护整定问题的能力。
The improved PSO algorithm is tested in two models, to show the effects of improvement and its ability in solving the inverse time overcurrent relay coordination problem when DG units are connected.
微网不仅能解决分布式电源大规模接入的问题,还能发挥各类分布式电源的优势、提高供电可靠性和为用户带来更多的效益。
Microgrid can not only solve the problem of large scale DG coupling but also play full advantages of DG, improve power supply reliability and bring more benefits to users.
该结构是以分层递阶控制为主体系统结构,引入了基于模块化分布式电源管理系统,并在传感/底层决策层采用了基于包容式体系结构。
It is a hierarchical control structure for the main system, which a modular-based Distributed Power Management System is introduced in.
利用MATLAB仿真软件建立了典型的配电网模型、直接并网及逆变并网两类分布式电源模型。详细阐述距离保护的保护原理和整定原则。
Distribution systems model and DG model are built in MATLAB. The theory and setting principle of distance protection are introduced in detail.
本文介绍了一种通信电源分布式监控系统的设计方案,包括监控系统的硬件组成和软件设计。
This paper presents a design of distributed supervisor control system of communication power system, including the hardware structure and the design of software.
本文介绍了一种通信电源分布式监控系统的设计方案,包括监控系统的硬件组成和软件设计。
This paper presents a design of distributed supervisor control system of communication power system, including the hardware structure and the design of software.
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