1) bus arrangements
电气主接线系统
2) main electrical wiring
电气主接线
1.
Design of main electrical wiring diagram for Baise Multipurpose Dam Project;
百色水利枢纽水电站电气主接线设计
2.
This paper performs theoretical analysis of main electrical wiring reliability calculation.
对发电厂电气主接线可靠性计算进行原理分析,利用逻辑分析和全概率公式建立电气主接线可靠性模型,进而推导出面对工程中各种复杂主接线方式的计算方法。
3.
The main electrical wiring of the Xiangtan Power Plant 2×600 MW supercritical unit has such characteristics as unit connection for generator-transformer set,generator outlet equipped with GCB,inter-bridge connected 500 kV double-circuit outlet that can be modified to 3/2 switch connection in the future;eliminating start/backup and shutdown transformers.
湘潭电厂二期扩建2×600 MW超临界机组,其电气主接线具有突出的特点:两发电机-变压器组为单元接线,发电机出口装有CCB,2回500kV出线为内桥接线,将来可以过渡到3/2开关接线;取消启/备变,也不设停机变;每台机组设1台高厂变和1台公用变,2台机组的高厂变和公用变互为备用;高厂变和公用变均改为无载调压。
3) electric main wiring
电气主接线
1.
Some technology question about electric main wiring section for the 35kV transformer substation were analyzed,The article were separated into electric main wiring forms and transformer two parts,in which there are ture examples.
本文就35K及以下变电站电气主接线一次部分有关的技术问题进行分析,主要从主接线接线形式和变压器的选择两方面展开论述并辅以实例。
2.
According to the actual situation of the Nada 1st step hydropower station of Longlin county, by technical and economic check and illustration of several schemes, selected the appropriate link way for electric main wiring and service power sources.
根据隆林县那达一级电站的实际情况,通过多方案的技术经济比较进行论证,选择较为合适的电气主接线和厂用电源的引接方式。
3.
Selecting the electric main wiring plan has very important sense to the electric part design of the hydropower station,and in the key link of the electric part design of the hydropower station.
电气主接线方案的选定 ,对水电站电气部分设计具有非常重要的意义 ,是水电站电气部分设计的重要环节。
4) bus arrangement
电气主接线
1.
Reliability evaluation on the bus arrangement of the traction power supply substation has been done in the paper, based on the least cut-set approach, the reliability and the economics have been researched.
以某客运专线的牵引变电所主接线为例,对电气主接线中元件的实际运行状态进行分析,利用Java程序开发出的最小割集程序分别对无桥式、内桥式、外桥式等3种方案进行评估和比较,得出其可靠性和经济性指标。
2.
To consider the impact of bus arrangement in evaluation of the reliability of transmission network,a quantitative assessment software package of power supply reliability for transmission network including the bus arrangement is developed based on power system reliability theory,graph theory and Object Oriented Program(OOP) technology.
变电站主接线的可靠性对电力系统有着重要的影响,为了便于在输电网供电可靠性分析计算中计及变电站电气主接线的影响,在综合应用电力系统可靠性理论、图论和面向对象的计算机技术的基础上,研究开发了用于定量评估计及变电站电气主接线影响的输电网可靠性的软件包系统。
5) main electrical connection
电气主接线
1.
Reliability Assessment of Main Electrical Connections for Substation;
变电所电气主接线可靠性评估
2.
Analysis on main electrical connection reform of Gaobazhou Hydropower Plant
高坝洲电厂电气主接线改造分析
3.
According to the object-oriented methodology, the implementation of main electrical connection editor based on C+ + language is discussed emphatically.
着重讨论了面向对象的方法在电气主接线编辑器开发中的应用。
6) main electric connection
电气主接线
1.
Review on design of the main electric connection for the Sanmenxia Hydropower Station;
三门峡水电站电气主接线设计回顾
2.
Through technical and economic comparisons of the above 2 voltage grades,the main electric connection for Suzhi HPP is determined.
苏只水电站装机3台,单机容量为75MW,出线110kV和330kV两级电压,经过对该两级电压的联络方案的技术、经济比较,选定苏只电气主接线。
3.
The article introduces main electric connection,selection and arrangement of electric equipment,electric secondary equipment and lightning protection grounding design at the medium-sized draining water-logged pump station.
文章主要介绍中型排涝泵站电气主接线、电气设备选择和布置、电气二次、防雷接地设计等内容。
补充资料:变电所主接线可靠性
变电所主接线可靠性
reliability of substation bus arrangement
biond.ansuo zhu]一ex一an kekoox一ng变电所主接钱可旅性(reliability of substationbus arrangement)衡量变电所各电气回路连接的连续性功能的t度。变电所中各电气回路通过母线而连通.母线故障,将使所连接的各电气回路停止运行;所连接的电气回路故障,也可能累及连接于同一母线的其他无故障回路也停止运行。变电所电气主接线的可靠性水平,视电力系统运行要求而定,同时也受所连接的电气元件特别是断路器的可靠性所制约。 主接线可靠性主要的主接线型式有:单母线接践、单母践分段接践、双母线接线、双母线分段接线、桥形接线(又分内桥与外桥两种)、多角形接线、一个丰断路器接线和双断路器接线等。在连接元件较多时,为了便于断路器检修而不使电气回路停止运行,还可以设旁路母线或迁回母线等。不同型式的主接线有不同的可靠性水平。 电力系统运行对变电所主接线可靠性水平的要求尚无统一的规定。一般而言,处于电力网枢纽位置的变电所,其主接线的故障停运将对电力网运行产生严重的影响,则对其主接线可靠性要求较高;对于处于电力网末端其主接线故障对电力网运行影响不大的变电所,其主接线可靠性要求则较低. 评价主接线可靠性水平的高低一般均从列出“不允许”事件开始,即把那些可能发生的、且一旦发生将导致严重后果的事件列为“不允许”事件。例如,全部电源进线停运,导致主变压器停运,电力网解列等等.然后,根据所选主接线型式及其倒闸操作的可能方式,按一定的规律计算出“不允许”事件发生的概率,停运的持续时间期望值等指标,从而从几种选定的主接线型式中择优.计算这些可靠性指标所用的数学方法有多种,如表格法、路径法、模糊集法、人工智能法等。这些方法各有长短,无本质差别。 计算主接线可靠性的困难在于无可用的墓础数据.断路器的可靠性数据是主接线可靠性计算的关键数据,但可能得到的数据还只是故障发生率,而不是可靠性计算中所需要的故障转移率数据。 不能脱离电力网运行灵活性要求而片面追求主接线可靠性。电力网运行方式的改变,往往是通过变电所主接线的适当操作与切换实现的。不能满足电力网运行灵活性的要求,再可靠的主接线形式,也不会被采用。
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参考词条