1、河南理工大学毕业设计(论文)说明书 I 摘 要 XF 110KV 变电所是地区重要变电所,是电力系统 110KV 电压等级的重要部分。其设计分为电气一次部分和电气二次部分设计。 一次部分由说明书,计算书与电气工程图组成,说明书和计算书包括变电所总体分析 ;负荷分析与主变选择 ;电气主接线设计 ;短路电流计算 ;电气设备选择 ;配电装置选择 ;变电所总平设计及防雷保护设计。 二次部分由说明书,计算书与电气工程图组成 。 说明书和计算书包括整体概述 ;线路保护的整定计算 ;主变压器的保护整定计算 ;电容器的保护整定计算 ;母线保护和所用变保护设计。 计算书和电气工程图为附录部 分。其中一次部分电气
2、 AutoCAD 制图六张;二次部分为四张手工制图。 本变电所设计为毕业设计课题,以巩固大学所学知识。通过本次设计,使我对电气工程及其自动化专业的主干课程有一个较为全面,系统的掌握,增强了理论联系实际的能力,提高了工程意识,锻炼了我独立分析和解决电力工程设计问题的能力,为未来的实际工作奠定了必要的基础。 关键词 :变电所 ; 变压器 ; 继电保护 河南理工大学毕业设计(论文)说明书 II Abstract XF county 110KV substation is an important station in this distract, which is one of the extrem
3、ely necessary parts of the 110KV network in electric power system. The design of the substation can be separated in two parts: primary part and secondary part of the electric design. The first part consists of specifications, computation book and Electrical engineering drawings about the design. The
4、 specifications has several parts which are General analysis of the station, Load analysis, The selection of the main transformer, Layout of configuration, Computation of short circuit; Select of electric devices, Power distribution devices, General design of substation plane and the design of thund
5、erbolt protection. The second part also consists of specifications, computation book and electrical drawings about the design。 Specifications and computation book include following section: General, The evaluation and calculate of line protection, Transformer protection, capacitor protection, Bus pr
6、otection and Self-using transformer protection. Computation book, Electrical engineering drawings and catalogue of drawings are attached in the end。 There are nine drawings total, in which four are prepared by hand, others are prepared by computer in which installed the software electrical AutoCAD.
7、From other view, it also can be classified as first part and second part. This is a design of substation for graduation design test. It can strengthen our specified knowledge. Key-words: substation; transformer; Relay protection 河南理工大学毕业设计(论文)说明书 III TRANSFORMER 1. INTRODUCTION The high-voltage tran
8、smission was need for the case electrical power is to be provided at considerable distance from a generating station. At some point this high voltage must be reduced, because ultimately is must supply a load. The transformer makes it possible for various parts of a power system to operate at differe
9、nt voltage levels. In this paper we discuss power transformer principles and applications. 2. TOW-WINDING TRANSFORMERS A transformer in its simplest form consists of two stationary coils coupled by a mutual magnetic flux. The coils are said to be mutually coupled because they link a common flux. In
10、power applications, laminated steel core transformers (to which this paper is restricted) are used. Transformers are efficient because the rotational losses normally associated with rotating machine are absent, so relatively little power is lost when transforming power from one voltage level to anot
11、her. Typical efficiencies are in the range 92 to 99%, the higher values applying to the larger power transformers. The current flowing in the coil connected to the ac source is called the primary winding or simply the primary. It sets up the flux in the core, which varies periodically both in magnit
12、ude and direction. The flux links the second coil, called the secondary winding or simply secondary. The flux is changing; therefore, it induces a voltage in the secondary by electromagnetic induction in accordance with Lenzs law. Thus the primary receives its power from the source while the seconda
13、ry supplies this power to the load. This action is known as transformer action. 3. TRANSFORMER PRINCIPLES When a sinusoidal voltage Vp is applied to the primary with the secondary open-circuited, there will be no energy transfer. The impressed voltage causes a small current I to flow in the primary winding. This no-load current has two functions: (1) it produces the magnetic flux in the core, which varies sinusoidally between zero and
