《办公楼电气设计》doc版

践析办公楼电气照明节能设计方法摘要：随着社会经济与国民素质的不断提高，大众节能意识随之不断增强，节能减排等先进理念愈发深入人心并被广泛认同。

办公楼等公共建筑中电气照明是能耗较高的工程。

在建筑电气照明工程设计阶段采用一系列节能设计措施，是降低办公建筑照明能耗有效方法之一。

本文就办公楼电气照明节能技术的原则、方案优化及措施进行了探讨与合理分析。

关键词：建筑电气工程办公楼电气节能照明设计国家标准《公用建筑节能设计标准》（gb50189-2005）第 1.0.2、1.0.3 条及其条文说明中指出，在公共建筑（特别是大型商场、高档旅馆酒店、高档办公楼等）的全年能耗中，大约有 50%～60%消耗于空调制冷与采暖系统，20%～30%用于照明。

从目前情况分析，这些建筑的围护结构、采暖空调系统，以及照明方面，共有节约能源 50%的潜力。

因此“电气照明节能”是一个众人关注的课题，并且这一课题贯穿于电气照明工程建设的设计、施工、运行、管理全过程。

显然，对于电气照明系统节能控制，应在系统构成的初始阶段即工程设计阶段，就要充分考虑节能技术的应用，在设计方法上要以节能降耗作为工程设计的一个重要目标和终旨。

在工程设计中做好电气照明设计方案的优化，正确选用节能设备和器材，对照明设备采用节能控制方式，从而达到电气照明工程的节能目标。

1、办公建筑电气节能的设计原则1.1 适用性原则办公建筑内良好的人造环境设计必须满足达到适用性原则，为整个建筑内所有设备提供必要的各种资源与动力；在用电设施提供安全稳定的能耗资源的前提下，合理优化配电设计，以保证电能的合理运用不致浪费，换而言之就是不能因为刻意制造节能设计而影响办公建筑的整体性能。

作为办公楼，当前我国大部分地区办公楼除国家行政机关和正规的大型国有或合资企业外，许多中小企业的办公楼设计存在较大缺陷，有些甚至既没有达到正常照明效果，又存在着浪费电能的现象。

如何保证为办公楼建筑提供正常照明又在节能性能上得到充分体现是当前办公楼建筑工程应首要考虑的问题。

高层办公楼供配电设计资料仅供参考１摘要本论文主要阐述了某十层办公楼各系统电气设计的设计依据、原则、方法及设计选择的结论。

本论文主要包括五章内容，可分为五部分：绪论、系统负荷计算、低压供配电系统设计、照明系统设计、防雷接地系统设计。

绪论部分包括：本设计的目的及意义，国内外研究综述、设计内容、设计总体方案等。

系统负荷计算部分包括：电力负荷级别、负荷计算目的意义及方法等。

低压供配电系统设计部分包括：配电方案、导线电缆的选择、线路的敷设、保护电器的选择、绘制配电系统图等。

照明系统的设计部分包括:照度选择、照度计算、照明方式选择、光源选择、灯具的选择及布置、插座的选择及布置、绘制照明平面布置图等。

防雷接地系统设计部分包括：建筑物的防雷等级确定、各种防雷措施、建筑物等电位保护措施、绘制防雷平面图及接地平面图等。

关键词：系统负荷计算；低压供配电系统；照明系统；防雷接地系统２AbstractThis paper mainly expounds the electrical design of each system design basis, principle, method and the conclusion of the design choices in the design of certain ten layers of office building. This paper mainly includes five chapters content, can be divided into five parts: the introduction, the system load calculations, the design of low voltage power supply and distribution system, lighting system design, lightning protection grounding system design.The introduction part includes: the design of the purpose and significance, domestic and foreign research review overall scheme, design contents, design the overall program, etc.System load calculations part includes: power load level, the significance of load calculation and method, etc.Low voltage power supply and distribution system design part includes: power distribution scheme, selection of cable, cable laying , protecting electric appliance choice, draw the distribution system plan, etc.Lighting system design part includes: the intensity of illumination, intensity of illumination computation, lighting mode selection, choice of light source, lamps selection and layout, socket selection and layout, draw the lighting layout plan, etc.Lightning protection and grounding system design part includes:anti-mine grade determined, a variety of lightning protection measures, buildings’ potential protection measures ,draw lightning protection and grounding plan, etc.Keywords: system load calculations；low voltage power supply and distribution system；lighting system；lightning protection and grounding system３目录中文摘要·························································································２英文摘要·························································································３1 绪论 ····························································································１1.1办公楼照明与供配电系统概述 ·····················································１1.1.1设计的目的和意义····························································１1.1.2国内外研究综述·······························································２1.2设计内容 ················································································２1.3设计总体方案 ··········································································２1.3.1工程概况 ········································································３1.3.2研究的方法和措施····························································３1.3.3办公楼供配电设计时必须遵循的原则····································３2 系统计算负荷 ··············································································４2.1电力负荷的级别 ·······································································４2.2负荷计算的内容及意义 ······························································４2.3负荷计算的方法 ·······································································５2.3.1动力负荷计算··································································６2.3.2照明负荷计算··································································６2.4负荷计算结果 ··········································································７3 低压供配电系统的设计 ································································８3.1供配电方式的确定 ····································································８3.2导线电缆的选择 ·······································································８3.2.1导线电缆的选择原则·························································８3.2.2该办公楼导线电缆的选择················································１０3.3线路敷设形式的选择 ······························································１２3.4配电箱的选择 ·······································································１３3.5保护电器的选择 ····································································１４3.6该办公楼供配电系统图 ···························································１５i ４4 照明系统的设计········································································１６4.1照明的方式和种类 ·································································１６4.1.1照明的方式 ··································································１６4.1.2照明的种类 ··································································１６4.2光源和灯具的选型 ·································································１７4.2.1正常照明光源和灯具的选型·············································１７4.2.2应急照明光源及灯具的选择·············································１８4.3照度计算 ·············································································１８4.3.1办公楼照度确定····························································１８4.3.2照明计算 ·····································································１９4.3.3整栋楼照度计算····························································２１4.4灯具布置 ·············································································２５4.4.1灯具的布置原则····························································２６4.4.2正常照明灯具的布置······················································２６4.4.3应急照明灯具的布置······················································２６4.5插座系统的设计 ····································································２７4.5.1插座系统设计的一般原则················································２７4.5.2插座的布置 ··································································２７4.6照明负荷平面布置图 ······························································２７5 防雷接地系统的设计·································································２９5.1防雷系统设计 ·······································································２９5.1.1防雷系统概述·······························································２９5.1.2建筑物防雷等级····························································２９5.1.3该建筑物防雷等级确定···················································３０5.1.4高层建筑物的防雷措施···················································３１5.2接地系统设计 ·······································································３１5.3防雷接地平面布置图 ······························································３２6 结束语······················································································３３参考文献······················································································３４ii １致谢 ·····························································································３５毕业设计（论文）知识产权声明 ·······························错误!未定义书签。

1. 电气安全规范：配电系统必须符合国家或地区的电气安全规范。

这些规范包括但不限于电气设备的安装、运行和维护，以及对电气线路、电缆、开关设备等的安全要求。

2. 用电负荷评估：根据办公楼的规模和用途，进行用电负荷评估，确定合适的电力容量和配电方案，以确保足够的电力供应并避免超负荷运行。

3. 配电系统设计：配电系统应设计合理、可靠，包括主配电线路、次级分配、开关设备、配电盘等。

合适的断路器、保护装置和接地系统也是必要的。

4. 地面电气工程：对于办公楼的地面电气工程，需要遵循相应的规范，确保地面导电性良好、接地可靠，以及避免接地环路等问题。

5. 应急供电系统：办公楼通常需要设立应急供电系统，确保在紧急情况下的电力供应，如备用发电机或UPS（不间断电源）系统。

6. 标准化安全操作程序：为了确保安全运行，需要建立标准化的安全操作程序，包括维护、检修、故障处理等。

7. 环保要求：在配电系统设计和运行中，需要考虑节能、减少能源浪费和对环境的影响，符合相关的环保要求。

毕业设计 [论文] 题目:市人大办公楼电气综合设计摘要本设计以国家相关规范为准则，以安全用电、节约能源为指导，着眼于提高办公照明的效率，应用现代电气技术，完成了市人大办公楼的配电、照明、消防系统的设计。

在配电设计中，根据负荷等级，确定供电方式及系统方案；设计中以放射式接线，保证了供电的可靠性；运用需要系数法进行计算负荷，按照规定选择保护电器、电线电缆，达到安全用电和节约能源的目的。

在照明系统设计中，本着节能的原则，选择荧光灯为光源，通过照度计算，确定最佳光源数，为人们创造了一舒适、明亮的生活、工作环境；插座安装的设计避免了拖线板的滥用，满足增加用电设备的需求，提高了用电的安全性。

在消防系统的设计中，通过感烟、感温探测器，手动火灾报警按钮，消防栓按钮等消防电气设备的布置、安装的设计，实现了对各防火区域的防火监测，探测火灾的发生。

同时，消防系统的设计，将探测、监控和手控报警系统与消防广播，房火卷帘门和消防水泵相联，实现消防联动，当有火灾时，探测、监控和手控系统发出火灾信号，有各联动装置发出警报，进行防火隔离和启动自动灭火系统，在疏散人员的同时进行自动灭火，控制、消除火灾隐患，保障该楼内人员、财产的安全。

关键词：办公楼，电气设计，配电，照明，消防AbstractThis design take the national correlation standard as a criterion, uses electricity, the frugal energy take the security as the instruction, the application modern electricity technology, has completed this commercial-residential buildings power distribution, the power, the illumination, the earth anti-radar, the fire prevention system design.In power distribution design, according to load rank, determination power supply way and system plan; In the design by the emanate wiring, has guaranteed the power supply reliability; Using needs the method of correlates to carry on the computation load, according to the stipulation choice protection electric appliance, the electric wire electric cable, achieved uses electricity safely and saves the energy goal. In the lighting system design, in line with the principle which conserves energy, chooses the fluorescent lamp is the photo source, through the degree of illumination computation, determined the best photo source number, has created one comfortably, the bright life, the leisure environment for the people; The plug installs the design avoided towing the forming blockabusiveness, satisfied the increase current collector the demand, enhanced the security which used electricity. The dynamic system design, completes the electrical machinery the main circuit and the control circuit design, has realized the electrical machinery safe operation. Earths in the anti-radar design, through flat steel and ground steel bar structure docking, anti-radar, earth public earth body, both has safeguarded the earth security, and saved the earth equipment. In the fire prevention system design, through the feeling smoke, the feeling warm detector, the manual fire reports to the police the button, fire prevention electrical equipment and so on hose saddle button arrangement, the installment design, has realized to each area of fire protection fire protection monitor, the survey fire occurrence. At the same time, the fire prevention system design, will survey, the monitoring and the manually controlled alarm system and the fire broadcast, Fang the curtain gate and the fire pump unites, realization fire prevention linkage, when will have the fire, the survey, the monitoring and the hand-controller systemwill send out the fire signal, will have various system to send out the warning, will carry on the fire protection to isolate and to start the automatic fire fighting system, while will disperse personnel's to carry on the automatic fire fighting, the control, the elimination fire hidden danger, will safeguard in this building the personnel, the property safety.Keywords：The office buildings，Electricity design，Power distribution，Illumination，Fire prevention目录摘要 (II)ABSTRACT (III)1绪论 (1)1.1建筑电气概况 (1)1.2设计原则与依据 (1)1.3设计内容 (2)2 照明供配电系统设计 (4)2.1配电方式 (4)2.1.1配电系统 (4)2.1.2设计结果 (4)2.2负荷等级及供电要求 (5)2.2.1负荷等级分类 (5)2.2.2供电要求 (5)2.3照明负荷计算 (7)2.3.1照明负荷计算步骤 (7)2.4导线及电气设备的选择 (8)2.4.1导线型号的选择 (8)2.4.2导线截面的选择 (8)2.4.3电气设备的选择 (9)2.4.4设计结果 (11)3 照明设计 (13)3.1总则 (13)3.2照明光源、灯具选择 (13)3.2.1照明光源的选择 (13)3.2.2照明灯具的选择 (14)3.3照度和照明方式 (14)3.3.1照度和照明方式确定 (15)3.3.2设计结果 (16)3.4照度计算 (16)3.4.1单位容量法计算照度 (16)3.4.2灯具的布置 (24)3.5应急照明设计 (24)3.5.1应急照明分类 (24)3.5.2应急照明灯具选择与布置 (25)3.5.3 应急灯具工作状态 (25)3.5.4 设计结果 (25)3.6开关插座的设计 (26)3.6.1开关的设计及要求 (26)3.6.2插座的设计及要求 (26)4 火灾自动报警控制系统 (27)4.1概述 (27)4.2设计准则 (28)4.3火灾自动报警系统的组成 (29)4.3.1火灾探测器 (29)4.3.2手动火灾报警按扭 (31)4.3.3火灾报警控制器 (32)4.4系统的设置 (33)4.4.1 区域报警控制系统 (33)4.4.2 集中报警控制系统 (33)4.4.3 控制中心报警系统 (34)4.5火灾自动报警系统设计 (34)4.5.1 系统选型 (34)4.5.2 防火区域和报警区域的划分 (35)4.5.3 探测区域和报警区域的划分 (36)4.5.4火灾探测器的选择 (37)4.5.5探测回路的设计 (40)4.5.6手动报警按钮的设置 (40)4.6消防联动的设计 (42)4.6.1 消火栓系统的联动设计方案 (42)4.6.2防排烟系统的联动设计方案 (43)4.6.3火灾事故广播系统设计 (43)4.6.4消防电话设计 (44)4.7线路敷设 (45)4.7.1设计一般原则 (45)4.7.2设计结果 (46)结论 (48)参考文献 (47)致谢 (49)1绪论1.1建筑电气概况现代建筑电气技术虽然是随着建筑业的发展而形成的，但它具有电气工程的鲜明特征，电气照明技术越来越受到重视，同时因照明能耗日益增大,照明系统的效率也成为电气工程界的热点。

辽宁工业大学
毕业设计（论文）
开题报告
题目办公楼电气设计
电气工程学院（系）电气工程及其自动化专业074班
学生姓名
学号
指导教师
开题日期：2011年 3 月12 日
论文
（注）开题报告要点：1、毕业设计（论文）题目的来源，理论或实际应用意义。

2、题目主要内容及预期达到的目标。

3、拟采用哪些方法及手段。

4、完成题目所需要的实验或实习条件。

5、完成题目的工作计划等。

（开题报告不够用时可另附同格式A4纸）
1
4
5
开题须知
一、学生要认真填写开题报告。

在毕业设计（论文）答辩时学生须向答辩委员会（或答辩小组）提交开题报告，作为答辩评分的参考材料，没有开题报告不能参加答辩。

如果丢失要及时办理补交手续。

学生毕业后，开题报告与学生毕业设计（论文）一并存档备案。

二、毕业设计（论文）题目一经确定，指导教师要给学生下达毕业设计（论文）任务书，学生根据任务书的要求进行开题，一般安排在毕业设计（论文）正式开始的第二周至第三周进行。

三、开题报告的审查由各专业教研室主持，每个学生的报告时间为10—15分钟。

开题通过后学生才能正式获得毕业设计（论文）的资格。

四、学生要充分理解毕业设计（论文）题目的内容和要求，在指导教师的指导下制定切实可行的工作计划，并且要具备进行毕业设计（论文）所要求的实验或实习（调研）条件。

五、学生要按照指导教师所下达的毕业设计（论文）任务书的要求，认真进行文献资料的检索、搜集和查阅，并做好记录。

六、开题审查不合格的学生，必须在一周内重新进行开题。

办公楼电气设计说明实例1工程设计概况本工程总建筑面积为220000m2，包括二十四层两座塔楼，建筑高度99m，钢筋混凝土结构；一座三层会议中心，建筑高度24m，钢筋混凝土结构；一座四层交易办公大楼，高度24m，钢筋混凝土结构和钢桁架屋顶。

本工程为一类高层建筑，耐火等级为一级。

按8度抗震设防裂度设防。

2设计依据2.1 上级部门批准的文件及甲方设计任务书；2.2 经审批初步设计；2.3 国家现行有关设计规程,规范及标准，《民用建筑电气设计规范》 JGJ/T16-92；《高层民用建筑设计防火规范》（2001年版） GB50045-95；《建筑物防雷设计规范》（2000年版） GB50057-94；《10KV及以下变电所设计规范》 GB50053-94；《低压配电设计规范》 GB50054-95；《供配电系统设计规范》 GB50052-95。

2.4 内部各工种提供的资料。

3 设计范围本工程电气设计包括红线内的以下内容：3.1高、低压变配电系统；3.2电力、照明系统；3.3建筑设备监控设备及系统集成；3.4防雷接地系统；3.5火灾自动报警系统；3.6有线电视系统；3.7综合布线系统；3.84变、配电系统4.1 负荷等级及供电电源本工程中安防信号电源、消防系统设施电源、通信电源、人防应急照明及计算机系统电源等为一级负荷。

生活水泵、普通客梯等为二级负荷。

其他为三级负荷。

4.1.2供电电源1) A座：采用两路独立的10kV电源，并设置一台2000kVA柴油发电机组，作为第三电源。

另外，还在D座设置一台1000kVA柴油发电机组，以备证券交易场所使用。

两路10kV电源采用电缆埋地引入本建筑，并送至本工程地下一层的电缆分界室。

2) B座：采用两路独立的10kV电源，并设置一台柴油发电机组，作为第三电源。

两路10kV电源采用电缆埋地引入本建筑，并送至本工程地下一层的电缆分界室。

4.2.1 A座：总设备容量: 20699kW，总计算容量:11734kW。