长沙市某科研大厦的空调系统设计【含CAD图纸+文档】
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含CAD图纸+文档
长沙市
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压缩包内含有CAD图纸和说明书,均可直接下载获得文件,所见所得,电脑查看更方便。Q 197216396 或 11970985
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任务书一、设计题目湖南省长沙市某科研大厦中央空调系统毕业设计。二、原始资料1. 概述:全建筑共九层;建筑物主体地上海拔高44.9米,空调面积5625 m2。2. 冷热源:空调冷、热源拟水为介质,机组布置在地下一层机房。机房夏季提供 712冷媒水;冬季提供4050低温热水。.三、设计内容及任务1. 设计的主要内容(1)、确定最佳空调方案(集中式、半集中式、分散式空调系统;全水、全空气、空气水系统等各种方案比较);(2)、计算空调负荷(夏季冷负荷,冬季热负荷);(3)、选择空调设备(一般夏季为设计工况,冬季为校核工况);(4)、布置空调系统; (5)、风、水系统阻力计算;(6)、冷热站设计(热泵机组、循环水泵、冷却水泵等的选择;机房内设备的布置;机房水系统);(7)、设备及材料统计;(8)、空调系统的消声、防振及防火排烟;(9)、空调系统的运行调节;(10)、风、水系统管道的防腐保温。2. 设计图纸(1)、图纸目录(A4 1张)(2)、设计总说明(A1 1张)(3)、各层空调平面图(水平面;风平面)(4)、空调系统图(水系统图A1 1张;风系统图A1 1张)(5)、空调剖面图(A2 1张)(6)、空调设备安装图(风机盘管、空气处理机等,A2 1张)(7)、空调管道及设备安装图(风机盘管、空气处理机等,A2 1张)(8)、各种非标管件大样图(弯头、三通、变径等, A2 1张)(9)、空调制冷机房平面布置图(A2 1张)(10)、材料及设备明细表(商城空调部分及冷热站部分,A2 1张)说明:上述图纸张数仅供参考,不少于7张A1,其中只能有一张非计算机绘图。3. 编制设计说明书。(1)、要求:字迹工整,条理清晰,简洁明了,详略得当。(2)、内容设计简介;原始资料整理;各种计算依据、过程和结果; 系统方案确定及说明;设计简图;空调系统概算;体会。四、进度安排1.收集资料、 1.5周2.比较、确定方案 0.5周3.冷热负荷计算 1.0周4.选择空调设备 0.5周5.布置空调系统 1.0周6.风、水系统阻力计算 1.0周7.空调机房设置 1.5周8.设备及材料统计 1.0周9.施工图绘制 3.0周 10.毕业设计说明书编写、整理 1.0周11.准备答辩 0.5周五、对图纸的要求1.图纸的大小和比例要合乎标准和适当;2.尺寸的标注要齐全和标准化;3.要适当地绘制剖面图和轴侧图,使其尽量简练,清楚而不重复;4.图纸地数量要满足毕业设计任务书的要求。六、应注意的几个问题1. 学生应在教师指导下,按时独立地完成所规定的内容和工作量,同 学之间可以讨论但不能抄袭,且按进度完成设计;2. 结合设计题目,广泛了解国内外的动态,通过阅读资料、调研等各 个渠道去获取,并尽量做一些文字总结;3. 遵守作息时间,遵守教师纪律,高质量完成毕业设计任务。七、参考书目:1. 高层建筑空调设计手册中国建筑工业出版社,潘云钢主编2. 空气调节第三版,1994年,中国建筑工业出版社,赵荣义主编3 采暖通风与空气调节设计规范(GB50019-2003)4 建筑设备工程概预算与技术经济,1999年,黑龙江科技出版社5. 实用供热空调设计手册,中国建筑工业出版社,陆耀庆主编6. 中央空调设备选型手册,中国建筑工业出版社7.采暖与卫生工程施工及验收规范(GB243-82)8.暖通空调,2000年,中国建筑工业出版社,陆亚俊等主编9. 供暖通风设计手册,1987年,中国建筑工业出版社,陆耀庆主编10.通风与空调工程施工及验收规范,(国标GB5024397)11全国通风管道配件图表12供热通风与空调标准图集13简明空调设计手册中国建筑工业出版社,钱以明主编14空气调节设计手册,1983年,中国建筑工业出版社2毕业设计 学院:专业:班级:姓名:学号:指导老师:摘要本设计为长沙市某科研大厦舒适性空调系统,设计内容包括冷负荷计算,方案的比较,空气处理方案的选择,空调末端设备选型,水管路和风管路系统的设计计算及附属设备的选型,并进行设计说明书的编制和施工图的绘制。设计坚持可持续发展理论,树立了节约能源和全寿命周期成本分析的科学理念,从节能和环保出发,综合考虑建筑结构、使用要求、环境条件,在系统的选择、设备的选配及系统的运行控制等方面采取一定的节能措施,使系统在各种工况下均能高效节能运行。根据节能设计标准要求,结合计算软件,采用谐波法对整个大楼的冷负荷进行逐时计算;分析负荷日变化和全年变化情况,通过多个方案的可行性论证和经济性比较,结合实际的能源政策,选用了水冷式螺杆机组加燃气热水锅炉的冷热源运行策略。空调系统采用风机盘管加独立新风的空气-水系统。在设计计算的基础上,还进一步分析比较了不同建筑维护结构、设计参数、空调方案等对能耗的影响,提出空调系统各环节存在的问题及节能潜力。关键词:舒适性空调,可持续发展,建筑节能,室内空气品质AbstractThis design is about the concertrated air conditioning system of some Technology building , including a series of design contents such as cooling load calculation, scheme comparision,selecting and calculating the water system and ventilation system, as well as selecting air terminal devices and appurtenances, and working out the design instruction and drawing the construction drawings employing CAD. During the design , I adhere to sustainable development ,set a scientific conctept of resources and a total life cycle cost analysis. Based on the energy conservation and environmental protection ,I consider intergatedly into the building structures ,the feature of demands ,and the environment conditions. Some energysaving measures are adopted during the choice of system scheme ,equipment matching and operational control to achieve high efficiency in various operating conditions . According to energy-efficient design standards , the cooling load of the whole building is calculated with the harmonic wave method, combining to computer software. Water cooled screw rod unit is used to supply the cooled air conditioning water, while using gas-fired hot water boilder as the heat source. This scheme is determinated according to the feasibility analysis and economical comparision of different choices, energy policy ect. Fan coil unit and the independent fresh air system is the main choice in the design. Based on the design, further comparative analysis of impact of different architectural envelope thermal characteristics ,design parameters, air conditioning scheme on the energy consumption . Points out the energy consumption fearturesand the potentials of energy saving.Key words: comfortable air condition,sustainable development,building energy efficiency,in door air quality目 录1 绪论11.1 设计目的11.2 设计要求11.2.1 初步设计11.2.2 施工图设计12 设计任务及依据22.1 工程概况22.2 设计依据22.2.1长沙市室外空调设计参数22.2.2室内空调主要设计参数23 负荷计算33.1冷负荷计算 33.2人体散湿负荷53.3计算结果103.4大厦冷、湿负荷汇总193.5大厦热、湿负荷汇总213.6电梯前室的新风负荷244 冷热源方案分析254.1方案拟订294.2方案初投资计算304.3方案运行费计算314.4总费用计算324.5方案确定325 房间的空气处理方案及送风量的确定325.1空气处理方案325.2 送风量计算 336 末端设备选择346.1 风机盘管选型346.2新风机选型367 空调冷冻水系统水力计算378 房间气流组织589 送、回风口选型66 10 风管水力计算6811 冷热源设备选择7411.1 冷冻水泵的选择7411.2 膨胀水箱的计算7511.3 冷却水系统7612 制冷站设计7612.1 机房设计7712.2 设备布置间距7712.3冷却塔的设置7712.4制冷站主要设备7813 管道保温设计7814 消声与减振设计8015 水系统的水质管理8116 参考文献 8217 致谢 82 41 绪论 1.1 设计目的 毕业设计是工科大学培养学生的最后一个教学环节,是对四年所学知识的一次全面总结,是把理论知识应用于实践工程的一次很好的锻炼。在毕业设计中,除了要熟练掌握大学四年所学的理论知识外,还要熟习和掌握国家有关的建设方针政策,综合运用所学的基础理论和专业知识,联系实际来解决工程设计问题。通过毕业设计,明确设计程序,设计内容及各设计阶段的目的要求和各工种间的必要配合。1.2 设计要求:1.2.1 初步设计:学生接受设计任务后,熟习土建图纸与原始资料,查阅和收集资料,对设计对象选择多种空调方式,经过综合比较后,最后选定一种较好的方案。根据有关设计规范及概算指标,对冷热负荷进行初步估算,初步确定冷热源方式、容量、台数、机房位置和面积并确定送、排风方式。1.2.2 施工图设计1设计计算 计算室内冷、热、湿负荷; 确定设计方案。包括系统划分、空气处理过程设计、计算总冷量、总热量、总风量; 根据冷量和风量确定选用空气处理设备和制冷设备、绘出空气处理系统草图; 全年运行工况调节分析; 确定室内气流组织形式,进行气流组织计算; 进行系统风道布置及管道水力计算; 系统消声减振设计; 系统防排烟及保温设计; 对土建、水、电、动力专业的要求; 设计总结。2绘图图纸应包括首页图、空调系统布置平面图、系统图、大样图、机房布置平面图、系统图、大样图。2 设计任务及依据2.1 工程概况 本设计对象为长沙市某科研大厦,大厦主要有:办公室,会议室,多功能厅等。其中地下一层地上八层,预计将机房布置于地下层。工程位于长沙市,东经11304,北纬2812,海拔44.9 m。总空调面积为5625m2。本工程空调设计的任务包括本大厦的中央空调系统的设计及通风设计。本中央空调系统设计要求能够实现夏季供冷和冬季供热,并能满足人体的舒适性要求。 2.2 设计依据2.2.1 长沙市室外空调设计参数台站位置:北纬2812, 东经11304, 海拔44.9 m气象参数为:夏季:大气压:99.94 kpa 室外日平均温度:32.0 室外计算日温差:7.3室外干球温度:35.8 室外湿球温度:27.7 室外平均风速:2.6m/s冬季:大气压:101.99 kpa 采暖计算温度:0 空调计算温度:-3 相对湿度:81% 室外平均风速:3.7m/s2.2.1 室内空调主要设计参数表2.1 室内设计参数 房间名称温 度(波动范围2)相对湿度%(波动范围10%)新风量m3/(h人)夏季冬季夏季冬季办公室2618604030董事长办公室2618604050财务室2618604030会议室2618604020洽谈室2618604020管理室2618604030接待室2618604020挡案室2618604030实验室2618604014休息室2618604020等待门卫室2618604030茶水室2618604020展厅2618604015大堂2618604020传真机要室2618604030消防控制室2618604030储藏室2618604020设备室2618604020样品存放室2618604015多功能厅2618604020 3 负荷计算表3.1 维护结构参数序号围护名称类型传热系数(w/.)传热衰减传热延迟(h)夏季冬季01外墙砖墙15-240-40.900.910.1712.4402外窗单框双玻璃窗2.712.781.000.3803内墙砖墙0010011.761.760.408.4904内门木框夹板门2.172.170.990.8405楼板楼面-261.071.070.1511.5706屋面现浇08-2-70-20.920.930.407.963.1冷负荷计算3.1.1外墙和屋面瞬变传热引起的冷负荷Qc()=AK(tc()+td)kk-tR 式中 Qc() 外墙和屋面瞬变传热引起的逐时冷负荷,W; A 外墙和屋面的面积,m2; K 外墙和屋面的传热系数,W/(m2 ),由暖通空调附录2-2和附录2-3查取; tR 室内计算温度,; tc() 外墙和屋面冷负荷计算温度的逐时值,由暖通空调附录2-4和附录2-5查取; td 地点修正值,由暖通空调附录2-6查取; k 吸收系数修正值,取k=1.0; k 外表面换热系数修正值,取k=0.9;3.1.2内围护结构冷负荷 Qc()=AiKi(to.m+t-tR) 式中 ki 内围护结构传热系数,W/(m2 ); Ai 内围护结构的面积,m2;to.m 夏季空调室外计算日平均温度,;t 附加温升,可按暖通空调表2-10查取。3.1.3外玻璃窗瞬变传热引起的冷负荷Qc() = cw Kw Aw ( tc() + td tR) 式中 Qc() 外玻璃窗瞬变传热引起的冷负荷,W; Kw 外玻璃窗传热系数,W/(m2 ),由暖通空调附录2-7和附录2-8查得; Aw 窗口面积,m2; tc() 外玻璃窗的冷负荷温度的逐时值,由暖通空调附录2-10查得; cw 玻璃窗传热系数的修正值;由暖通空调附录2-9查得; td 地点修正值,由暖通空调附录2-11查得;3.1.4透过玻璃窗的日射得热引起的冷负荷Qc() = C Aw Cs Ci Djmax CLQ 式中 C 有效面积系数,由暖通空调附录2-15查得;Aw 窗口面积,m2;Cs 窗玻璃的遮阳系数,由暖通空调附录2-13查得;Ci 窗内遮阳设施的遮阳系数,由暖通空调附录2-14查得;Djmax 日射得热因数,由暖通空调附录2-12查得;CLQ 窗玻璃冷负荷系数,无因次,由暖通空调附录2-16至附录2-19查得;3.1.5照明散热形成的冷负荷白炽灯 Qc() = 1000 N CLQ 日光灯 Qc() = 1000 n1 n2 N CLQ 式中 N 照明灯具所需功率,W; n1镇流器消耗功率稀疏,明装时,n1=1.2,暗装时,n1=1.0; n2灯罩隔热系数,灯罩有通风孔时,n2=0.50.6;无通风孔时,n2=0.60.8; CLQ照明散热冷负荷系数,由暖通空调附录2-22查得。3.1.6人体散热形成的冷负荷1、人体显热散热形成的冷负荷Qc() = qs n CLQ 式中 qs 不同室温和劳动性质成年男子显热散热量,W,由暖通空调表2-13查得; n 室内全部人数; 群集系数,由暖通空调表2-12查得;CLQ 人体显热散热冷负荷系数,由暖通空调附录2-23查得;2、人体潜热散热引起的冷负荷 Qc() = ql n 式中 ql 不同室温和劳动性质成年男子潜热散热量,W,由暖通空调表2-13查得;n,同式3-6-1。3.2人体散湿负荷人体散湿量可按下式计算 D = 0.001n g式中 D 散湿量,/ h ; 群集系数,由暖通空调表2-12查得为0.80; n 计算时刻空调房间内的总人数; g 一名成年男子的小时散湿量,由暖通空调表2-13查得。下面选择1001管理室、2007洽谈室、3004风道实验室进行计算,本设计的负荷将用软件算出。3.3计算结果1001管理室墙 (A=83.76=30.1 m2)西北外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()32.73231.531.231.131.231.431.932.533.3k =1.0 k=1.0 K =0.9 W/(m2 ) td=2.4 tR=26A3.764.5-1.32.9=13.15 m2tc()35.134.433.933.633.533.633.834.334.935.7t9.18.47.97.67.57.67.88.38.99.7Qc()107.799.493.589.988.889.992.398.2105.3114.8西北外窗瞬时传热冷负荷(双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A1.32.9=3.77 m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()50.161.370.579.786.890.994.094.071.587.9西北外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Dj max=415 W/m2A1.32.9=3.77 m2CLQ0.210.240.260.270.340.540.710.840.770.46Qc()124.0141.7153.5159.4200.8318.8419.2496.0454.7271.6西南外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()36.636.135.735.234.934.634.434.334.434.7k =1.0 k=1.0 K =0.9 W/(m2 ) td=1.0 tR=26A84.5=36 m2tc()37.637.136.736.235.935.635.435.335.435.7t11.611.110.710.29.99.69.49.39.49.7Qc()375.8359.6346.7330.5320.8311.0304.6301.3304.6314.3东北内墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m32323232323232323232K =1.76W/(m2 ) t=0 tR=26A84.5=36 m2t6666666666Qc()380.2380.2380.2380.2380.2380.2380.2380.2380.2380.2楼板时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m32323232323232323232K =1.07W/(m2 ) t=0 tR=26A3.768=30.08 m2t6666666666Qc()193.1193.1193.1193.1193.1193.1193.1193.1193.1193.1照明散热形成的冷负荷开灯时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.90.910.930.930.940.950.950.950.960.96n1=1.0 n2=0.8N330 wQc()237.6240.24245.5245.5248.2250.8250.8250.8253.4253.4人员散热形成的冷负荷人在室内时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.530.620.690.740.770.80.830.850.870.89qs=60.5W n=3 人 =0.8Qc()76.95690.024100.188107.448111.804116.16120.516123.42126.324129.228ql73.3Qc175.9175.9175.9175.9175.9175.9175.9175.9175.9175.9合计252.9265.9276.1283.4287.7292.1296.4299.3302.2305.11001各分项逐时冷负荷汇总表时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00西北外墙负荷107.799.493.589.988.889.992.398.2105.3114.8西北外窗传热负荷50.161.370.579.786.890.9949471.587.9西北外窗日射负荷124141.7153.5159.4200.8318.8419.2496454.7271.6西南外墙负荷375.8359.6346.7330.5320.8311304.6301.3304.6314.3东北内墙负荷380.2380.2380.2380.2380.2380.2380.2380.2380.2380.2楼板负荷193.1193.1193.1193.1193.1193.1193.1193.1193.1193.1照明负荷237.6240.24245.5245.5248.2250.8250.8250.8253.4253.4人员负荷252.9265.9276.1283.4287.7292.1296.4299.3302.2305.1合计1721.41741.441759.11761.71806.41926.82030.62112.92065.01920.42007洽谈室(A=19.7610.76=212.6 m2)东北外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()33.933.633.533.533.733.934.334.634.935.2k =1.0 k=1.0 K =0.9 W/(m2 ) td=3.0 tR=26A10.763.9-21.82.3=33.68m2tc()36.936.636.536.536.736.937.337.637.938.2t10.910.610.510.510.710.911.311.611.912.2Qc()330.4321.3318.3318.3324.3330.4342.5351.6360.7369.8东北外窗瞬时传热冷负荷(2个外窗,双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A1.82.3=4.14m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()55.067.377.487.595.499.9103.2103.278.596.52Qc()110.0134.6154.8175.0190.7199.7206.4206.4157.1193.0东北外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=415 W/m2A1.82.3=4.14m2CLQ0.760.560.380.310.30.280.250.210.170.11Qc()499.5368.0249.7203.7197.2184.0164.3138.0111.772.32Qc()998.9736.0499.5407.4394.3368.0328.6276.0223.4144.6东南外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()35.334.934.634.534.634.835.235.736.236.7k =1.0 k=1.0 K =0.9 W/(m2 ) td=1.3 tR=26A19.763.9-1.32.2-41.83.2=51.16m2tc()36.636.235.935.835.936.136.537.037.538.0t10.610.29.99.89.910.110.511.011.512.0Qc()488.1469.6455.8451.2455.8465.0483.5506.5529.5552.5东南外窗瞬时传热冷负荷(双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A1.32.2=2.86m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()38.046.553.560.565.969.071.371.354.366.7东南外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=374 W/m2A1.32.2=2.86m2CLQ0.830.750.520.40.390.360.330.270.20.13Qc()335.1302.8209.9161.5157.4145.3133.2109.080.752.5东南外窗瞬时传热冷负荷(4个外窗,双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A1.83.2=5.76m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()76.593.7107.7121.8132.7138.9143.6143.6109.3134.24Qc()306374.8430.8487.2530.8555.6574.4574.4437.2536.8东南外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=374W/m2A1.83.2=5.76m2CLQ0.830.750.520.40.390.360.330.270.20.13Qc()674.8609.8422.8325.2317.1292.7268.3219.5162.6105.74Qc()2699.22439.01691.11300.81268.31170.71073.2878.1650.4422.8西南内墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m32323232323232323232K =1.76W/(m2 ) t=0 tR=26A10.763.9=41.96 m2t6666666666Qc()443.1443.1443.1443.1443.1443.1443.1443.1443.1443.1西北内墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m32323232323232323232K =1.76W/(m2 ) t=0 tR=26A19.763.9=77.06 m2t6666666666Qc()813.8813.8813.8813.8813.8813.8813.8813.8813.8813.8屋面时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m33.132.733.034.035.838.140.743.546.148.3cw=1.0 K =0.92W/(m2 ) td=2.2 tR=26A81.00 m2tc()35.334.935.236.23840.342.945.748.350.5t9.38.99.210.21214.316.919.722.324.5Qc()693.0663.2685.6760.1894.21065.61259.41468.01661.81825.7照明散热形成的冷负荷开灯时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.90.910.930.930.940.950.950.950.960.96n1=1.0 n2=0.8N2339 wQc()1684.11702.81740.21740.21758.91777.61777.61777.61796.41796.4人员散热形成的冷负荷人在室内时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.530.620.690.740.770.80.830.850.870.89qs=60.5W n=85 人 =0.8Qc()2180.42550.72838.73044.43167.83291.23414.63496.93579.23661.5ql73.3Qc4984.44984.44984.44984.44984.44984.44984.44984.44984.44984.4合计7164.87535.17823.18028.88152.28275.68399.08481.38563.68645.92007洽谈室各分项逐时冷负荷汇总表时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00东北外墙负荷330.4321.3318.3318.3324.3330.4342.5351.6360.7369.8东北外窗传热负荷110134.6154.8175190.7199.7206.4206.4157.1193东北外窗日射负荷998.9736499.5407.4394.3368328.6276223.4144.6东南外墙负荷488.1469.6455.8451.2455.8465483.5506.5529.5552.5东南外窗传热负荷344421.3484.3547.7596.7624.6645.7645.7491.5603.5东南外窗日射负荷3034.327421901.11462.31425.81316.11206.4987731.1475.3西南内墙负荷443.1443.1443.1443.1443.1443.1443.1443.1443.1443.1西北内墙负荷813.8813.8813.8813.8813.8813.8813.8813.8813.8813.8屋面负荷693663.2685.6760.1894.21065.61259.414681661.81825.7照明负荷1684.11702.81740.21740.21758.91777.61777.61777.61796.41796.4人员负荷7164.87535.17823.18028.88152.28275.683998481.38563.68645.9合计16104.515982.815319.615147.915449.815679.515906159571577215863.63004风道实验室(A=56.1 m2)东北外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()33.933.633.533.533.733.934.334.634.935.2k =1.0 k=1.0 K =0.9 W/(m2 ) td=3.0 tR=26A8.263.4-6.761.8-1.51.5=13.67m2tc()36.936.636.536.536.736.937.337.637.938.2t10.910.610.510.510.710.911.311.611.912.2Qc()134.1130.4129.2129.2131.6134.1139.0142.7146.4150.1东北外窗瞬时传热冷负荷(双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A6.761.8=12.17m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()161.6197.9227.6257.2280.3293.5303.4303.4230.9283.6东北外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=415 W/m2A6.761.8=12.17m2CLQ0.760.560.380.310.30.280.250.210.170.11Qc()1448.61067.4724.3590.9571.8533.7476.5400.3324.0209.7东北外窗瞬时传热冷负荷(双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A1.51.5=2.25m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()29.936.642.147.651.854.356.156.142.752.4东北外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=415 W/m2A1.51.5=2.25m2CLQ0.760.560.380.310.30.280.250.210.170.11Qc()267.8197.3133.9109.2105.798.788.174.059.938.8东南外墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()35.334.934.634.534.634.835.235.736.236.7k =1.0 k=1.0 K =0.9 W/(m2 ) td=1.3 tR=26A7.763.4-3.761.5=20.74m2tc()36.636.235.935.835.936.136.537.037.538.0t10.610.29.99.89.910.110.511.011.512.0Qc()197.9190.4184.8182.9184.8188.5196.0205.3214.7224.0东南外窗瞬时传热冷负荷(双玻璃窗,浅蓝布帘)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00tc()27.92929.930.831.531.932.232.23031.6cw=1.0 K =2.71 W/(m2 ) td=3 tR=26A3.761.5=5.64m2tc()30.93232.933.834.534.935.235.23334.6t4.966.97.88.58.99.29.278.6Qc()74.991.7105.5119.2129.9136.0140.6140.6107.0131.4东南外窗日射得热冷负荷时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00C=0.85 Cs=0.74 Ci=0.60 Djmax=374 W/m2A1.32.2=2.86m2CLQ0.830.750.520.40.390.360.330.270.20.13Qc()660.7597.1414.0318.4310.5286.6262.7214.9159.2103.5西北内墙冷负荷(型墙)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00to.m32323232323232323232K =1.76W/(m2 ) t=0 tR=26A7.763.4=26.38 m2t6666666666Qc()278.6278.6278.6278.6278.6278.6278.6278.6278.6278.6照明散热形成的冷负荷开灯时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.90.910.930.930.940.950.950.950.960.96n1=1.0 n2=0.8N639wQc()460.1465.2475.4475.4480.5485.6485.6485.6490.8490.8人员散热形成的冷负荷人在室内时间 10小时(8:0018:00)时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00CLQ0.530.620.690.740.770.80.830.850.870.89qs=60.5W n=6 人 =0.8Qc()153.9180.0200.4214.9223.6232.3241.0246.8252.6258.5ql73.3Qc4984.44984.44984.44984.44984.44984.44984.44984.44984.44984.4合计351.8351.8351.8351.8351.8351.8351.8351.8351.8351.83004风道实验室各分项逐时冷负荷汇总表时间9:0010:0011:0012:0013:0014:0015:0016:0017:0018:00东北外墙负荷134.1130.4129.2129.2131.6134.1139.0142.7146.4150.1东北外窗传热负荷191.5234.5269.7304.8332.1347.8359.5359.5273.6336.0东北外窗日射负荷1716.41264.7858.2700.1677.5632.4564.6474.3383.9248.5东南外墙负荷197.9190.4184.8182.9184.8188.5196.0205.3214.7224.0东南外窗传热负荷74.991.7105.5119.2129.9136.0140.6140.6107.0131.4东南外窗日射负荷660.7597.1414.0318.4310.5286.6262.7214.9159.2103.5西北内墙负荷278.6278.6278.6278.6278.6278.6278.6278.6278.6278.6照明负荷460.1465.2475.4475.4480.5485.6485.6485.6490.8490.8人员负荷153.9180.0200.4214.9223.6232.3241.0246.8252.6258.5合计3868.13432.62915.82723.52749.12721.92667.62548.32306.82221.4本设计冷、热、湿负荷由鸿业按逐时计算,其结果汇入下表:3.4大厦冷、湿负荷汇总 表3.2 大厦冷、湿负荷汇总 单位:W(热)、kg/h(湿)房间编号房间名称房间面积房间人数人均新风量新风量新风负荷室内负荷总负荷新风湿负荷湿负荷(不含新风)1001管理室30.0833090787235931460.550.421002管理室38.084301201050254435940.730.571003管理室62.086301801575451360881.100.851004消防控制室30.0833090787244032270.550.421005接待室315.58126.220252433134251895832315.3715.391006展厅315.58157.815236720709271594786814.4117.681007大堂208.561020200131213942152541.221.261008展厅128.4864.215964843111488199195.877.202001管理室30.0833090787239931860.550.422002管理室38.084301201050225433040.730.572003管理室62.086301801575395355281.100.852004管理室62.086301801575428758621.100.852005管理室62.086301801575461261871.100.852006储藏室30.0822040350186422140.240.242007洽谈室212.628520170114882170813196310.3510.372008会议室212.628520170114882168603174210.3510.373001会议室102.0840.82081771459932170774.974.983002结构实验室62.0861484735452052550.510.663003风道实验室62.0861484735447452090.510.663004风道实验室58.0861484735470654410.510.663005结构实验室64.161484735331840530.510.663006结构实验室62.0861484735448952240.510.663007散热实验室62.0861484735496657010.510.663008散热实验室62.0861484735487256070.510.663009结构实验室64.161484735345041850.510.663010结构实验室5661484735480555400.510.664001会议室102.0840.820817714510638177834.974.984002软件实验室62.0861484735521659510.510.664003控制实验室62.0861484735550462390.510.664004控制实验室58.0861484735526760020.510.664005监控实验室64.161484735408948240.510.664006监控实验室62.0861484735407348080.510.664007通讯实验室62.0861484735407348080.510.664008通讯实验室62.0861484735407348080.510.664009继电实验室64.161484735403947740.510.664010继电实验室5661484735480555400.510.665001会议室102.0840.820817714510638177834.974.985002软件实验室62.0861484735521659510.510.665003控制实验室62.0861484735550462390.510.665004控制实验室58.0861484735526760020.510.665005监控实验室64.161484735408948240.510.665006监控实验室62.0861484735407348080.510.665007通讯实验室62.0861484735407348080.510.665008通讯实验室62.0861484735407348080.510.665009继电实验室64.161484735403947740.510.665010继电实验室5661484735480555400.510.666001会议室102.0840.820817714510330174754.974.986002接待室62.0810202001750556373131.221.226003传真机要室62.086301801575550370781.100.856004挡案室58.0823060525477753020.370.286005财务室64.16301801575372452991.100.856006办公室62.086301801575407256471.100.856007等待门卫室62.086301801575407256471.100.856008办公室62.0823060525357641010.370.286009办公室64.1250100875407149460.610.366010休息室566201201050468957390.730.737001多功能厅38622015330028873501207899320.0926.827002茶水室58.1202040035006538100382.432.447003储藏室64.122040350520055500.240.247004储藏室64.122040350354738970.240.247005管理室62.083301801575408156561.100.857006储藏室64.122040350354738970.240.248001样品存放室469.33015450393750473544102.743.49总计5625.11221.4126821973202846469913672759133.7146.73.5大厦热、湿负荷汇总 表3.3大厦热、湿负荷汇总 单位:W(热)、kg/h(湿)房间编号房间名称房间面积房间人数人均新风量新风量新风负荷室内负荷总负荷湿负荷(含新风)1001管理室30.083309088319412824-0.311002管理室38.08430120117710442221-0.411003管理室62.08630180176628104576-0.611004消防控制室30.083309088320792962-0.311005接待室315.58126.220252424764821832982-12.831006展厅315.58157.815236723222786931091-8.021007大堂208.561015150147283699841-0.511008展厅128.4864.2159649454303012484-3.272001管理室30.083309088316342517-0.312002管理室38.0843012011779202097-0.412003管理室62.08630180176615893355-0.612004管理室62.08630180176620563822-0.612005管理室62.08630180176632044970-0.612006储藏室30.082204039222592651-0.142007洽谈室212.628520170116689645623145-5.762008会议室212.628520170116689627522964-5.763001会议室102.0840.8208178012321711229-2.773002结构实验室62.086148482425633387-0.283003风道实验室62.086148482422663090-0.283004风道实验室58.086148482422813105-0.283005结构实验室64.16148482412792103-0.283006结构实验室62.086148482416652489-0.283007散热实验室62.086148482417312555-0.283008散热实验室62.086148482416542478-0.283009结构实验室64.16148482414192243-0.283010结构实验室566148482422683092-0.284001会议室102.0840.8208178012294310955-2.774002软件实验室62.086148482421322956-0.284003控制实验室62.086148482425343358-0.284004控制实验室58.086148482424393263-0.284005监控实验室64.16148482414992323-0.284006监控实验室62.086148482414992323-0.284007通讯实验室62.086148482414992323-0.284008通讯实验室62.086148482414992323-0.284009继电实验室64.16148482416752499-0.284010继电实验室566148482422683092-0.285001会议室102.0840.8208178012294310955-2.775002软件实验室62.086148482421322956-0.285003控制实验室62.086148482425343358-0.285004控制实验室58.086148482424393263-0.285005监控实验室64.16148482414992323-0.285006监控实验室62.086148482414992323-0.285007通讯实验室62.086148482414992323-0.285008通讯实验室62.086148482414992323-0.285009继电实验室64.16148482416752499-0.285010继电实验室566148482422683092-0.286001会议室102.0840.8208178012347911491-2.776002接待室62.081020200196221324094-0.686003传真机要室62.08630180176625344300-0.616004挡案室58.082306058924393028-0.206005财务室64.1630180176614993265-0.616006办公室62.08630180176614993265-0.616007等待门卫室62.08630180176614993265-0.616008办公室62.082306058914992088-0.206009办公室64.125010098116752656-0.346010休息室56620120117722683445-0.417001多功能厅386220153300323782004152419-14.917002茶水室58.12020400392521326057-1.367003储藏室64.12204039226643056-0.147004储藏室64.12204039214871879-0.147005管理室62.08330180176614873253-0.617006设备室64.12204039214871879-0.148001样品存放室469.3301545092953386943164-3.21总计5625.11221.4126321923219947203760423707-84.0另外,由于本设计中电梯前室没有空调,只通了一定量的新风,故该大楼的总负荷应为上述总计负荷加上电梯前室的新风负荷。3.6电梯前室的新风负荷表3.3 电梯前室的新风负荷 单位:W(热)、kg/h(湿)编号房间名称房间面积新风量夏季冬季冷负荷湿负荷热负荷湿负荷1一层电梯前室19.00685950.41682-0.262二层电梯前室19.00655690.40652-0.253三层电梯前室19.00776740.47773-0.304四层电梯前室19.00776740.47773-0.305五层电梯前室19.00776740.47773-0.306六层电梯前室19.00736390.44732-0.287七层电梯前室19.00706120.43702-0.27整栋大厦的总空调负荷夏季冷负荷:672759+4435=677194(w)=677.19(kw)冬季热负荷:423707+5087=428794(w)=428.79(kw)4冷热源方案分析4.1方案拟订按大厦总冷负荷选空调设备,用大厦总热负荷进行校核。整个大厦的冷负荷:677.19kw,热负荷428.79kw。由于该大厦有较多会议室、洽谈室和一个负荷较大的多功能厅,所以该大厦的房间的同时使用率不高。故可以取同时使用系数为0.8,然后乘以安全系数1.15。这样计算所得的系统容量是偏于安全的。主机选型负荷:冷负荷=677.190.81.15=623.01kw 0.8同时使用系数 1.15安全系数; 热负荷=428.790.81.15=394.49kw 0.8同时使用系数 1.15安全系数。备选方案:方案一:水冷螺杆冷水机组+燃气热水锅炉方案二:溴化锂吸收式冷/热机组方案三:风冷热泵方案一:水冷螺杆冷水机组+燃气热水锅炉1.美的空调设备公司水冷螺杆冷水机组一台,主要性能参数:型号:LSBLG630/M 制冷量:628 kw 输入功率:132 kw 冷冻水量:108 m3/h 冷却水量:131 m3/h冷水进、出口温度:12/7 冷却水进、出口温度:32/37在设计工况下最大输入功率:131.0kw, 最大冷冻水量: 107.1m3/h;最大冷却水量:130.0 m3/h2长沙申特空调设备公司燃气热水锅炉一台,主要性能参数:型号:STZR-40 制热量:464 kw 耗电量:0.85 kw空调热水流量:40m3/h 供回水温差:65/55 进出水压降1.4m H2O在设计工况下最大天然气消耗量:46.9Nm3/h,湖南长沙天然气热值拟取:8500kcal/m3 3.广州马利公司冷却塔一台,主要性能参数:型号:SC-150UL冷却水量:150m3/h 塔体扬程:4 m H2O电机功率:4.4kw设计工况下冷水机组最大冷却水量:130.0m3/h,设计工况下冷却塔最大电机输入功率:3.81kw。4.广西博士通公司冷冻水泵三台(两用一备),主要性能参数:型号:VGDW50-32转速:1450r/min 流量:54 m3/h扬程:31.5m 电机功率:11kw设计工况下冷水机组最大冷冻水量:107.1 m3/h,设计工况下冷冻水泵最大电机输入功率:11kw。5.热水泵一台型号:VGDW50-20流量:34 m3/h 扬程:20.8 m电机功率:5.5kw 转速:1450r/min 设计工况下锅炉热水流量:34 m3/h,设计工况下最大电机输入功率:5.5kw。热水泵设置一台,和冷冻水共用一台备用泵。6. 广西博士通公司冷却水泵三台(两用一备),主要性能参数:型号:VGDW80-20扬程:20.3m 流量:65m3/h转速:1450r/min 电机功率:7.5kw设计工况下冷水机组最大冷却水量:130.0 m3/h,设计工况下最大电机输入功率:7.5kw。方案二:溴化锂吸收式冷/热机组1、双良溴化锂吸收式冷/热水机组一台,主要性能参数: 型号:ZX-70H2制冷量:700kw 制热量558 kw输入功率:6.48 kw 冷/热水量120 m3/h 冷却水量:171m3/h (冷却水进/出口温度:32/37时,冷却水量:205m3/h)冷/热水压力损失:3.1 mH2O 冷却水压力损失8.5 mH2O冷水进/出口温度:12/7 冷却水进/出口温度:32/38在设计制冷工况下:最大输入功率:5.77kw; 最大冷冻水量:106.8 m3/h;最大冷却水量:182.5 m3/h(冷却水进/出口温度:32/37);最大天然气消耗量:47.7 Nm3/h。在设计制热工况下:最大输入功率:4.58kw;最大天然气消耗量: 46.7 Nm3/h。湖南长沙天然气热值拟取:8500kcal/m3。2.广州马利公司冷却塔一台,主要性能参数:型号:SC-200UL冷却水量:200m3/h 塔体扬程:4.1 m H2O电机功率:5.5 kw设计工况下冷水机组最大冷却水量:182.5m3/h设计工况下最大电机输入功率:5.02kw。3.广西博士通公司冷冻/热水泵三台(两用一备),主要性能参数:型号:VGDW50-32流量:54 m3/h 扬程:31.5m 转速:1450r/min 电机功率:11kw在设计工况下机组冷冻水量:108 m3/h。设计工况下最大电机输入功率:11kw。4. 广西博士通公司冷却水泵三台(两用一备),主要性能参数:型号:VGDW80-20转速:1450r/min 流量:100m3/h扬程:19m 电机功率:7.5kw在设计工况下机组冷却水量:182.5m3/h,设计工况下最大电机输入功率:7.5kw。方案三:风冷热泵1. 麦克维尔风冷单螺杆热泵一台,主要性能参数:型号:MHSST170.1制冷量:625 kw 制热量:656 kw水流量107.5 m3/h 输入功率:202 kw冷冻水进/出水温度:12/7 热水进/出水温度:40/45设计制冷工况下最大输入功率:201.4 kw;设计制热工况下最大输入功率:121.5kw。2.广西博士通公司冷冻/热水泵三台(两用一备),主要性能参数:型号:VGDW50-32流量:54 m3/h 扬程:31.5m转速:1450r/min 电机功率:11kw设计工况下热泵机组冷冻/热水量:107.2 m3/h,设计工况下最大电机输入功率:11kw。表4.1 各个方案主要设备表方 案名 称性 能 参 数数量型号方案一水冷螺杆冷水机组Q =628kw N =132kw1台LSBLG630/M燃气热水锅炉Q=464kw N=0.85kw最大天然气耗量54.6Nm3/h1台STZR-40冷却塔L=150m3/h N=4.4kw1台SC-150UL冷冻水泵L=54 m3/h H=31.5mN=11kw3台VGDW50-32热水泵L=34m3/h H=20.8mN=5.5kw1台VGDW50-20冷却水泵L=65m3/h H=20.3mN=7.5kw3台VGDW80-20方案二溴化锂冷/热水机组Q=700kw(制冷)Q=558kw(供热)N =6.8kw 最大天然气消耗量:45.6 Nm3/h(制冷),51.6 Nm3/h(供热);其热值10000kcal/Nm31台ZX-70H2冷却塔L=200m3/h N=5.5kw1台SC-200UL冷冻水泵L=54m3/h H=31.5mN=11kw3台VGDW50-32冷却水泵L=100m3/h H=19mN=7.5kw3台VGDW80-20方案三风冷螺杆热泵机组Q=625kw(制冷) Q=656kw(供热)N=202kw1台MHSST170.1冷冻/热水泵L=54m3/h H=31.5mN=11kw3台VGDW50-32表4.2 各个方案设备价格表名称单价名称单价水冷螺杆机500 (元/kw)直燃机1200 (元/kw)风冷热泵1200 (元/w)燃气热水锅炉180 (元/kw)方形冷却塔300 (元/m3.h)水泵1000 (元/kw)土建费1500 (元/)电源建设费500 (元/kw)电力增容费1000 (元/kw)天然气入户费400 (元/m3.h)电价0.8 (元/kw.h)气价3.5 (元/m3)风冷热泵方案不用单独设计机房,但需要进行屋面结构加固,初步估计需5万。各个方案机房布置图 (1)方案一 (2)方案二4.2方案初投资计算4.3各个方案初投资表 单位:万元序号项目名称方案一方案二方案三1制冷主机31.4084.0075.002锅炉8.353冷却塔4.506.004冷冻水泵3.303.303.305热水泵0.556冷却水泵2.252.257配电装置8.672.4711.208电力增容费17.344.9322.409土建费用15.0012.455.0010天然气入户费1.881.910.0011合计93.24117.30116.904.3方案运行费计算平均每年制冷期为4个月,不同负荷运行天数,100%为12天,60%为60天,30%为48天;平均每年制热期为3个月,不同负荷运行天数,100%为9天,60%为45天,30%为36天。每天空调运行时间为12小时。各个方案年运行费用计算(单位:万元)方案一1.夏季制冷运行电费:100%:1212(131.0+3.811127.52)0.8=1.9860%: 60120.6(131.0+3.811127.52)0.8=5.9430%: 48120.3(131.0+3.811127.52)0.8=2.382.冬季制热运行电费:100%:912(0.85+5.5)0.8=0.0660%: 45120.6(0.85+5.5)0.8=0.1630%: 36120.3(0.85+5.5)0.8=0.07运行气费:100%:91246.93.5=1.7760%: 45120.646.93.5=5.3230%: 36120.346.93.5=2.13总运行费用:1.98+5.94+2.38+0.06+0.16+0.07+1.77+5.32+2.13= 19.81方案二1.夏季制冷运行电费:100%:1212(5.775.02+1127.52)0.8=0.5560%: 60120.6(5.775.02+1127.52)0.8=1.6530%: 48120.3(5.775.02+1127.52)0.8=0.66运行气费:100%:121247.73.5=2.4060%: 60120.647.73.5=7.2130%: 48120.347.73.5=2.89冬季制热100%运行9天:912(4.58+112)0.8=0.2360%运行45天:45120.6(4.58+112)0.8=0.6930%运行36天:36120.3(4.58+112)0.8=0.282.运行气费:100%:91246.73.5=1.7760%: 45120.646.73.5=5.3030%: 36120.346.73.5=2.12总运行费用0.55+1.65+0.66+2.40+7.21+2.89+0.23+0.69+0.28+1.77+5.30+2.12=25.75方案三1.夏季制冷运行电费:100%:1212(201.4112)0.8=2.5760%: 60120.6(201.4112)0.8=7.7230% 48120.3(201.4112)0.8=3.092.冬季制热运行电费:100%:912(121.5112)0.8=1.2460%: 45120.6(121.5112)0.8=3.7230%: 36120.3(121.5112)0.8=1.49总运行费用:2.57+7.72+3.09+1.24+3.72+1.49 =19.834.4总费用计算 表4.4 各方案初投资+年运行费用 单位:万元项目方案一方案二方案三初 投 资93.24117.30116.90年运行费用19.8125.7519.834.5方案确定从初投资和运行费来看,方案一最少;从噪声、振动及机房占地上看,方案三最好。方案二直燃机初投资和运行费都较大;风冷热泵机组冬天结霜严重,且运行效果受室外气候影响大,在冬季室外温度很低时需要设辅助加热;水冷螺杆机式冷水机组可以进行无级调节,易损件少,对湿压缩不敏感,但机组噪声大,机房应考虑减振和降噪声设施。本设计,会议室和多功厅等不是经常使用,这使得整个大厦的空调负荷不断变化,这就需要主机有很好的调节能力。综上所述,本设计选方案一水冷螺杆机式冷水机组+燃气热水锅炉。5房间的空气处理方案及送风量的确定5.1空气处理方案该科研楼中所有房间采用风机盘管+独立新风系统。这种方式布置灵活,各房间可独立调节室温,房间没人的时候可方便地关掉房间末端(关风机),不影响其他房间,从而比其它系统较节省运转费用,此外房间之间空气互不串通,冷量可由使用者进行一定调节。独立新风系统既提高了该系统的调节和运转的灵活性,且进入风机盘管的供水温度可适当提高,水管的结露现象可得到改善。新风采用分层设置水平式新风系统,处理到室内空气焓值,不承担室内负荷,新风通过新风管道直接送入各空调空调房间。风机盘管采用二管制,各办公室不单独设排风系统,通过窗户缝隙渗透排风,厕所设排风扇进行排风。会议室多功能厅等人员密集,新风比较大,因此本设计将在这些房间设置排风扇,以保证新风能顺利进入房间。在过渡季节,关闭制冷系统、风机盘管和新风系统,采用开窗进行自然通风降温。风机盘管的控制方法:手动三档开关选择风机的转速,手动季节转换开关;风机与水路阀门联锁,由室内温度控制电动二通阀的启或闭,当二通阀断电后能自动切断水路。5.2 送风量计算空调房间的总送风量确定方法如下:由房间热湿比和90%的相对湿度线交点确定送风状态点O点,然后算出室内状态点N点和送风状态点O点之间的焓差(hn -ho),再用空调房间的室内负荷除以以上算出的焓差即得空调房间的总送风量G。总送风量G减去新风量Gw即为空调房间风机盘管的风量GF 。该过程在焓湿图上表示如B图:A B W C W =90 N =90 N Kiw M O iw O ic inin im W io WK C ON ON N NM图2.1 空气处理过程6 末端设备选型6.1 风机盘管选型表6.1风机盘管选型房间编号冷负荷(w)选型风量(m3/h)新风量(m3/h)选择型号数量(台)实际送风量(m3/h)实际送风温差()换气次数(次/h)1001235973790MCW400A16807.87.310022544721120MCW400A16807.96.0100345131385180MCW800A113607.47.11004244072690MCW400A16807.77.310052518926592524MHW020A-6232006.65.210062715929412367MHW020A-6232007.45.01007139425267200MHW035A-41350010.45.11008114881948964MHW020A-6120007.86.62001239975790MCW400A16808.08.520022254592120MCW400A16806.57.0200339531136180MCW800A113606.28.3200442871280180MCW800A113607.08.3200546121421180MCW800A113607.68.32006186468240MCW400A16806.98.020071708136041701MHW035A-4135008.28.220081686035681701MHW035A-4135008.28.2300199321947817MHW020A-6120007.811.030024520157284MCW800A113608.29.330034474155384MCW800A113608.19.330044706165784MCW800A113608.69.930053318105184MCW600A110207.56.930064489156284MCW800A113608.29.330074966177184MCW800A113609.19.330084872172584MCW800A113609.09.330093450110684MCW600A110207.96.930104805170084MCW800A113608.910.34001106381765817MHW020A-6120007.111.040025216187484MCW800A113609.69.340035504200184MCW800A1136010.39.340045267191684MCW800A113609.99.940054089139984MCW800A113607.39.040064073138184MCW800A113607.29.340074073138184MCW800A113607.29.340084073138184MCW800A113607.29.340094039136584MCW800A113607.29.040104805169684MCW800A113608.910.35001106381765817MHW020A-6120007.111.050025216187484MCW800A113609.69.350035504200184MCW800A1136010.39.350045267191684MCW800A113609.99.950054089139984MCW800A113607.39.050064073138184MCW800A113607.29.350074073138184MCW800A113607.29.350084073138184MCW800A113607.29.350094039136584MCW800A113607.29.050104805169684MCW800A113608.910.36001103301656817MHW020A-6120006.611.0600255631656200MCW800A113609.010.1600355031821180MCW800A113609.59.960044777188760MCW800A113609.49.8600537241163180MCW600A110208.17.5600640721196180MCW800A113606.49.9600740721196180MCW800A113606.49.960083576136560MCW600A110209.27.0600940711505100MCW800A113607.69.1601046891581120MCW800A113608.310.6700265381005 400MCW1000A112005.77.9700352002106 40MCW800A1136010.78.2700435471386 40MCW600A110209.96.1700540811194 180MCW800A113606.18.4700635471386 40MCW600A110209.96.180015248921450 450MHW015A1150012.06.5MHW040A14000MHW050A145006.2新风机选型新风机选型主要根据风量,新风机在走廊吊顶安装。表6.1 新风机选型名称新风量(m3/h)新风冷负荷(w)新风机型号数量(台)一层660368680MHW0352二层425737245MHW0252三层165014434MHW0201四层165014434MHW0201五层165014434MHW0201六层215018809MHW0251七层7706738MHW0151330028873MHW0351八层新风量小,不设置新风机,新风直接通入风柜和回风混合7 空调冷冻水系统水力计算 图7.1 空调冷冻水系统简图7.1 一层空调冷冻水管路水力计算 图7.2 一层空调冷冻水管路简图 表7.1 一层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个114407224780.4DN804.31.38旁流三通11.52.5闸阀20.527707113256.2DN7013.21.01分流三通13.03.5闸阀10.53473688147.3DN5010.51.03直流三通11.01.1渐缩变径10.14358806171.4DN502.50.78直流三通11.01.05333365733.8DN507.00.72直流三通11.01.06309775328.0DN504.90.67旁流三通11.54.590弯头21.0闸阀20.576954511961.7DN703.50.92分流三通13.03.5闸阀10.58443567629.2DN506.30.96直流三通11.01.1渐缩变径10.19398436853.0DN5013.70.86直流三通11.01.010374036433.3DN5013.70.81旁流三通11.54.590弯头21.0闸阀20.511297035108.9DN505.60.64旁流三通11.51.512148522554.5DN325.00.71直流三通11.05.290弯头21.5闸阀20.5渐缩变径10.213251894332.5DN402.60.91旁流三通11.51.514125952166.3DN325.00.60直流三通11.05.190弯头21.5闸阀20.5渐缩变径10.1152359405.7DN202.10.32直流三通11.06.590弯头22.0闸阀20.5渐缩变径10.5162544437.6DN202.30.34旁流三通11.54.590弯头12.0闸阀20.517114881975.9DN324.20.55旁流三通11.52.5闸阀20.518148522554.5DN325.00.71旁流三通11.54.090弯头11.5闸阀20.519125952166.3DN325.00.60旁流三通11.54.090弯头11.5闸阀20.5204513776.2DN202.30.61旁流三通11.54.590弯头12.0闸阀20.5212440419.7DN202.70.33直流三通11.06.290弯头22.0闸阀20.5渐缩变径10.2 表7.1 一层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)114407224780.4DN804.31.38312.01341.732.50947.412368.533710.2527707113256.2DN7013.21.01214.42830.083.50514.171799.604629.683473688147.3DN5010.51.03302.13172.051.10526.29578.923750.974358806171.4DN502.50.78177.4443.501.00301.97301.97745.475333365733.8DN507.00.72154.11078.701.00260.67260.671339.376309775328DN504.90.67134.0656.604.50225.081012.861669.4676954511961.7DN703.50.92176.0615.833.50418.651465.282081.108443567629.2DN506.30.96266.31677.501.10461.49507.642185.149398436853.0DN5013.70.86216.72968.931.00372.36372.363341.2910374036433.3DN5013.70.81192.0940.904.50328.151476.682417.5711297035108.9DN505.60.64123.8693.281.50206.95310.431003.7112148522554.5DN325.00.71247.21236.005.20249.931299.642535.6413251894332.5DN402.60.91336.0873.601.50415.57623.361496.9614125952166.3DN325.00.60180.9904.505.10179.74916.671821.17152359405.7DN202.10.32110.4231.846.5050.51328.32560.16162544437.6DN202.30.34126.8291.644.5058.74264.33555.9717114881975.9DN324.20.55152.0638.402.50149.54373.851012.2518148522554.5DN325.00.71247.21236.004.00249.93999.722235.7219125952166.3DN325.00.60180.9904.504.00179.74718.961623.46204513776.2DN202.30.61369.9850.774.50184.87831.921682.69212440419.7DN202.70.33117.5317.256.2054.04335.05652.30计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-6)+风柜的阻力。(风柜阻力计50000 Pa)L=2(3710.25+4629.68+3750.97+745.47+1339.37+1669.46)+50000=81690.1 Pa计算本层两并联管路的不平衡率两环路分别为:L1=(2-6)+风柜阻力+(6-2); L2=(7-10)+风柜阻力+(10-7)。L1=2(4629.68+3750.97+745.47+1339.37+1669.46)+50000=74269.9 PaL2=2(2081.10 +2185.14+3341.29+2417.57)+50000=70050.2不平衡率=(L1-L2)/L1100%=5.7% (15%)7.2 二层空调冷冻水管路水力计算 图7.3 二层空调冷冻水管路简图 表7.3 二层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个110449717973.5DN804.30.99旁流三通11.52.5闸阀20.52496228535.0DN5011.41.08分流三通13.03.5闸阀10.53453357797.6DN506.50.98直流三通11.01.04284754897.7DN501.50.62直流三通11.01.05245224217.8DN406.70.89直流三通11.01.1渐缩变径10.16222683830.1DN407.00.81直流三通11.01.07198693417.5DN405.80.72旁流三通11.54.590弯头21.0闸阀20.58548759438.5DN702.20.72分流三通13.03.5闸阀10.59409337040.5DN506.20.89直流三通11.01.1渐缩变径10.110238524102.5DN401.50.86直流三通11.01.1渐缩变径10.111192403309.3DN4014.20.70直流三通11.01.012173772988.8DN325.80.83旁流三通11.54.590弯头21.0闸阀20.513168602899.9DN326.60.80旁流三通11.52.5闸阀20.514139422398.0DN326.60.66旁流三通11.52.5闸阀20.515170812937.9DN326.60.81旁流三通11.52.5闸阀20.5162399412.6DN202.10.32直流三通11.06.490弯头22.0闸阀20.5渐缩变径10.4172254387.7DN202.30.30旁流三通11.54.590弯头12.0闸阀20.5183953679.9DN202.30.53旁流三通11.54.590弯头12.0闸阀20.5194287737.4DN202.30.58旁流三通11.54.590弯头12.0闸阀20.5204612793.3DN202.30.62旁流三通11.54.590弯头12.0闸阀20.5211860319.9DN151.90.46直流三通11.08.590弯头22.0闸阀21.5渐缩变径10.5表7.4 二层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)110449717973.5DN804.30.99164.4705.12.50493.431233.581938.682496228535DN5011.41.08330.53767.33.50577.572021.505788.803453357797.6DN506.50.98277.71804.961.00482.09482.092287.054284754897.7DN501.50.62114.2171.371.00190.19190.19361.565245224217.8DN406.70.89319.12138.041.10393.85433.242571.286222683830.1DN4070.81265.31857.341.00324.78324.782182.127198693417.5DN405.80.72213.51238.194.50258.571163.572401.768548759438.5DN702.20.72109.6241.173.50260.66912.311153.489409337040.5DN506.20.89222.21377.51.10393.01432.311809.8110238524102.5DN401.50.86288.9433.421.10372.63409.89843.3111192403309.3DN4014.20.70189.72693.251.00242.46242.462935.7112173772988.8DN325.80.83313.01815.434.50342.141539.633355.0613168602899.9DN326.60.80314.92078.062.50322.09805.232883.2914139422398DN326.60.66219.31447.082.50220.25550.631997.7115170812937.9DN326.60.81322.82130.412.50330.58826.452956.86162399412.6DN202.10.32113.8239.086.4052.24334.34573.42172254387.7DN202.30.30101.5233.524.5046.11207.50441.02183953679.9DN202.30.53288.2662.874.50141.83638.241301.11194287737.4DN202.30.58335.7772.224.50166.81750.651522.87204612793.3DN202.30.62385.4886.474.50193.06868.771755.24211860319.9DN151.90.46323.0613.678.50104.06884.511498.18计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-7)+风柜的阻力。(风柜阻力计40000 Pa)L=2(1938.68+5788.80+2287.05+361.56+2571.28 +2182.12 +2401.76)+50000=85062.5 Pa计算本层两并联管路的不平衡率两环路分别为:L1=(2-7)+风柜+(7-2); L2=(8-12)+风柜+(12-8)。L1=2(5788.80+2287.05+361.56+2571.28 +2182.12 +2401.76)+50000=81185.4 L2=2(1153.48+1809.81+843.31+2935.71+3355.06)+50000=70194.7不平衡率=(L1-L2)/L1100%=13.5% (15%)7.3 三层空调冷冻水管路水力计算图7.3三层空调冷冻水管路简图表7.5 三层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个16396611002.2DN705.50.85旁流三通11.52.5闸阀20.52476538196.3DN503.41.03分流三通13.03.5闸阀10.53426877342.2DN507.60.93直流三通11.01.1渐缩变径10.14332955726.7DN507.00.72直流三通21.02.05233634018.4DN401.40.85直流三通11.01.1渐缩变径10.16199133425DN408.00.72直流三通11.01.07151082598.6DN326.70.72直流三通11.04.190弯头21.0闸阀20.5渐缩变径10.18169872921.8DN321.80.81分流三通13.03.5闸阀10.59124982149.7DN327.60.60直流三通11.01.0104706809.4DN2010.70.63直流三通11.06.190弯头22.0闸阀20.5渐缩变径10.11199321708.3DN325.40.47旁流三通11.52.5闸阀20.5124520777.4DN203.80.61旁流三通11.54.590弯头12.0闸阀20.5134520777.4DN203.80.61旁流三通11.54.590弯头12.0闸阀20.5144805826.5DN252.30.40旁流三通11.54.090弯头11.5闸阀20.5153450593.4DN202.30.47旁流三通11.54.590弯头12.0闸阀20.5164872838.0DN252.30.41旁流三通11.54.090弯头11.5闸阀20.5174966854.2DN252.30.42旁流三通11.54.090弯头11.5闸阀20.5184489772.1DN202.30.61旁流三通11.54.590弯头12.0闸阀20.5193318570.7DN202.30.45旁流三通11.54.590弯头12.0闸阀20.5 表7.6 三层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)16396611002.2DN705.50.85152.9841.062.5361.68904.201745.262476538196.3DN503.41.03305.71039.243.5532.641864.242903.483426877342.2DN507.60.93247.41879.941.1427.41470.152350.094332955726.7DN507.00.72153.81076.462.0260.02520.041596.505233634018.4DN401.40.85290.9407.191.1357.50393.25800.446199133425DN408.00.72214.41715.041.0259.72259.721974.767151082598.6DN326.70.72255.41711.314.1258.621060.342771.668169872921.8DN321.80.81319.4574.923.5326.961144.361719.289124982149.7DN327.60.60178.21354.321.0176.99176.991531.31104706809.4DN2010.70.63400.44284.286.1201.021226.225510.501199321708.3DN325.40.47115.6624.242.5111.77279.43903.67124520777.4DN203.80.61371.01409.804.5185.44834.482244.28134520777.4DN203.80.61363.91382.824.5181.68817.562200.38144805826.5DN252.30.40123.2283.364.080.41321.64605.00153450593.4DN202.30.47223.3513.594.5108.03486.14999.73164872838DN252.30.41126.4290.724.082.66330.64621.36174966854.2DN252.30.42131.0301.304.085.89343.56644.86184489772.1DN202.30.61366.2842.264.5182.90823.051665.31193318570.7DN202.30.45207.6477.484.599.93449.69927.17计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-7)+风柜阻力。(风柜阻力计30000 Pa)L=2(1745.26+2903.48+2350.09+1596.50 +800.44 +1974.76+2771.66)+30000=58284.4 Pa计算本层两并联管路的不平衡率两环路分别为:L1=(2-7)+风柜阻力+(7-2); L2=(8-10)+风柜阻力+(10-8)。L1=2(2903.48+2350.09+1596.50 +800.44 +1974.76+2771.66)+30000=54793.9 L2=2(1719.28 +1531.31 +5510.50)+30000=47522.2不平衡率=(L1-L2)/L1100%=13.3% (15%)7.4 四、五空调冷冻水管路水力计算层 图7.4 四、五层空调冷冻水管路简图 表7.7 四、五层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个16621111388.3DN705.50.88旁流三通11.52.5闸阀20.52479528131.8DN503.41.04分流三通13.03.5闸阀10.53438797431.3DN507.60.95直流三通11.01.1渐缩变径10.14345905833.6DN507.00.75直流三通21.02.05239524003.8DN401.40.87直流三通11.01.1渐缩变径10.16199133309.1DN408.00.72直流三通11.01.07151082482.7DN326.70.72直流三通11.04.190弯头21.0闸阀20.5渐缩变径10.18189333256.5DN401.80.69分流三通13.03.5闸阀10.59148602555.9DN327.60.71直流三通11.01.0105267905.9DN2010.70.71直流三通11.06.190弯头22.0闸阀20.5渐缩变径10.111106381829.7DN325.40.51旁流三通11.52.5闸阀20.5125216897.2DN253.80.44旁流三通11.54.590弯头12.0闸阀20.5135504946.7DN253.80.46旁流三通11.54.590弯头12.0闸阀20.5144805826.5DN252.30.40旁流三通11.54.090弯头11.5闸阀20.5154039694.7DN202.30.54旁流三通11.54.590弯头12.0闸阀20.5164073700.6DN202.30.55旁流三通11.54.090弯头11.5闸阀20.5174073700.6DN202.30.55旁流三通11.54.090弯头11.5闸阀20.5184073700.6DN202.30.55旁流三通11.54.590弯头12.0闸阀20.5194089703.3DN202.30.55旁流三通11.54.590弯头12.0闸阀20.5表7.8 三层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)16621111388.3DN705.50.88163.3897.992.5387.24968.101866.092479528131.8DN503.41.04309.41051.823.5539.351887.732939.553438797431.3DN507.60.95260.81982.001.1451.62496.782478.794345905833.6DN507.00.75165.41157.662.0280.65561.301718.965239524003.8DN401.40.87305.1427.071.1375.76413.34840.416199133309.1DN408.00.72214.41715.041.0259.72259.721974.767151082482.7DN326.70.72225.41510.314.1258.621060.342570.668189333256.5DN401.80.69194.8350.643.5234.78821.731172.379148602555.9DN327.60.71247.51881.001.0250.20250.202131.20105267905.9DN2010.70.71495.75303.996.1251.801535.986839.9711106381829.7DN325.40.51131.5710.102.5128.23320.581030.68125216897.2DN253.80.44143.5545.304.594.75426.38971.68135504946.7DN253.80.46158.7603.064.5105.50474.751077.81144805826.5DN252.30.40123.2283.364.080.41321.64605.00154039694.7DN202.30.54300.1690.234.5148.07666.321356.55164073700.6DN202.30.55304.9701.274.0150.58602.321303.59174073700.6DN202.30.55304.9701.274.0150.58602.321303.59184073700.6DN202.30.55304.9701.274.5150.58677.611378.88194089703.3DN202.30.55307.1706.334.5151.76682.921389.25计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-7)+风柜阻力。(风柜阻力计30000 Pa)L=2(1866.09 +2939.55+2478.79+1718.96+840.41+1974.76+2570.66)+30000=58778.4 Pa计算本层两并联管路的不平衡率两环路分别为:L1=(2-7)+风柜阻力+(7-2); L2=(8-10)+风柜阻力+(10-8)。L1=2(2939.55+2478.79+1718.96+840.41+1974.76+2570.66)+30000=55046.3 L2=2(1172.37+2131.20+6839.97)+30000=50287.1不平衡率=(L1-L2)/L1100%=8.6% (15%)7.5 六层空调冷冻水管路水力计算 图7.5 六层空调冷冻水管路简图表7.9 三层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个16918611900DN705.50.92旁流三通11.52.5闸阀20.52517498790.9DN503.41.12分流三通13.03.5闸阀10.53476778090.5DN507.61.03直流三通11.01.1渐缩变径10.14385386518.6DN5070.84直流三通21.02.05282084741.9DN501.40.61直流三通11.01.1渐缩变径10.16241374041.7DN4080.87直流三通11.01.07194483235.2DN406.70.71直流三通11.04.190弯头21.0闸阀20.5渐缩变径10.18169872921.8DN321.80.81分流三通13.03.5闸阀10.59124982149.7DN327.60.60直流三通11.01.0104706809.4DN2010.70.63直流三通11.06.190弯头22.0闸阀20.5渐缩变径10.11199321708.3DN325.40.47旁流三通11.52.5闸阀20.5124520777.4DN203.80.61旁流三通11.54.590弯头12.0闸阀20.5134520777.4DN203.80.61旁流三通11.54.590弯头12.0闸阀20.5144805826.5DN252.30.40旁流三通11.54.090弯头11.5闸阀20.5153450593.4DN202.30.47旁流三通11.54.590弯头12.0闸阀20.5164872838.0DN252.30.41旁流三通11.54.090弯头11.5闸阀20.5174966854.2DN252.30.42旁流三通11.54.090弯头11.5闸阀20.5184489772.1DN202.30.61旁流三通11.54.590弯头12.0闸阀20.5193318570.7DN202.30.45旁流三通11.54.590弯头12.0闸阀20.5表7.10 三层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)16918611900DN705.50.92177.3975.152.5422.031055.0752030.232517498790.9DN503.41.12358.31218.223.5628.152198.5253416.753476778090.5DN507.61.033062325.61.1533.18586.4982912.104385386518.6DN5070.84203.31423.12348.37696.742119.845282084741.9DN501.40.61112.2157.081.1186.64205.304362.386241374041.7DN4080.87309.62476.81381.58381.582858.387194483235.2DN406.70.71205.81378.864.1248.751019.8752398.748180763109.1DN321.80.86359.7647.463.5370.221295.771943.239125732162.6DN327.60.6180.31370.281179.12179.121549.40104777821.6DN2010.70.64411.94407.336.1207.131263.4935670.8211103301776.8DN325.40.49124.5672.32.5120.91302.275974.58125563956.8DN203.80.75550.12090.384.5280.891264.0053354.39135503946.5DN203.80.74538.82047.444.5274.871236.9153284.36144689806.5DN252.30.39117.7270.71476.57306.28576.99154071700.2DN202.30.55304.6700.584.5150.43676.9351377.52163576615.1DN252.30.371.4164.22444.54178.16342.38174072700.4DN252.30.3490.7208.61457.75231439.61184072700.4DN202.30.55304.7700.814.5150.5677.251378.06193724640.5DN202.30.5257.7592.714.5125.88566.461159.17计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-7)+风柜阻力。(风柜阻力计35000 Pa)L=2(2030.23+3416.75+2912.10+2119.84 +362.38 +2858.38 +2398.74)+35000=67196.8 Pa计算本层两并联管路的不平衡率两环路分别为:L1=(2-7)+风柜阻力+(7-2); L2=(8-10)+风柜阻力+(10-8)。L1=2(3416.75+2912.10+2119.84 +362.38 +2858.38 +2398.74)+35000=63136.4 L2=2(1943.23+1549.40+5670.82)+30000=48326.9 Pa不平衡率=(L1-L2)/L1100%=23.5% (15%)需要利用阀门进行调节。7.6 七层空调冷冻水管路水力计算 图7.6 七层空调冷冻水管路简图 表7.11 三层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个110864318686.6DN804.41.02旁流三通11.54.0闸阀20.528254014196.9DN703.271.09分流三通13.03.5闸阀10.537899313586.8DN708.41.04直流三通11.01.04455807839.8DN503.30.99分流三通13.03.05288734966.2DN50290.63直流三通11.03.090弯头21.09334135747DN504.20.72分流三通13.05.090弯头21.010167072873.6DN321.480.80分流三通13.04.0闸阀20.511296515100DN403.31.07分流三通13.04.0闸阀20.512167072873.6DN323.80.80旁流三通11.54.5闸阀20.590弯头21.0表7.12 三层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)110864318686.6DN804.41.02174.8769.124520.222080.881289.3428254014196.9DN703.271.09244.69800.143.5589.73.2064.052864.2037899313586.8DN705.081.04224.81141.981540.13540.131682.114455807839.8DN503.140.99280.6881.083487.311461.931368.395288734966.2DN5023.810.63117.32792.913195.54586.622988.459334135747DN505.960.72154.8922.615261.871309.351184.4810167072873.6DN321.480.8309.4457.914316.271265.08774.1811296515100DN403.31.07459.71517.014575.842303.362092.8512167072873.6DN322.80.8309.4866.324.5316.271423.221182.59计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-5)+风柜阻力。(风柜阻力计55000 Pa)L=2(1289.34+2864.20 +1682.11+1368.39 +2988.45)+55000=75385.0 Pa7.7 八层空调冷冻水管路水力计算 7.7 八层空调冷冻水管路简图表7.13 八层水管各管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个1544109358.5DN7010.90.72闸阀20.53.090弯头21.02326465615.1DN509.90.71直流三通11.02.1闸阀20.5渐缩变径10.13217643743.4DN401.80.79直流三通11.04.0闸阀20.590弯头21表7.14 八层水管各管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)1544109358.5DN70 16.380.721101801.83256.26768.782570.582326465615.1DN50 3.070.71148.1454.6672.1249.99524.979979.6463217643743.4DN40 7.670.792541948.184310.241240.963189.14计算最不利环路的阻力(供水和回水管的阻力基本相同,本设计将取回水管阻力的两倍来计算环路的管道阻力)。最不利环路的总阻力=2(1-2)+风柜阻力。(风柜阻力计20000Pa)L=2(2570.58+979.646+3189.14)+20000=33478.7 Pa7.8 各立管段水力计算表7.15 立管管段局部阻力系数序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)局部阻力系数名称数量个53312291697.0DN1253.91.89直流三通11.01.1渐缩变径10.142862673723.7DN1253.41.52直流三通11.01.036466062721.5DN1253.41.29直流三通11.01.029844951333.2DN1003.41.62直流三通11.01.1渐缩变径10.123223939945.1DN1003.41.26直流三通11.01.016305328045.1DN803.41.53直流三通11.01.1渐缩变径10.1544109358.5DN7050.72分流三通13.04.090弯头11.0表7.16 各立管管段阻力序号负荷(W)流量(kg/h)管径管长(m)流速(m/s)R(Pa/m)沿程阻力(Pa)动压(Pa)局部阻力(Pa)总阻力(Pa)677194116477.0DN1501.69202.41433.1453312291697.0DN1253.91.89313.31222.0011791.191791.193013.2042862673723.7DN1253.41.52204.2694.2011154.611154.611848.8136466062721.5DN1253.41.29149.2507.131835.71835.711342.8429844951333.2DN1003.41.62300.61022.0611305.821305.822327.8723223939945.1DN1003.41.26184.6627.761790.70790.701418.4616305328045.1DN803.41.53383.61304.2811171.761171.762476.04544109358.5DN7050.72110.0550.115256.261281.301831.41计算从0点起,各层最不利环路的阻力一层:161 81690.1;二层:161+2 85062.5+23013.20=90188.9;三层:171+2() 58284.4+2(3013.20+1848.81)=86883.4;四层:171+2() 58778.4+2(3013.20+1848.81+1342.84) =68008.4;五层:171+2() 58778.4+2(3013.20+1848.81+1342.84 +2327.87)=75843.8;六层:171+2() 63136.4+2(3013.20+1848.81+1342.84 +2327.87+1418.46)=83038.8;七层:151+2() 75385.0+2(3013.20+1848.81+1342.84 +2327.87+1418.46+2476.04)=100239.4;八层:131+2() 33478.7+2(3013.20+1848.81+1342.84 +2327.87+1418.46+2476.04+1831.41)=61996.0。从上述结果可以看出:整个空调冷冻水系统最不利环路为七层151+,阻力为100239.4,冷冻水泵扬程的确定将以此为依据。各层间并联最不利环路不平衡率计算七层与一层:=18.5% (15%) 需要利用阀门进行调节;七层与二层:=10.0% (15%) 七层与三层:=13.3% (15%) 七层与四层:=32.2% (15%) 需要利用阀门进行调节;七层与五层:=24.3% (15%) 需要利用阀门进行调节;七层与六层:=17.2% (15%) 需要利用阀门进行调节;七层与八层:=38.2% (15%) 需要利用阀门进行调节。8 房间气流组织房间1001,1004房间尺寸:8.03.76 m,层高4.5m,净高3.5m,送风量680m3/h。1.布置散流器顶棚散流器平送,散流器对称布置,选用圆形散流器2个,即每个散流器承担43.76m的送风区域。散流器服务区边长L=(4+3.76)/2=3.88m。2.初选散流器按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.940.75=1.46m 4.计算室内平均风速v=0.14 m/s如果送冷风,则室内平均风速为0.17 m/s;送热风时,平均风速0.11 m/s。所选散流器符合要求。房间1002房间尺寸:8.04.76 m,层高4.5m,净高3.5m,送风量680m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器2个,即每个散流器承担44.76m的送风区域。散流器服务区边长L=(4+4.76)/2=4.38m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx2.190.75=1.64 m 4.计算室内平均风速v=0.14 m/s如果送冷风,则室内平均风速为0.17 m/s;送热风时,平均风速0.11 m/s。所选散流器符合要求。房间1003房间尺寸:87.76 m,层高4.5m,净高3.5m,送风量1360m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器4个,即每个散流器承担43.88m的送风区域。散流器服务区边长L=(4+3.88)/2=3.94m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.970.75=1.48 m 4.计算室内平均风速v=0.14 m/s如果送冷风,则室内平均风速为0.17 m/s;送热风时,平均风速0.11 m/s。所选散流器符合要求。房间1005,1006房间尺寸:24.013.2 m,层高4.5m,净高3.5m,送风量3200m3/h(选用两台吊顶风柜每台送风量1600m3/h)。1.布置散流器。顶棚散流器平送,散流器对称布置,近回风口的散流器距墙为5.0m,以保证送回风口距离,避免送回风短路。选用圆形散流器8个(每台吊顶风柜装4个散流器),由于房间内还装有新风口,所以送风口实际的送风面积为55m,即每个散流器承担55m的送风区域。散流器服务区边长L=(5+5)/2=5m。2.初选散流器。按3.0m/s选择风口,选择颈部尺寸为190mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.026。则散流器出口风速=4.35m。3.计算射程(射流末端速度0.5)x=1.44.35(0.026)1/2/0.5-0.07=1.90mx 2.50.75=1.88m 4.计算室内平均风速v=0.17 m/s如果送冷风,则室内平均风速为0.20 m/s;送热风时,平均风速0.14m/s。所选散流器符合要求。房间1008房间尺寸:15.68 m,层高4.5m,净高3.5m,送风量2000m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,近回风口的散流器距墙为4m,以保证送回风口距离,避免送回风短路。选用圆形散流器6个,即每个散流器承担44.6m的送风区域。散流器服务区边长L=(4.2+4.6)/2=4.4m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为180mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.023。则散流器出口风速=4.02m。3.计算射程(射流末端速度0.5)x=1.44.02(0.023)1/2/0.5-0.07=1.64mx 2.20.75=1.65 m 4.计算室内平均风速v=0.15 m/s如果送冷风,则室内平均风速为0.18 m/s;送热风时,平均风速0.12 m/s。所选散流器符合要求。房间2001,2006房间尺寸:8.03.76 m,层高3.9m,净高3.0m,送风量680m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器2个,即每个散流器承担43.76m的送风区域。散流器服务区边长L=(4+3.76)/2=3.88m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.940.75=1.46 m 4.计算室内平均风速v=0.16 m/s如果送冷风,则室内平均风速为0.19 m/s;送热风时,平均风速0.13 m/s。所选散流器符合要求房间2002房间尺寸:8.04.76 m,层高3.9m,净高3.0m,送风量680m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器2个,即每个散流器承担44.76m的送风区域。散流器服务区边长L=(4+4.76)/2=4.38m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx2.190.75=1.64 m 4.计算室内平均风速v=0.15 m/s如果送冷风,则室内平均风速为0.18 m/s;送热风时,平均风速0.12 m/s。所选散流器符合要求。房间2003-2005房间尺寸:87.76 m,层高3.9m,净高3.0m,送风量1360m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器4个,即每个散流器承担43.88m的送风区域。散流器服务区边长L=(4+3.88)/2=3.94m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.970.75=1.48 m 4.计算室内平均风速v=0.16 m/s如果送冷风,则室内平均风速为0.19 m/s;送热风时,平均风速0.13 m/s。所选散流器符合要求。房间2007,2008房间尺寸:19.7610.76 m,层高3.9m,净高2.9m,送风量3500m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,近回风口的散流器距墙为3.5m,以保证送回风口距离,避免送回风短路。选用圆形散流器8个,即每个散流器承担4.65.4m的送风区域。散流器服务区边长L=(4.6+5.4)/2=5m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为210mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.031。则散流器出口风速=3.9m。3.计算射程(射流末端速度0.5)x=1.43.9(0.031)1/2/0.5-0.07=1.85mx 约2.50.75=1.88m 4.计算室内平均风速v=0.18 m/s如果送冷风,则室内平均风速为0.22 m/s;送热风时,平均风速0.14 m/s。所选散流器符合要求。房间3001,4001,5001,6001房间尺寸:12.768 m,层高3.4m,净高2.5m,送风量2000m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,近回风口的散流器距墙为3.5m,以保证送回风口距离,避免送回风短路。选用圆形散流器6个,即每个散流器承担3.84m的送风区域。散流器服务区边长L=(3.8+4.0)/2=3.9m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.3m。3.计算射程(射流末端速度0.5)x=1.43.3(0.028)1/2/0.5-0.07=1.48mx 1.950.75=1.46m 4.计算室内平均风速v=0.18 m/s如果送冷风,则室内平均风速为0.22 m/s;送热风时,平均风速0.14 m/s。所选散流器符合要求。房间3002-3004,3006-3008,4002-4009,5002-5009,6002-6004,6006,6007,6009房间尺寸:87.76 m,层高3.4m,净高2.5m,送风量1360m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器4个,即每个散流器承担43.88m的送风区域。散流器服务区边长L=(4+3.88)/2=3.94m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.970.75=1.48m 4.计算室内平均风速v=0.18 m/s如果送冷风,则室内平均风速为0.22 m/s;送热风时,平均风速0.14 m/s。所选散流器符合要求。房间3005,3009,6005,6008房间尺寸:8.267.76 m,层高3.4m,净高2.5m,送风量1020m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器4个,即每个散流器承担43.88m的送风区域。散流器服务区边长L=(4+3.88)/2=3.94m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为160mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.020。则散流器出口风速=3.91m。3.计算射程(射流末端速度0.5)x=1.43.91(0.020)1/2/0.5-0.07=1.48mx=1.970.75=1.48 m4.计算室内平均风速v=0.18 m/s如果送冷风,则室内平均风速为0.22 m/s;送热风时,平均风速0.14 m/s。所选散流器符合要求。房间3010,4010,5010,6010房间尺寸:8.07.0m,层高3.4m,净高2.5m,送风量1360m3/h。1.布置散流器。顶棚散流器平送,散流器对称布置,选用圆形散流器4个,即每个散流器承担43.6m的送风区域。散流器服务区边长L=(4+3.6)/2=3.8m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为200mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.028。则散流器出口风速=3.37m。3.计算射程(射流末端速度0.5)x=1.43.37(0.028)1/2/0.5-0.07=1.51mx1.90.75=1.43m 4.计算室内平均风速v=0.18 m/s如果送冷风,则室内平均风速为0.22 m/s;送热风时,平均风速0.14 m/s。所选散流器符合要求。房间7001房间尺寸:20.7618.90m,层高4.8m,净高3.8m,送风量8100m3/h。(选用三台吊顶风柜每台送风量2700m3/h)1.布置散流器。顶棚散流器平送,散流器对称布置,近回风口的散流器距墙为4.5m,以保证送回风口距离,避免送回风短路。选用圆形散流器9个(每台吊顶风柜装3个散流器),由于房间内还装有新风口,所以送风口实际的送风面积为66m,即每个散流器承担66m的送风区域。散流器服务区边长L=(6+6)/2=6m。2.初选散流器。按3m/s选择风口,选择颈部尺寸为300mm的圆形散流器。散流器实际出口面积约为颈部面积的90%,即A=0.071。则散流器出口风速=3.93m。3.计算射程(射流末端速度0.5)x=1.43.93(0.071)1/2/0.5-0.07=2.86mx30.75=2.25m 4.计算室内平均风速v=0.23 m/s如果送冷风,则室内平均风速为0.28 m/s;送热风时,平均风速0.18 m/s。所选散流器符合要求。9送、回风口选型送风口一般按3-4m/s的风速,校核满足气流组织要求即可;回风口一般按4m/s,选取规格。送风口、新风口为圆形散流器;回风口为单层百叶。表9.1 房间风口规格表 单位:mm序号名称送风口数量(个)回风口数量(个)新风口数量(个)1001管理室2002500x200115011002管理室2002500x200115011003管理室20041000x200118011004消防控制2002500x200115011005接待室1908500x300230031006展厅1908500x300230031007大堂31561000x40011008展厅1806600x300120022001管理室2002500x200115012002管理室2002500x200115012003管理室20041000x200118012004管理室20041000x200118012005管理室20041000x200118012006储藏室2002500x200115012007洽谈室21081000x400115032008会议室21081000x400115033001会议室2006800x250120023002结构实验20041000x200115013003风道实验20041000x200115013004风道实验20041000x200115013005结构实验16041000x200115013006结构实验20041000x200115013007散热实验20041000x200115013008散热实验20041000x200115013009结构实验16041000x200115013010结构实验20041000x200115014001会议室20061000x200120024002软件实验20041000x200115014003控制实验20041000x200115014004控制实验20041000x200115014005监控实验20041000x200115014006监控实验20041000x200115014007通讯实验20041000x200115014008通讯实验20041000x200115014009继电实验20041000x200115014010继电实验20041000x200115015001会议室20061000x200120025002软件实验20041000x200115015003控制实验20041000x200115015004控制实验20041000x200115015005监控实验20041000x200115015006监控实验20041000x200115015007通讯实验20041000x200115015008通讯实验20041000x200115015009继电实验20041000x200115015010继电实验20041000x200115016001会议室20061000x200120026002接待室20041000x200118016003传真机要20041000x200118016004挡案室20041000x200118016005财务室1604700x200118016006办公室20041000x200118016007等待门卫20041000x200118016008办公室1604700x200118016009办公室20041000x200118016010休息室20041000x200118017001多功能厅3009800x400335037002茶水室20041000x200120017003储藏室20041000x200115017004储藏室1604700x200115017005管理室20041000x200115017006设备室1604700x200115018001样品存放270151000x40011200x4001600x300110 风管水力计算1008房间风管阻力计算图10.1 1008房间风管简图表10.1 1008房间风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力120008001601.444.341.211.740.0011.280.001.74213336301604.603.670.924.250.008.080.004.2536774501604.602.610.532.430.004.090.002.4343333201202.102.410.671.411.053.483.655.0528.5853333201202.102.410.671.411.053.483.655.0528.5863333201602.101.810.300.630.951.961.862.4828.5873333201602.101.810.300.630.951.961.862.4828.5883333201602.101.810.300.630.821.961.602.2328.5893333201602.101.810.300.630.821.961.602.2328.58 经计算,阻力最小的管路为1-4;阻力最大的管路为1-2-3-8。管段4与管段2-3-8并联,管段4的阻力:5.05+28.58=33.63;管段2-3-8的阻力:4.25+2.43+28.58+2.23=37.49。不平衡率:(37.49-33.63)/37.49100%=10.3% 两并联管段4与管段2-3-8阻力基本平衡。二楼左侧新风管阻力计算图10.2 二楼左侧新风管简图表10.2 二楼左侧新风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力122706302501.344.000.490.660.009.600.000.660 .00221806302502.813.850.461.280.008.850.001.280 .00316135002502.183.580.440.960.027.700.151.110 .00414935002502.423.320.380.930.006.590.000.930 .0059265002503.262.060.160.530.002.540.000.530 .0067465002501.351.660.110.150.001.650.000.150 .0071792001208.462.070.443.751.412.573.637.3717.838901201201.831.740.430.791.921.813.474.2511.0191201201201.832.320.711.301.723.215.526.8219.25101802001201.832.080.450.821.722.604.475.2917.83115674001602.312.460.360.821.413.635.115.9422.74125674001602.312.460.360.821.233.634.465.2822.74135674001602.312.460.360.821.013.633.664.4922.74管路1-8的阻力:15.92(Pa) 管路1-2-11的阻力:30.62(Pa)管路1-3-9的阻力:29.12(Pa) 管路1-4-12的阻力:32.00(Pa)管路1-5-10的阻力:27.76(Pa) 管路1-6-13的阻力:31.89(Pa)管路1-7的阻力:29.86(Pa) 管段8与管段2-4-12并联,管段8的阻力:4.25+11.01=15.26;管段2-4-12的阻力:1.28+1.11+0.93+5.28+22.74 =31.34。不平衡率:(31.34-15.26)/31.34100%=48.1%必须靠风阀调节管段8的阻力。管段5-10与管段12并联,管段5-10的阻力:0.53+5.29 +17.83=23.65;管段12的阻力: 5.28+22.74 =28.02。不平衡率:(28.02-23.39)/28.02100%=15.6%两并联管段5-10与管段12阻力基本平衡。其他并联管段均满足阻力平衡。1005,1006房间风管阻力计算 图10.3 1005,1006房间风管简图表10.3 1005,1006房间风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力116006302002.783.530.521.450.007.450.001.4533.852120050020053.330.512.540.256.651.664.2033.85380040020052.780.401.980.254.621.133.1133.85440025020052.220.331.650.232.960.692.3433.85 经计算,阻力最大的管路为1-2-3-4。管段1-2-3-8的阻力:L=1.45+4.20+3.11+2.34+33.85=42.61。1001,1002房间风管阻力计算图10.4 1001,1002房间风管简图表10.4 1005,1006房间风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力16804501601.362.620.530.730.074.120.291.0122.0823404501604.001.310.140.570.201.030.210.7822.08 经计算,阻力最大的管路为1-2。管段1-2-3-8的阻力:L=1.01+0.78 +22.08=23.87。1004房间风管阻力计算 图10.5 1004房间风管风管简图表10.5 1004房间风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力113606301601.093.750.730.790.078.410.591.380.0026804501604.002.620.411.660.024.120.081.740.0033403201202.002.460.541.070.433.621.562.6320.3843403201202.002.460.541.070.433.621.562.6320.3853403201602.001.850.250.500.302.040.611.1120.3863403201602.001.850.250.500.302.040.611.1120.38 经计算,阻力最大的管路为1-2-5。管段1-2-5的阻力:L=1.38+1.74 +1.11+20.38=24.61。管段3与管段2-5并联,管段3的阻力:2.63+20.38=23.01;管段2-5的阻力:1.74 +1.11+20.38=23.23。不平衡率:(23.23-23.01)/23.23100%=0.9%3005房间风管阻力计算表10.6 3005房间风管简图表10.6 3005房间风管阻力序号风量(m3/h)管宽(mm)管高(mm)管长(m)(m/s)R(Pa/m)沿程损失(Pa)总动压(Pa)局部损失(Pa)总压损失(Pa)散流器阻力110206301601.09 2.81 0.43 0.47 0
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