空调冷热源系统,air conditioning heat/cool source system
1)air conditioning heat/cool source system空调冷热源系统
1.The uncertained and fuzzy factors can be quantified by this way, which settles the disadvantage and difficulties in the traditional methods, and makes it more scientific to select theair conditioning heat/cool source system.本文将模糊综合评判的思想和方法运用到空调冷热源系统的选择中,建立了空调冷热源系统选择的评价指标体系和综合评判模型。
2.The uncertained and fuzzy factors can be quantified by this way,which settles the disadvantage and difficulties in the traditional methods,and makes it more scientific to select theair conditioning heat/cool source system.将模糊综合评判的思想和方法运用到空调冷热源系统的选择中,建立了空调冷热源系统选择的评价指标体系和综合评判模型。
英文短句/例句
1.THE REFORM OF COLD/HEAT SOURCE OF CENTRAL AIR-CONDITIONING OF A COMPANY IN OFFICE DISTRICT某公司办公区中央空调冷热源系统节能改造
2.The Research of Fuzzy Synthetic Evaluation Selection Method of Air Conditioning Heat/Cool Source空调冷热源系统选择的模糊综合评判方法研究
3.Research on the Optimum Selection of Air-Conditioner Heat/Cool Sourses and the System Design;空调冷热源的优化选择与其系统开发
4.Study on the Scheme Select on Method of Theair-Conditioner Heat and Cool Souroes;空调系统冷热源方案选择方法的研究
5.Air conditioning cold and heat source system design and energy saving effect of Guolin Hotel国林宾馆空调冷/热源系统设计与节能效果
6.Optimization of the cooling water temperature for seawater-source heat pump systems海水源热泵空调系统冷却水水温的优化分析
7.Optimal Design Of Guangxi Development Building East Building Air-conditioning And Hot- water cooling-Heating Combined Ground Source Heat Pump System广西发展大厦东楼地源热泵空调热水冷热联供系统优化设计
8.Research on the Choice of Air-conditioning System"s Cold and Heat Source and the Union Run of Ventilation and Air Conditioning空调系统冷热源的选择及通风空调联合运行的研究
9.THE MATCH RELATIONSHIIP STUDY ON THE THERMOSTATIC EXPANSION VALVE AND AIR-CONDITIONING IN THE ROOM WITH INTERNAL HEAT SOURCE有内热源房间空调器制冷系统热力膨胀阀的匹配研究
10.Based on Meteorological Parameters to Determine the Water Source Heat Pump气象学参数是确定水源热泵空调系统冷/热负荷的必要依据
11.Design of water-source heat pump air conditioning system combined with thermal water storage for Wuhan Tazihu People Exercise Center武汉塔子湖全民健身中心水源热泵水蓄冷(热)空调系统设计
12.Water-source heat pump combined with water thermal storage air conditioning system for Wuhan Zhengyuan Railroad Electricity Limited Company R & D Center武汉正远铁路电气研发中心水源热泵水蓄冷(热)空调系统设计
13.Superiority and application of a combined water-source heat pump and ice storage air conditioning system水源热泵与冰蓄冷空调系统联合运行的优越性及应用
14.Design of GSHP Combined with Ice-storage Air Conditioning System for China Aviation Radar and Electronic Equipment Institute in Suzhou一航雷电院苏州基地地源热泵结合冰蓄冷空调系统设计
15.Experimental Research on Combined Air-conditioning System Based on Radiant Heating and Cooling with Evaporative Cooling基于蒸发冷却辐射供冷/热空调系统实验研究
16.Experimental Study on Charging Performance of Cool Storage Air-conditioning System with Separate-type Heat Pipe分离式热管蓄冷空调系统充冷性能实验研究
17.Study of the Hybrid VRF Air-condioning System with Soil Source and Cooling Tower土壤源—冷却塔复合式VRF空调系统研究
18.Cold and hot potable water, HVAC chilled and hot water. Evaporative cooling systems.冷和热饮用水,暖通空调冷却水和热水。蒸汽冷却系统。
相关短句/例句
air conditioning heat/cold source空调冷热源
prehensive analysis and comparison ofair conditioning heat/cold sources of electricity heat and chilled water congenerating system;热电冷三联供空调冷热源综合分析比较
2.In accordance with 5 schemes ofair conditioning heat/cold sources,the most optimised option is obtained by gray matter element analysis from their initial investments,annual operating costs,safety,environment effects,technology and operating management.针对5种空调冷热源方案,从初投资、年经营费、安全性、环境影响、技术先进性和操作管理等6个方面着手,用灰色物元分析法评选出最优空调冷热源方案。
3.Establishes a grey matter element analysis model and makes a quantitative assessment of three typical options ofair conditioning heat/cold sources based on their initial investments, annual operating costs, safety, environment effects, technology and operating management, and obtains an optimised option, which agrees with that in practice.建立了灰色物元分析模型 ,按初投资、年经营费、安全性、环境影响、技术先进性、操作管理等六大指标 ,定量分析了离心式冷水机 +燃油热水炉、直燃式溴化锂吸收式冷热水机、风冷热泵型冷热水机等 3种典型的空调冷热源方案 ,得出了与工程实际相符的优化方
3)air conditioning cold/heat source空调冷热源
1.Selection of optimal scheme aboutair conditioning cold/heat source;空调冷热源方案优选方法研究
2.Thus,a new method for designers of HVAC to compare was offered and differentair conditioning cold/heat sources were evaluated.利用价值工程的有关原理建立了空调冷热源方案评价模型,并结合工程实例进行了实际计算。
4)Air-source heat pump air conditioning system空气源热泵空调系统
5)air-conditioning cool-source or air-system空调冷源与水系统
6)heated air intake system冷热空气调温进气系统
延伸阅读
通风空调系统的噪声控制为消除和降低通风设备和空气调节设备的噪声所采取的综合措施。通风空调系统中的噪声主要是空气动力噪声和机械撞击、振动产生的空气声和固体声。一般对前者采用消声的方法,对后两者采用隔声、隔振的方法(见空气声隔声、固体声隔声)。通风空调系统的噪声其中包括通风机噪声和管道的气流再生噪声即气流激发管壁或构件产生振动而再次产生的噪声。通风机噪声通风机噪声的强度和通风机噪声的频谱特性同通风机的结构形式、系列、型号、转数、风量和风压等有关。其频谱特性一般为中、低频噪声,频谱的峰值fp是叶片搅动空气的频率,由通风机主轴转数n和叶片数n决定,即fp=nZ/60。通风机噪声的声功率级LW可由风量Q和风压H来计算,即:式中LW0通风机的比声功率级,即通过对不同系列通风机噪声的实测和计算而得出的单位风量和单位风压下噪声的声功率级。气流再生噪声通风管道内的气流再生噪声的强度随风速的提高而增加,其声功率级与管道风速的5~6次方成正比,即风速提高一倍,噪声增加15~18分贝。通风管道内一般风速的再生噪声为低频噪声,随风速的提高,高频成分逐步增加。管道的噪声自然衰减管道部件在产生气流再生噪声的同时,对所传播的噪声也有一定的衰减作用。通风设备的噪声在沿管道的传播过程中,磨擦损耗、管道断面急剧扩大或缩小和声能反射等,会使部分声能得到衰减,这种现象称为通风空调系统的噪声自然衰减。噪声自然衰减是噪声控制设计中可以利用的因素,适当提高管道的噪声自然衰减的作用,例如在管道内加吸声内衬,管道内贴保温材料,作吸声弯头等都可提高管道的消声能力。但在增加噪声自然衰减作用的同时,管道内气流的阻力和气流再生噪声也将增大,因此要综合考虑其利弊,只有在设备噪声较高而气流速度较低的情况下,增加噪声自然衰减作用才是有利的。通风空调系统的消声除针对通风机和通风管道采取相应措施外,并应设计安装通风空调消声器等。通风机选用在通风空调系统设计中,要选择低噪声或低转速的风机;风量和风压的安全系数不宜过大,应使风机在接近最高效率点的情况下运行,以保证系统运转时的噪声为最低值。机房的位置应尽量远离要求安静的房间。安静条件差别悬殊的房间不要共用一个通风空调系统,以避免相互串声。通风管道设计降低管道内气流再生噪声的主要措施是减小管道对气流的阻力和限制管道内的风速。管道设计应尽可能使气流的流动均匀,避免急转弯,采用圆角弯头代替直角弯头。管道内的风速要严格控制,主管道内的风速一般不大于10米/秒,噪声控制要求严格的系统中主管道内的风速可控制在5米/秒左右,而且从主风道到使用房间,风速要逐步降低。在设计管道时,还要充分利用噪声自然衰减的作用。消声器设计和安装通风空调系统的消声器必须能使系统中气流通过时产生的噪声得到较大程度的衰减。消声器应有良好的消声性能,它的消声量和频谱特性应与通风系统噪声相适应;应有良好的空气动力性能,对气流的阻力一般不超过通风机全压的8%,自身产生的气流再生噪声应低于房间容许噪声级3~5分贝;要求结构简单,体积小,加工方便,并应有与管道相应的强度。消声器可分为阻性消声器、抗性消声器、阻抗复合消声器等。通风空调系统常用的消声器是阻性消声器,它是将吸声材料或吸声结构按一定方式排列,固定在气流通道上吸收声能,从而达到消声的目的。其消声ΔL可用以下公式计算:ΔL=φ(ɑ)PL/S式中P为吸声材料的周长;L为消声器的长度:S为消声器的通道截面积; φ(ɑ)为消声系数(ɑ为材料的吸声系数,φ是ɑ的函数)。阻性消声器的形式见图1。对于低频消声有特殊要求的空调系统,可以在阻性消声器内加设扩张室或共振腔,组成阻抗复合或阻共复合式消声器,以增加低频消声量。消声器的安装位置根据具体情况确定:可直接安装在通风机的进、出口,以降低通风机噪声;可安装在通风管道上,以降低通风机和管道上游的气流再生噪声;也可在机房或空调房间的进、出风口安装风口消声器,以消除系统的噪声对环境或空调房间的干扰。机房隔声、隔振和消声措施,如图2所示。参考书目日本空调设备噪声研究会编,常玉燕译:《空调设备消声设计》,中国建筑工业出版社,北京,1981。方丹群编:《空气动力性噪声与消声器》,科学出版社,北京,1978。
