1)Humidification[英][hju:,midifi'kei??n][美][hju,m?d?f?'ke??n]增湿
1.Study on Humidification Treatment in Particleboard Mat Surface;刨花板板坯表面增湿处理──缩短热压周期的有效途径
2.Research on self-humidification of PEMFC;质子交换膜燃料电池的自增湿研究
3.Study on Temperature Decreasing and Humidification of Ornamental Plants in Shanghai;上海地区常见园林植物蒸腾降温增湿能力的研究
英文短句/例句
1.humidify the air [a room]使空气 [屋子] 增湿
2.capillary type air humidifier毛细管式空气增湿器
3.Experimental Study on the Moistening Deformation and Moistening Strength of the Unsaturated Expansive Soil;非饱和膨胀土增湿变形和增湿强度的试验研究
4.Moistening Deformation Properties of Compacted Loess and Calculation of Subsoil Moistening Derormation;压实黄土增湿变形性质与地基增湿变形计算
5.The Research of Moistening Modulus and Deformation of Loess Subsoil;黄土增湿模量与黄土地基增湿变形研究
6.Study of Moistening and Wetting-drying Experiment of Coarse-grained Weak Rock;软岩粗粒土的增湿及干湿循环试验研究
7.Experimental Study on Temperature and Humidity Field during the Process of Flue Gas Humidification in CFB-FGD;CFB-FGD工艺烟气增湿过程温湿度场的试验研究
8.Studies on Seawater Solar Desalination of Humidification-Dehumidification鼓泡增湿—去湿太阳能海水淡化技术的研究
9.Changes on Mechanical Parameters of Collapsible Loess in Humidifying Terms浅谈湿陷性黄土在增湿条件下的力学参数变化
10.Studies on the Reinforced and Self-humidifying Membranes for PEMFCs Applications;燃料电池用增强及自增湿质子交换膜的研究
11.It is not easy to humidity a gas completely.要完全增湿气体是不容易的。
12.Cathode Humidification and Water Management of Proton Exchange Membrane Fuel Cell;PEM燃料电池的阴极增湿与水管理研究
13.Study on the Fluid Flow Plate with Humidify Channel for PEMFC;PEMFC带增湿槽道集流板的研究
14.Study on Membrane Humidification for PEM Fuel Cell Vehicles;车用质子交换膜燃料电池膜增湿研究
15.Research on Equivalent Stress Properties of Water-Sensitive Loess during Moistening;水敏性黄土增湿的应力等效特性研究
16.Effect of Plant Community on Temperature Lowering and Humidity Increasing in Residential Areas of Shanghai上海居住区植物群落的降温增湿效应
17.Normal saline is commonly used in artificial airway humidifying.湿热交换器没有额外的水和热气,所以功效不如加热型增湿器。
18.The Non-Linear Constitutive Model of Collapse Loess with Structural Damage under Loading and Moistening and Its Application;湿陷性黄土的增湿结构性非线性本构模型研究及应用
相关短句/例句
moistening[英]['m?isn][美]['m??sn?]增湿
1.Analysis of shear strength characteristics of loess during moistening process;增湿时黄土的抗剪强度特性分析
2.The main reason that makes tunnel surrounding loess unstable is excavation -disturbance and moistening in loess.力、水耦合作用使黄土结构性降低,开挖扰动和增湿是黄土隧道围岩失稳的主要原因。
3.In order to investigate the relationship among stress,strain and strength of soil under unsaturated moistening,water content is introduced into the hardening parameter of Tsinghua model to develop the Tsinghua elastoplastic model of unsaturated soil.为研究土在非饱和增湿情况下的应力、应变和强度关系,提出将含水率引入清华模型的硬化参数中建立非饱和土的清华弹塑性模型。
3)humidifying[英][hju:'midifai][美][hju'm?d?fa?]增湿
1.Review of submicron particles humidifying agglomeration超细颗粒物增湿团聚技术研究进展
2.Results show that agglomeration phenomenon obviously exists in the system,and in the upper part of humidifying section,ultrafine particles conglomerate.在循环流化床烟气脱硫(CFB-FGD)试验台上进行了颗粒增湿团聚的试验研究。
4)increasing humidity增湿
1.Analysis of decreasing temperature and increasing humidity effect in different landscape models at scenic belt along the Grand Canal in Yangzhou;扬州古运河风光带不同绿地类型的降温增湿效应分析
2.The effect of decreasing temperature and increasing humidity of Syzygium cumini+ Cinnamomum burmannii belt at the Baiyun Mountain National Scenic Area,Guangzhou was observed in summer holiday,the results were: the average daytime light intensity of the plot that was 2 meters long from the S.在暑期高温时对广州白云山国家级风景名胜区海南蒲桃(Syzygium cum ini)+阴香(C innamomumburmannii)林带的降温增湿效应进行了观测,结果表明:距离林带2 m处与距离林带16 m处相比,昼间平均光照强度低21 247 lx,昼间平均气温低1。
5)wetting[英][wet][美][w?t]增湿
1.On this basis, the method of distortion correction by means of wetting to form local softening is suggested.分析了黄土特性及含水量对土的力学影响 ,并结合工程实例 ,说明通过注水增湿软化地基 ,利用基础与地基的共同作用原理可以消除地表曲率变形 。
2.The influential regularity of wetting and inherent anisotropic on the loess dynamic shear modulus is obtained.利用共振柱对黄土动剪模量进行了试验研究,得到了增湿及土的固有各向异性对黄土动剪模量的影响规律。
6)humidify[英][hju:'midifai][美][hju'm?d?fa?]增湿
1.The effects of humidifying level on membrane cond uctivity and mass transfer were investigated.为了研究常规流场下阴、阳极增湿程度对电池内部水分布、传递、膜性能及水拖曳系数等的影响,对PEMFC进行二维建模,应用控制容积法对控制方程进行离散,然后求解,得到了电池内部水和反应气浓度、速度分布、膜中电流密度、电势分布及膜中水分布,考察了气体不同增湿程度对质子交换膜电导率及电池内部传质的影响。
延伸阅读
增湿 增加气体(一般是空气)的湿度,是一种属于热质传递过程的单元操作。增湿与减湿配合使用于空气调节,为生产、生活、科学实验建立所要求的环境。在化工生产中,高温气体的急冷,热水的冷却,都采用气液直接接触进行热湿交换,原理与增湿相同,也是传热和传质同时进行的过程。常用的增湿方法有:①向气体直接加入饱和蒸汽或过热蒸汽。此法简单易行,空气温度基本不变或略有升高。②向气体喷水,水的汽化使气体增湿。此法有两种操作方式:一是将气体适当加热,然后与温度恒定的循环水接触,这称为绝热增湿(或恒液温增湿)。在这种增湿过程中气体温度降低,极限温度为绝热饱和温度。另一是将水适当加热,然后与气体接触,接触过程中气体湿度增高而水温降低,这称为水冷却增湿。③保持气体中含有的水汽量不变,降低气体温度,使相对湿度增大,此称为降温增湿。 在化工厂中,为了节约用水及控制水质,冷却水需集中管理并循环使用。为此,须将使用后温度升高的热水冷却。对此采用任何间壁式换热都是不经济的。工业上所用的方法是使热水与湿球温度低于水温的空气直接接触,利用热水本身的热量而部分汽化,从而达到热水冷却的目的。所用的设备为凉水塔。在凉水塔内,热水出口温度可低于空气入口温度,其极限是入口空气的湿球温度。
