英语人>词典>汉英 : 蒸发 的英文翻译,例句
蒸发 的英文翻译、例句

蒸发

基本解释 (translations)
evaporate  ·  evaporation  ·  exhalation  ·  steam  ·  steamed  ·  transpiration  ·  transpire  ·  vapor  ·  vaporization  ·  vaporize  ·  vapour  ·  vapored  ·  vaporise  ·  evaporates  ·  steams  ·  transpired  ·  transpires  ·  transpiring  ·  vaporized  ·  vaporizes  ·  vaporizing  ·  vapors  ·  vapoured

词组短语
boil-off
更多网络例句与蒸发相关的网络例句 [注:此内容来源于网络,仅供参考]

The influence of those main design parameterssuch as evaporation saturation temperature t_s、heat dissipated power Q and charge ofworking fluid L on the temperature distribution of evaporation"s bottom and boiling heat transfer inside the evaporation has been calculated and analyzed concretely. The method that uses channels to enhance boiling heat transfer of evaporation"s bottom has also been analyzed and calculated preliminarily.

具体计算和分析了蒸发饱和温度t_s、散热功率Q和充液量L等主要设计参数对蒸发段底面温度分布和蒸发段内部沸腾传热特性的影响,对用槽道强化蒸发段底面沸腾换热也做了初步的数值计算和分析。

In order to make ET estimated conveniently, this research analyzed the correlation between water surface evaporation (E0) and crop evapotranspiration measured by large scale lysimeter, and the variation of evaporation coefficient.

为了更方便地估算作物蒸发蒸腾量,以大型称重式蒸渗仪实测的冬小麦蒸发蒸腾量为依据,分析了水面蒸发量(E0)与实测蒸发蒸腾量的相关性,并研究了蒸发系数的变化规律。

The composi-tion of the seawater has changed rapidly since Phanerozoic, and the prolonged mineralogical changes of marine non-skeletal limestone and potash evaporates occurred in a phase on a 100-200 Ma.

结果表明:显生宙以来海水组分发生变化,经海相非骨骼灰岩和钾盐蒸发岩矿物学研究,发现这两种沉积岩长期以来连续变化,在"文石海"是MgSO4型蒸发盐,在"方解石海"是KCl型蒸发盐,从白垩纪晚期、第三纪早期的底部石盐溴含量及矿物学特征表明,此时处于"方解石海",古海水组分的特点是造成缺硫酸盐型钾盐矿床形成的物化基础;通过NaCl-KCl-MgCl2-H2O和NaCl-KCl-MgCl2-CaCl2-H2O两个体系相图的分析认为,当时所形成的成钾原始体系母液是高镁、低钾氯化物型的卤水,在母液蒸发过程中,由于原始海侵母液与残余高镁母液的掺杂作用,致使结晶路线直接从氯化钠区到E点母液或光卤石与氯化钠共饱线上,而没有通过氯化钠和氯化钾的共饱线,因而在矿体中氯化钾相很少或几乎不存在,由于外界CaCl2型水体的掺杂,使成钾母液进入光卤石相区,随着蒸发的进行,最终形成溢晶石矿物。

The experimental results show that: lithium is scatteredly precipitated as natural lithium carbonate in the whole evaporation process, and the highest content of natural lithium carbonate in solid phase is 2.0%, so it is difficult to get the mixed salt with high-grade lithium carbonate; boron is precipitated as borax in the whole evaporation process, and borax is precipitated in large quantity with the highest content of 15.64% in solid phase until the brine is extremely concentrated (CWR≥97.9%) and intergrows closely with typical cold-phase natron; potassium is precipitated as sylvite and aphthitalite in the whole evaporation process with a content from 9.49% to 34.44%.

结果表明:在低温蒸发状态下,锂以天然碳酸锂形式在整个蒸发过程中分散沉淀,固相最高含量仅达2.0%,因此难以获得较高品位的富锂混盐;硼在全蒸发过程中以硼砂形式自然沉淀。当卤水高度浓缩(蒸失率达97.9%以上)时大量析出并与典型冷相矿物泡碱紧密共生,固相中硼砂含量最高可达15.64%;钾以氯化钾和钾芒硝形式沉淀,在蒸发浓缩的全过程中均有不同程度析出,固相含量在9.49%~34.44%之间波动。

The main characteristics include: the quiet Sun corona has a rapid response to the flare heating, within 2 second the corona temperature increases nearly one order of magnitude, but later such increase becomes very slowly; the downward velocity at early stage of impulsive phase is too small to be negnected; chromospheric evaporation made by conduction shows some intensely, the maximum evaporated velocity may be as large as 1000 km/s; the chromospheric condensation appears just when the chromospheric evaporation takes place and its place always coincide with that of transition region in the early stage; the maximum of chromospheric condensation occurs also in the early stage of impulsive phase, at which the density in condensation may be larger two order of magnitude than that of surround and the downward velocity may be as large as 100 km/s; after the maximum of chromospheric condensation, its strongth decreases gradually but its width becomes greater with time and have a tendency to transport into deep chromosphere; the front of chromospheric condensation heats atmosphere obviously and the temperature in the chromospheric condensation is higher than the original case; the downware velocity of transition region may be greater than 100 km/s at the early stage; when the evaporated material collide at the top of loop, the densityand the presure there increase rapidly, which result in the formation of a shock wave; and so on.

在改善色球辐射损失和精确分辨过渡区的基础上,通过联立求解连续性方程、动量方程和能量方程,构造了一维磁限制性耀斑环在热沉积作用下的大气动力学模型,获得了耀斑热模型下脉冲相早期较为细致的大气演化理论图象,其主要特征是:耀斑对宁静日冕的加热相当迅速,仅2秒钟日冕温度增加即达一个量级,之后日冕温度增加缓慢;脉冲相早期日冕向下速度很小,几乎可以忽略,热传导驱动色球蒸发,其过程较为激烈,蒸发极大速度可达到1000km/s;色球压缩区与色球蒸发几乎同时形成,且在早期其位置总是与过渡区位置重合;色球压缩极大发生在脉冲相早期,其时密度可高于周围约2个量级,向下速度可超过100km/s;色球压缩极大后,其强度逐渐减弱,但宽度明显增大,且渐渐脱离过渡区往色球传播;压缩区内物质温度要高于原先的大气温度;过渡区下降在脉冲相早期相当迅速,可超过100km/s;当蒸发物质在环顶高速相碰时,环顶的密度、压力迅速增大,且温度也有所增加,导致形成激波,其波面以每秒上百公里的速度自环顶向下传播;在脉冲相前期,日冕软x辐射对色球的加热作用可以忽略;等。

The result shows that well developed microbiotic crust results in less invalidation precipitation than sandy soil, but sandy soil conserves 18% precipitation in deeper layer when the soil covered with microbiotic crust had been dry completely.

结果表明,结皮和流沙地表的蒸发速率随时间的变化趋势基本相同,但在不同的蒸发阶段具有各自不同的特点,总的说来,发育良好的苔藓结皮导致相对较少的无效降水,但在更长的时间维持较高的蒸发速率;流沙和初步发育的降尘结皮导致了较多的无效降水,但由于降水的入渗深度相对较深,需要更长的时间完成蒸发过程。

82 Times as high as the flow rate at the inlet; the velocity profile in the lower region is relatively uniform, and changes at the exit from a parabolic shape towards a plug flow as Re increases; The strong circulating flow in the upper region is very favourable to evaporization of heated fluid because it not only forces all the heated fluid to flow through the liquid surface and, therefore, to evaporate effectively, but also causes a large part of fluid to recirculate to the liquid surface and, therefore, to get a second opportunity of evaporization. In addition, the uniform velocity profile in the lower region is also favourable to crystallizing process.

轴向进料蒸发室进口管侧上方有强烈的循环流存在,循环流流量为进口流量的1.48~1.82倍;循环流下部流速分布较均匀,出口区流速在低Re时为抛物线分布,高Re时接近活塞流;强烈循环流的存在不仅迫使加热流体全部流经液面及其附近进行充分蒸发,而且之后还使相当部分流体再次循环回到液面及附近进行二次蒸发,对蒸发操作十分有利;蒸发室下部流速的均匀分布亦有利于蒸发结晶过程。

The evaporation of some oils and their emulsifies was modeled with pan evaporation method, and the characteristics of the evaporation in different states was inspected. The equations of evaporation rate and the factors of inhibitory action of emulsification on evaporation have been obtained. The dynamics mechanism of emulsification has been discussed based on the observation and analysis of the characteristics of oil and water motion. The processes of spilt oils weathering have been integrated by the composition and states of oils in this prediction model.

本文主要是从目前研究的薄弱环节作为研究突破口,用浅盘蒸发法对原油及其乳化物的蒸发进行模拟,考察不同原油在不同阶段和乳化状态下的蒸发特征,得出蒸发速率方程及乳化对蒸发抑制作用因子;观测和分析油水运动规律,分析乳化动力学过程;以组成和状态是决定风化特征的主要因素和联系各风化过程的纽带这一思想为基础建立溢油风化预测模型。

The principal way the body has to dissipate 『散发』heat is through the skin, Murphy explains. In a doubled or rubber sweat suit, the body is unable to evaporate 『蒸发』sweat, and therefore retains heat.

墨菲解释说,身体散发热量的主要途径是通过皮肤完成,穿着两层衣服或橡胶运动衣的身体无法把产生的汗液蒸发掉,同时,也无法把热量散发掉。

The conversion of available energy in different evaporative cooling processes is analyzed and evaluated in Chapter 3. As results, exergy of moist air is suggested to be evaporative cooling potential and regenerative evaporative cooling will be most potential in effectively utilizing the available energy.

第三章对蒸发冷却过程能量及有用能转换关系进行了研究,阐明了湿空气〓作为蒸发冷却潜力的合理性,对蒸发冷却方案的〓分析评价指出了各种蒸发冷却方式的适用性与合理的使用原则以及提高蒸发冷却过程有用能利用率的发展方向。

更多网络解释与蒸发相关的网络解释 [注:此内容来源于网络,仅供参考]

atmometer:蒸发仪;蒸发表

atmidometer,蒸发仪,蒸发表 | atmometer,蒸发仪;蒸发表 | atmoradiograph,天电强度计

evaporative condenser:蒸发式冷凝器

二、蒸发式冷凝器(evaporative condenser) 蒸发式冷凝器主要是利用水蒸发时吸收热量而使管内的制冷剂蒸汽冷凝,"集水冷式冷凝器-冷却塔-水池于一身的换热器,它结构紧凑,占地小,重量轻,安装方便, 具有节水、节能、占地面积小等优点.

evaporative condenser:蒸发凝结器

evaporative capacity 蒸发能力 | evaporative condenser 蒸发凝结器 | evaporative cooling 蒸发冷却

evaporative condenser:蒸发冷凝器

evaporation basin 蒸发池 | evaporative condenser 蒸发冷凝器 | evaporative cooling 蒸发冷却

evaporativity:蒸发能力;蒸发率

evaporation pressure 蒸发压力 | evaporativity 蒸发能力;蒸发率 | evaporator 蒸发器;汽化器

evaporimeter:蒸发仪;蒸发表

evaporativity,蒸发率 | evaporimeter,蒸发仪;蒸发表 | evaporograph,蒸发

insensible perspiration:不感蒸发

人体的蒸发散热有两种形式:不感蒸发(insensible perspiration)和发汗(sweating). 前者是指人体没有汗液分泌时,皮肤和呼吸道不断有水分渗出,在未形成明显的水滴之前即被蒸发掉. 其中,皮肤的水分蒸发又称不显汗,与汗腺的活动无关.

evaporates:蒸发盐;蒸发岩

evaporated product 挥发的油品 | evaporates 蒸发盐;蒸发岩 | evaporating dish 蒸发

evaporation tank:蒸发池,大型蒸发皿

evaporation synthesis ==> 蒸发合成 | evaporation tank ==> 蒸发池,大型蒸发皿 | evaporation technology ==> 蒸发工艺

evaporite:蒸发盐;蒸发岩

evaporite sequence 蒸发岩序列 | evaporite 蒸发盐;蒸发岩 | evaporitic environment 蒸发环境