英语人>词典>汉英 : 沸腾 的英文翻译,例句
沸腾 的英文翻译、例句

沸腾

基本解释 (translations)
boil  ·  boiling  ·  bubble  ·  ebullience  ·  ebulliency  ·  ebullition  ·  effervescence  ·  seethe  ·  effervescency  ·  boils  ·  bubbled  ·  bubbles  ·  seethed  ·  seethes

词组短语
bubble up · seethe with excitement
更多网络例句与沸腾相关的网络例句 [注:此内容来源于网络,仅供参考]

By using asymptote model, the boiling heat transfer coefficient correlation is established.

对已有的管内流动沸腾的计算关联式进行分析,将沸腾段的流体沸腾换热分为对流换热和核态沸腾换热,对这两部分的沸腾关联建立了渐进模型,在该模型下给出了含空气的煤油在水平管内的沸腾换热系数计算关联式。

A method and apparatus for water degasification and distillation in an apparatus having a container (10) for a reservoir of water to be degassed and distilled, a boiler (12) adjoining the container and having a feed water conduit (22) connecting the container and boiler, a coiled tube condenser (27) within the container immersed in the water therein, the condenser coil having a vertically disposed longitudinal axis, a second conduit (24) in the boiler connecting the space above the water level therein to the inlet of the condenser so that steam flows from the boiler to the condenser, an outlet (29) on the condenser extending through a container wall for discharging the condensed steam as degassed distilled water, a heater (13) in the boiler for heating the water therein, a motor driven stirrer (101) axially of the coiled tube condenser and an ozone generating device (120) in the boiler for purifying the steam.

一种用于水脱气和蒸馏的方法和设备,该设备包括一容器(10),该容器有一用于盛放待被脱气和蒸馏的水的贮池;还包括一与所述容器相连接的、其供水管(22)连接容器和沸腾器的沸腾器(12);一在所述容器内、浸在其内的水中的线圈式管状冷凝器(27),该冷凝器线圈有一竖直放置的纵向轴线;一在沸腾器内连接其内的水面上的空间与冷凝器的入口以使蒸气从沸腾器流至冷凝器的第二管道(24);一在冷凝器上延伸穿过容器壁将经脱气和蒸馏的水作为已冷凝的蒸气排出的出口(29);一在沸腾器内用于加热其内的水的加热器(13);一与线圈式管状冷凝器同轴的马达驱动搅拌器(101)以及一在沸腾器内纯化蒸气的臭氧发生器(120)。

A different orientation would mean a change of earth gravity acting on flow boiling heat transfer. Based on analysis of the influence of buoyancy on flow boiling heat transfer at different orientation angle, the vertical upflow and downflow are used as ways of the arrangement of heating surface for the modeling test on earth's surface of the ...

在浮力对不同方向角下流动沸腾换热影响分析的基础上,提出了采用立式上升流和下降流来作为地面模拟微重力下流动沸腾试验的加热面布置形式,通过对这两种工况的比较研究可以典型地说明重力场对流动沸腾换热的影响。

In the first part of present study, the characteristics of saturated pool boiling heat transfer for dielectric fluid FC-72 on a plain surface are investigated experimentally. Specially, the data for the boiling incipience temperature, CHF value, saturated boiling heat transfer coefficient affected by the numbers of the test run and orientation are to be examined in detail.

实验的第一部份探讨平滑加热面於饱和FC-72的沸腾实验,其目的是作为增强表面沸腾特性比较时的基准,并与参考文献中平滑表面沸腾关系式作比较,以验证本实验的准确性。

Moreover, the test results are compared with the empirical correlations of reference literatures to verify the accuracy of present pool boiling experiment. The test results indicate the higher boiling incipience and lower CHF value for a new plain surface at first test run and slightly improvement at last two test runs.

结果显示平滑加热面有极高的沸腾起始过热度及明显的沸腾迟滞现象,而比较沸腾次数的实验发现,由於表面成核孔穴被活化的结果,后续实验的起始过热度明显降低许多,沸腾曲线亦向左偏移,且临界热通量也有些微增加。

Comparing with water, the optimal heat transfer enhancement is achieved near the critical micelle concentrations of surfactants. The degree of heat transfer enhancement is different with different surfactants and is influenced by solubility characteristic, ionic nature and chemical structure of surfactants. Boiling in surfactant solutions, when compared with that in water, is observed to be more vigorous with smaller-sized, more regularly shaped and faster departure frequency bubbles, but the surfactant solutions of Triton X-100 and Triton X-114 become cloudy for the cloud point of surfactants.

和水相比,表面活性剂强化池内核态沸腾换热的最佳浓度为临界胶束浓度;不同种类表面活性剂强化换热程度不同,它们与表面活性剂的溶解特性、离子类型和化学结构有关;溶液沸腾时,沸腾汽泡的脱离直径变小,脱离频率变快和更不易聚集,但非离子表面活性Triton X-100和Triton X-114由于存在浊点其沸腾溶液变浑浊。

Finally, boiling phenomena (such as nucleate boiling, noisy film boiling and silent film boiling) appeared.

最后,沸腾(如,核态沸腾,噪声沸腾和无噪声沸腾等)现象发生。

The bubble influence area factor and the flow strength parameter are two important parameters in the nucleate boiling model.

沸腾壁为研究对象,以气泡或核心为边界,建立了核态池沸腾沸腾换热的数学模型。

The subcooled boiling states were visualized by Shadowgraph visualization technique and the pressure oscillation was measured by the pressure sensor.

在过冷态超流氦沸腾中,运用可视化方法对不同过冷度下的沸腾过程进行了观测,同时运用压力传感器详细研究了沸腾过程中的压力振荡。

Using the opened thermosiphon of 38x3 as experimental element and water as working fluid,the characteristics of dynamic low load boiling,stable severe boiling heat transfer coefficient and critical heat flux are gotten for the opened thermosiphon at the pressure of 0.02-0.1MPa and 0.1-0.8MPa respectively,which makes up the drawback that the opened thermisiphon has not yet accurate boiling heat transfer relationship formulas.

本文以工程上常用的Φ38×3的开口封底为实验元件,以水为工质,对开启式热管内的动态低负荷沸腾、稳态旺盛沸腾及临界沸腾特性进行系统的可视化实验研究,实验压力为0.02~0.8MPa,实验得出了Φ38×3的开口封底管在工作压力为0.02~0.8MPa和0.1~0.8MPa下的管内沸腾传热系数及临界热负荷计算关联式,弥补了开口封底管——这一新型传热元件尚无准确的沸腾换热关联式的缺陷。

更多网络解释与沸腾相关的网络解释 [注:此内容来源于网络,仅供参考]

boiling stone:沸腾石

boiling range 沸腾范围 | boiling stone 沸腾石 | boiling surface 沸腾

ebulliency:沸腾

ebullience 沸腾 | ebulliency 沸腾 | ebullient 沸腾

ebulliency:沸腾/迸发/热狂

ebullience /沸腾/热情/热情洋溢/ | ebulliency /沸腾/迸发/热狂/ | ebullient /沸腾的/热情的/热情洋溢的/

effervescent steel:沸腾钢

effervescent deep drawing steel 深冲用沸腾钢 | effervescent steel 沸腾钢 | effervescing steel 沸腾

nucleate boiling:核沸腾

註一:沸腾热传递现象又可分为成核沸腾(Nucleate Boiling),膜沸腾(Film Boiling)及不稳膜沸腾(Unstable Film Boiling)等三种. 它们的区别依传热量及容器和液体之间的温差而定. 成核沸腾时容器表面和液体接触,大量的汽泡自容器表面的气隙中產生,

nucleate boiling:核态沸腾

膜态沸腾 film boiling | 核态沸腾 nucleate boiling | 对流沸腾 convective boiling

boiling, nucleate:核沸腾

"强制循环沸腾","boiling, forced-circulation" | "核沸腾","boiling, nucleate" | "过渡沸腾","boiling, transient"

aboil:沸腾的, 激烈的 沸腾着

aboiement | 吠声 | aboil | 沸腾的, 激烈的 沸腾着 | aboiteau | 低地防潮之堤坝, 水闸

aboil:沸腾的/沸腾着

abohm /绝对单位欧姆/ | aboil /沸腾的/沸腾着/ | abolish /废止/废除/撤废/取消/废/

effervescency:冒泡/沸腾/愉快

effervescence 冒泡/沸腾/活泼 | effervescency 冒泡/沸腾/愉快 | effervescent 冒泡的/兴奋的/沸腾