Laboratory gases shall be piped into the laboratory work area from a gas yard outside of the laboratory 实验室气体由实验室外气瓶区域用管路引进。
2.
A wind vent is in the opposite of this door with a blast furnace . in the ground there are ten more ditches for the air while burning the oyster shell . the mottled wall tells its history 风口外为鼓风设备,窑底则有红砖铺设而形成之平行于中轴线的窑沟十数条,系烧制蚵时供应助燃外气的管道。
3.
This system uses a jet - flow unit nozzle to trigger hot water dynamics , converting the heat into pressure differentiation that draws external air into the tower for heat exchange to attain cooling ( 2 )以一喷流单元之喷嘴引发热水动能、转换成压力差,引外气进入塔内作热交换,达到冷却的目的。
4.
From measunnent of quantity grade in emr under the breaking through the barrier of the container and psi phenomena proved the reality and materiality of psi phenomena and external qi of qigong 从“突破空间障碍”及其他特异现象和伴生的电磁场辐射量级的测得,证明了特异功能现象和气功外气的真实性与物质性。
5.
Since its introduction in bahrain , the protruding outer lip ( in red ) on ferrari ' s wheel rims has been the subject of much discussion , with rivals questioning whether it constitutes an illegal moveable aerodynamic device - the movement being the wheel ' s rotation 自从在巴林站出现后,法拉利轮圈上的外气阀(红色部份)就成为最多人讨论的东西,对手们怀疑其中包含有违规,可以随轮胎转动而移动的空力套件。
6.
Otherwise , if we are not heavy in karma or possessed by outside entities or energies , we will feel very comfortable , as if nothing has happened . it is absolutely tranquil , and can hardly be detected . anyway , we will notice it when we see the light or hear the sound 不然的话,如果我们本人没有很多障碍,没有外灵没有外气的话,我们就感觉到很舒服而已,感觉到好像没什么,就是很静,差一点认不出来,不过我们也会认得出来,像看到光听到声音。
7.
Through the analysis and studying of this subject , we can make conclusion as followed : during the whole heating season , the change law of the energy consumption of the thermal bridge is with the change law of the meteorological condition inside and outside the room : when airs temperatures indoor is steady , thermal bridge energy consumption increases with reducing of air temperature outside the room , reduce oppositely . the different position and the different structure patterns of the thermal bridges , even under the same meteorological condition inside and outside of the room , energy consumption of the building is different , and impact on heating energy consumption is different , this is mainly caused by the difference of the constructs thermal bridge and different influence in term of out wall , which lead to total mean heat - transfer coefficient different , when the heat - transfer coefficient is relatively small of outer wall , the impact of wall body is more obvious on heat - transfer coefficient of the thermal bridge 然后确立了在节能建筑中热桥耗热量与室内外气象参数和热桥构造型式的关系,分析与研究并得出:在整个采暖季节中,热桥的能耗随着室内外气象条件的变化规律是:在室内空气温度一定时,热桥能耗随着室外空气温度的降低而增大,相反减小;不同部位的热桥,其构造型式不同,即使在相同的室内外气象条件下,产生的能耗也是不同的,并且对采暖能耗的影响也不同,这主要是由于不同构造的热桥对外墙的总平均传热系数的影响不同所造成的,并且当外墙主体的传热系数较小时,热桥对墙体的传热系数的影响更加明显。
8.
The experimental results indicate that when the air flow rate is determined , the key problem for energy saving is how to keep the indoor thermal comfort at a suitable level and reduce the difference between the internal and external temperature of the room . a formula is gained for calculating the critical values of air exchange rate . when ventilating rate is greater than the value , radiating heating is the better way for energy saving , or else , convection method in heating is more suitable 实测还指出,当通风量一定时,如何保证人体热舒适度不变而减少室内外气温差将成为大通风量房间节约采暖能耗的关键,本文结合围护结构传热机理,在对三种方式的能耗状况进行理论分析的基础上,提出了换气次数的节能临界值,若换气次数高于此值,则辐射供暖是较好的选择,否则,散热器供暖是较好的方法。