The results showed that running stability is well, trapping effect is obvious.
结果表明:运行状况良好,捕集效果明显。
Carbon dioxide is the second most important greenhouse gas, trapping heat in our atmosphere and increasing global temperatures via the greenhouse effect.
二氧化碳是第二大重要的温室气体,它阻止我们的大气散热,并通过温室效应增加全球温度。
Only an increased greenhouse effect caused by higher amounts of heat-trapping gases in the atmosphere can explain it.
唯一合理的解释是,越来越多吸收热量的气体逐渐积累带来愈加严重的温室效应。
Carbon dioxide is the second most important greenhouse gas (after water vapour), trapping heat in our atmosphere and increasing global temperatures via the greenhouse effect.
排在水蒸气之后,二氧化碳是第二大重要的温室气体,它阻止我们的大气散热,并通过温室效应增加全球温度。
The heart-trapping capacity of the atmosphere is popularly known as the “greenhouse effect”.
大气储存热量的能力被普遍看作是“温室效应”。
This increases the green-house effect, trapping more heat close to the surface of the Earth and causing the planetary temperature rise that we are seeing.
这增加了绿房子的效果,捕捉更多的热量接近地球表面,导致行星的温度上升,我们看到的。
It was found that the effect of radiation trapping increases remarkably with the concentration and thickness of Yb 3 + -doped phosphate glasses.
结果表明荧光俘获效应随样品厚度和掺杂浓度的增加而增大。
The process of ion generation and trapping, trapped ion′s influence on the beam, the DC clearing electrodes mechanism and clearing effect were investigated in HLS ring.
研究了合肥光源(HLS)电子储存环中离子产生、俘获的过程,离子对束流的影响,直流离子清洗的作用及清洗效果。
Considering the appearance of solute trapping in non-equilibrium rapid solidification, its effect of solute trapping on the growth process was discussed basing on the existent eutectic models.
以过冷凝固条件下已有的共晶生长理论模型为基础,考虑了快速非平衡凝固条件下会出现溶质截留现象,探讨溶质截留对生长过程的影响。
Carbon dioxide stays in the atmosphere for up to a century after it is emitted, and has the effect of trapping heat on earth, causing climate change.
二氧化碳被排放后,在大气层中的留存时间高达一个世纪,它能阻止热量从地球散发出去,从而导致气候变化。
Fiber provides a plethora of benefits from increasing the thermic effect (calories burned from digestion) of a meal, to trapping and evacuating excess fats.
纤维提供了大量的好处,能够促进饮食中卡路里的消耗,抑制消除多余的脂肪。
Therefore, they can be demonstrated only by mass effect on adjacent tissues or distal air trapping.
因此,我们只能通过对邻近组织的推移或远端的空气潴留来推测异物。
Therefore, they can be demonstrated only by mass effect on adjacent tissues or distal air trapping.
因此,我们只能通过对邻近组织的推移或远端的空气潴留来推测异物。
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