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- RESEARCH ON TOXIC GAS DIFFUSION AFTER LIQUID PROPELLANT ROCKET EXPLOSION 液体火箭爆炸后有毒气体扩散研究
- toxic gas diffusion 毒气扩散
- Contact with acids liberates very toxic gas. 与酸接触释放出极高毒性气体;
- The toxic gas is extremely dangerous. 有毒的汽体是非常地危险的。
- Contact with acids liberates toxic gas. 与酸接触释放出有毒气体;
- Contact with water liberates toxic gas. 与水接触释放出有毒气体;
- A very toxic gas escaped and sported flora and fauna. 非常有毒的气体泄漏并影响到了动植物。
- Do not release the toxic gas or the dioxin while burning. 燃烧时不释放毒性气体或二恶英。
- Phosphine is a toxic gas which ignites spontaneously in air. 磷化氢是一种有毒气体,在空气中可以自燃。
- May cause severe burns. Contact with acids liberates toxic gas. 可导致严重灼伤。与酸接触会释放有毒气体。
- The toxic gases _endanger your health. 有毒气体危害人们健康。
- A dynamic model of gas diffusion without wind is established according to the Grads Theory. 在限定容器中气体介质是中性气体的情况下,由于中性气体在扩散过程中各向同性,扩散方程获得了简化。
- The PTFE is effective as a binder and imparts hydrophobicity to the gas diffusion regime of the electrode. 聚四氟乙烯是有效的粘合剂和柔软剂疏水的气体扩散制度的电极。
- There it is transformed into uranium hexafluoride, which in turn is sent to gas diffusion plant to be enriched. 在那里它被转化为铀的六氟化物,再被送进气体扩散工厂作富集处理。
- People in Nazi concentration camps were slaughtered using toxic gas. 纳粹集中营里的人们惨遭毒气杀害。
- It was found that the shape of absorption signal was controlled by the property of the analyte, the sample vaporization rate and the gas diffusion rate. 结果表明,吸收信号形状由被测元素的性质、样品气化速率和原子蒸气扩散速率决定。
- The modern city consists of monstrous edifices and of dark narrow streets full of petrol fumes, coal dust, and toxic gases. 现代城市是由大得怕人的大厦和充斥着难闻的汽油味,煤灰和有毒气体和又阴暗又狭窄的街道所组成。
- Acid red B (ARB) solution was electrolyzed in a single-chamber cell and a two-chamber cell using Pt/C gas diffusion electrode (GDE) as cathode. 采用Pt/C气体扩散电极(GDE)为阴极;对酸性红B溶液进行单室电解和双室电解.
- The gas diffusion layer of air electrode was prepared by the rolling method with acetylene black and 60% PTFE emulsion as raw materials. 以乙炔黑、60%25PTFE乳液为原料,用辊压法制备空气电极的气体扩散层。
- Until now, there have been many attempts to increase fuel cell performance by developing or modifying the gas diffusion layer (GDL). 直到现在,已有许多研究证实,改良气体扩散层的碳微孔层性质可以促进燃料电池的性能提升。
