| 1. | The isolation of other cell components is generally associated with the bursting of vacuoles .
其他细胞组分的分离通常伴随着液泡的胀破。 |
| 2. | New fuel - cell components will revolutionize the auto industry
新的燃料电池零组件将为汽车业带来大变革。 |
| 3. | Effect of long term voyage on blood cell component and rheology of sailors in naval ship and nuclear - powered submarine
水面舰艇和核潜艇对艇员血液细胞成分和某些流变学指标的影响 |
| 4. | Effect of complex - probiotic - preparation on blood cell components and rheology parameters of sailors in nuclear - powered submarine during long term voyage
复合益生菌制剂对长航核潜艇员血细胞成分及流变学的影响 |
| 5. | Cell degrading enzymes ( cdes ) produced by phytopathogenic bacteria reduce plant cell components to compounds useful for pathogen nutrition
植物病原细菌产生的细胞降解酶降解植物细胞成分使之成为细菌可利用的营养物质。 |
| 6. | The prime requirements for anode materials are good electrical properties , a poly - hole microstructure and compatibility with other fuel cell components
Sofc对其阳极材料的基本要求是:高的电子电导率、多孔结构及与其它组分相匹配的热膨胀系数。 |
| 7. | This latter sequence must be finely controlled because it can yield destructive by - products such as hydrogen peroxide , which degrades fuel - cell components
这个反应可能生成过氧化氢之类的有害副产物,进而损伤燃料电池元件,因此必须巧妙地予以控制。 |
| 8. | In chapter 5 , the principle of molten carbonate fuel cell power system is introduced . the development of the system , such as the improvement of cell components including electrodes and electrolyte , the fuel processing , the heat recovery , the power conditioning and grid interconnection , the control system and the combine generation
第五章在简要叙述了熔融碳酸盐燃料电池发电系统原理后,从以下几个方面对系统的开发进行了论证:单体元件(电极和电解质)性能的提高,燃料的处理,余热利用,电力调节和并网,燃料电池/燃气轮机/汽轮机联合发电以及系统控制与优化。 |
