放電容量 的英文怎麼說

中文拼音 [fàngdiànróngliáng]
放電容量 英文
discharge capacity
  • : releaseset freelet go
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • 放電 : [物理學] (electric) discharge; electro-discharge; discharging
  1. The discharging capacity of single aluminum / air battery was over 40ah with 4a, and the output power of aluminum / air battery pack was as high as 110w

    鋁空氣單池,恆流4a放電容量超過40ah ;鋁空氣池組的最大輸出功率超過110瓦。
  2. The addition of calcium hydroxide in zinc electrode can reduce the solubility of zinc oxide and improve discharge capacity, cycling life and utilization of active material

    在氧化鋅中加入氫氧化鈣能顯著降低氧化鋅在堿性溶液中的溶解度,明顯改善鋅極的放電容量、循環壽命以及活性物質的利用率。
  3. The results showed the samples by microwave heating exhibited smaller particles, high specific capacity ( 129 mah ? g - 1 )

    研究表明,微波合成樣品的粒度較小,第十周期的放電容量達到了129mah ? g - 1 。
  4. The low solubility of calcium zincate produced from the chemical reaction of zinc oxide and calcium hydroxide in alkaline solution can improve the cycling life the zinc electrode, and the discharge capacity will tend to be stable. furthermore, the effects of la2o3 additives on the electrochemical performances of zinc electrodes were investigated. the results shows that the addition of la2o3, in zinc electrode can improve the area of reduction peak and the hydrogen evolution potential which means the cathodic hydrogen evolution reaction can be hindered

    氧化鋅與氫氧化鈣在堿性溶液中化學反應生成的難溶於堿的鋅酸鈣可以使鋅極的循環壽命得到提高,放電容量也趨于平穩,此外還考察了氧化鑭對鋅酸鈣化學性能的影響,結果表明:添加適氧化鑭能明顯改善鋅極的化學性能,使鋅極的還原峰位正移,極反應可逆性得到改善,同時也可抑制鋅極析氫反應的發生,提高了鋅極的陽極流,對陽極反應有一定的活化作用;同時還可以改善鋅極的特性,增加極的放電容量
  5. Because f - doped increases the content of mn3 +, which is the active ion at oxido - reduction, so f - doped can increase the initial capacity, but the increased mn + intensified the jahn - teller distortion and the dissolution of mn2 +, both of which deteriorated the cyclability

    表面修飾后的limn _ 2o _ 4晶粒具有良好的抗解液溶蝕能力, mn的溶解僅是未經表面修飾材料的1 / 2左右;雖然首次放電容量有所降低,但其循環性能優良。
  6. 4. through the galvanostatic charge / discharge experiments with different schedules, it was found that mn ( ) / mn ( ) in acidic media as half - cell in a novel redox flow system is practically feasible in that it has such advantages as low cost, high open voltage, a certain coulombic efficiency with low charge / discharge current, and long cycling life. in the second part, cosn alloy and cu - sn samples were synthesized firstly by h2 - reduction following solid - state reaction between co ( ii ) 、 cu ( ii ) 、 sn ( iv ) 、 and naoh at ambient temperature

    並研究了其分別作為鋰離子池陽極材料在1mol / llipf6 / ec + dmc解液中的恆流充性能,各樣品均存在較大的首次不可逆損失; 10個循環內cu - sn可逆放電容量可保持在280mah / g以上,而第十周時cosn 、 cu6sn5的可逆放電容量分別為50mah / g和60mah / g 。
  7. When they were respectively used as separator in zn / k2feo4 battery, the percent of capacity of the cathode active material na2feo4 were : microfiber glass mat ' s : 93 % ; polyethylene ' s : 68 % ; polypropylene ' s : 56 % ; polyvinyl chloride ' s : 47 % ; vinylon ' s : 38 % ; soapnated cellulose acetate ' s : 24 %. although five of them ( not concluding soapnated cellulose acetate ) had very weak or weaker reductivity as separator in super - iron battery, for which th ey were more suitable to being separator in super - iron battery

    作為隔膜用於zn k _ 2feo _ 4實驗池,正極活性物質k _ 2feo _ 4的放電容量效率分別為復合玻璃纖維膜93 、輻射接枝聚乙烯膜68 、改性聚丙烯微孔膜56 、聚氯乙烯微孔膜47 、維尼綸無紡布38 、皂化再生纖維素膜24 。
  8. For the other hand, la2o3 additives can improve the activation process and discharge capacity obviously for zinc electrode. the appropriate content of la2o3 additives in zinc electrode can increase the electrochemical properties of the zinc electrode. zn / ni battery with the zinc electrode containing calcium additive showed better discharge capacity and charge - discharge cycling life

    以鋅酸鈣為活性物質的鋅極能得到更高的鋅利用率,且以鋅酸鈣為活性物質的鋅鎳池的循環壽命明顯優于以氧化鋅為活性物質的鋅鎳池;兩層隔膜的鋅鎳池的放電容量高於一層隔膜的鋅鎳池,衰減速度也明顯小於後者。
  9. Lifepo4 / c composite sample synthesized using coal tar bitumen and carbon both as the carbon precursor under 300 / 3 h + 650 / 6 h also gives a good discharge curves, the discharge specific capacity reached 104. 0 mah / g 、 100. 2 mah / g under the measuring current of 183 ma / g 、 366 ma / g respectively, and it keeps the good cycle performance in nearly 140 cycles. few reports were related to the lifepo4 / c composite synthesized using low cost bitumen as the carbon precursor

    採用煤焦油瀝青和乙炔黑同時作為碳前驅體時,在300 / 3h + 650 / 6h的焙燒制度下得到的試樣,在183 、 366ma / g的大流密度下仍有104 . 0mah / g 、 100 . 2mah / g左右的放電容量,在140次循環內均表現出了很好的循環性能。
  10. Obviously, it is better than the material prepared by solid - state process : the first discharge capacity is 91mah / g, after 20 cycles the specific capacity is around 81. 71mah / g. besides, we tried to prepare arrays of nanowires using aao

    本文還探索了利用溶膠凝膠法在模板中合成氟磷酸亞鐵鈉納米線,發現該法制備的材料初次放電容量高達119mah / g ,循環20次后的為110mah / g 。
  11. The na2fepo4f cathode materials for sodium ion battery were prepared by solid state reaction and the influence of synthesizing temperature and morphology on the electrochemical performance of na2fepo4f powders in sodium ion batteries were systematically studied. the results indicate that na2fepo4f synthesized at 750 exhibited good electrochemical performance, whose first specific discharge capacity is 60mah / g, after 20 times cycling, the average specific discharge capacity is 51. 1mah / g

    首先採用固相法制備了氟磷酸亞鐵鈉粉體,研究了不同煅燒溫度對合成材料顯微結構和化學性能的影響,結果表明750下合成材料體現出較好的化學性能,首次放電容量為60mah / g ,循環20次后,下降為51 . 1mah / g 。
  12. An adaptive neuro fuzzy inference system modeling approach is employed for the estimation of brc in terms of the state of available capacity of the mh - ni battery powered electric vehicles

    把自適應模糊推理系統用於估計蓄池剩餘,輸入是池的溫度和放電容量,輸出是池的荷狀態。
  13. Compared with the lithium ion batteries using untreated graphite as anode material, those using modified graphites as anode materials have larger capacity, higher discharge voltage and better cycling capability

    以熱處理或摻雜改性石墨為負極的鋰離子池的放電容量增加,中值壓升高,循環性能顯著提高。
  14. The results showed that the electroless nickel plating could increase the discharge capacity, 1c discharge properties and cycle stability obviously, and could also improve the activation

    結果表明,鍍鎳能明顯提高低鈷貯氫合金的放電容量、 1c高倍率性能及循環穩定性,對活化性能亦有改善。
  15. Measurement of discharge capacity of electrolytic capacitors

    放電容量的測
  16. When koh concentration is increased, discharge capacity and internal resistance increase, voltage plateau decreases

    ( 3 )當在堿液中增大koh濃度時,放電容量升高,內阻升高,壓平臺降低。
  17. The charging and discharging electrochemistry mechanism of the storage battery is analyzed. the equipment of measuring capacity of storage batteries is developed

    分析了蓄池充、過程中化學反應機理,研製了一套蓄池充、放電容量測試系統。
  18. The study shows that limno2 has an ordered layered structure and good electrochemical properties, its 50th specific charge capacity is 65mah / g

    研究表明,離子交換法制備的limno2材料具有較好的層狀結構和化學性能,其第50次放電容量為65mah ? g - 1 ( 0 . 1c倍率) 。
  19. The discharge capacity and voltage of lithium - aluminium anode can be enhanced by adding 0. 5 % 1. 5 % ce and the surface quality of the anode can also be improved

    在鋰鋁合金陽極中添加0 . 5 % 1 . 5 % (質分數)鈰,可增大池的放電容量壓,改善鋰鋁合金陽極的表面形貌。
  20. The doped material performed well electrochemical property for cycling. the initial discharge capacity of doped material was 165mah / g. after 80 cycles, the capacity loss was about 20 %

    使用溶膠凝膠法對層狀limno2進行2 % al3 +的摻雜改性,初始放電容量可達165mah / g , 80次循環后衰減約20 % 。
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