負極的 的英文怎麼說
中文拼音 [fùjíde]
負極的
英文
cathodal-
The main operating transformer connected by a adscititious tandem on - load - tap - changing one is the important mode. about this question readers can get a correct and detailed answer from this paper
通過基本定義和有關名牌值進行了計算和分析,認為在正負極限檔,外加串聯調壓變的阻抗值相對額定檔的偏差很小,所以可不必在意這種變壓器整體阻抗的偏差值。Only the best sound and recording chosen to satisfy your captious ears, and best songs selected from thousands of songs to produce this hi - end album, which is absolute a hard work, and can be called the hope project of beautiful sound, the best music project
極致美聲,與你分享,不管是爵士樂民謠美聲或是純凈之聲,我們都堅持呈現最好的聲音和最好的錄音,絕對不辜負你的耳朵。我們集音樂之大成,從上千首的歌曲中挑選做成這個發燒人聲的精選專輯。Award for ecumenicity for a student who has served well the cause of ecumenicity, church unity. kau yan church scholarship
給予在教會合一、信徒合一事奉上有積極表現,或對教會合一有特殊負擔的一位同學。The pickands estimator of the negative extreme - value index
負極值指標的pickands估計Further researches into lithium intercalation graphite ( lig ), which is used widely enough as a cathode, is very urgent to us
嵌鋰石墨( lithiumintercalatedgraphite , lig )就是目前人們關注最多的一種負極材料,更進一步探究嵌鋰石墨充放電的內在機制迫在眉捷。Cluster models and quantum chemical methods were used to study the charge - discharge mechanism, performance and their relationship with the structure of lig for the purpose of providing a theoretical ground to the preparation, function improvement and application of materials
本文採用簇模型並利用量子化學等方法探究了嵌鋰石墨充放電機制、性能和與嵌鋰石墨結構間的關系,為負極材料的研製、改性及應用提供材料設計的理論依據。One was using the cyclic ether to pretreat the lithium metal electrode. and a favorable surface sei film was wished to form on the lithium metal, to enhance the interface stability of lithium electrode and the cycleability of lithium battery
方法一:嘗試採用環醚類化合物對金屬鋰電極進行表面預處理,預先在金屬鋰表面形成良好的表面sei膜,提高鋰電極界面穩定性和鋰負極的電化學性能。The results show that : nano - nickel powder is not useful for mh electrode during the high rate discharge phase as a conductor or additive ; superfine nickel powder is applicable for the conductor of the negative because of the good performance especially the cyclic stability at 1c rate by using 5 % ( mass percentage ) nickel powder ; the utilization of alloy, specific mass and volume capacity are increased with the decreased particle size of nickel powder in negative, however, the capacity fading rate at 1c discharge rate is also increased, so the capacity and the cyclic stability should be taken into account to make a choice of the particle size
結果表明: mh電極中加入納米鎳粉對負極的大電流放電性能不利。 mh電極中加入超細鎳粉后電極綜合性能好,尤其是1c循環穩定性,其最佳添加量為5wt 。減小鎳粉粒度提高了電極合金利用率、質量比容量、體積比容量,但增大了負極1c容量衰減率,因此鎳粉粒度的選擇應綜合考慮mh電極容量和循環穩定性。By using an oxide that could reversibly intercalate ili instead of 0. 5 li per 3d - metal, one could increase the specific capacity of the cell by 68 %. in contrast, if one doubles the specific capacity of the negative electrode ( liq - lice ), one increases the overall specific capacity of the cell by only 12 %
如果正極的比容量增加一倍,即每個3d金屬能嵌入1個理,那麼電池的比容在量就能增加68 ;如果負極的比容量增大1倍,那麼電池的比容量只增大12 ,所以對埋離于電池的研究主要應放在對正極材料的研究上, limn 。The lithium ion batteries with li doped graphite anodes have the best performance
其中以摻li石墨為負極的鋰離子電池的綜合性能較為理想。Lithium battery is the general name of chemical power sources by using lithium as negative material
鋰電池是以含鋰材料作負極的化學電源系列的總稱。The prospect of mwnt ' s potential application for the negative electrode of rechargeable battery was also discussed
最後展望了納米碳管作為可充式電池負極的可能性。Ni / mh battery is a new type of power source, which adopt hydrogen storage alloy as active material of negative electrode
Mh - ni電池是採用儲氫合金材料作為負極的新型化學電源。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電池的放電容量增加,放電中值電壓升高,循環性能顯著提高。The results show : the mh electrode bonded with the blend of pva, cmc and nl in a proper proportion possesses the best comprehensive performance and 0. 3 % ( mass percentage ) is the proper quantity of nl for the prescription
結果表明:適當比例pva 、 cmc和天然乳膠( nl )的復合粘結劑粘結負極的成型工藝性和電化學性能優良,天然乳膠的合適添加量在0 . 3wt %左右。The results show : la2o3, ceo2, nd2o3 is applicable for the additives of mh electrode because of the good comprehensive performance of the negative especially during the high rate discharge phase ; y2o3 is not fit as an additive for mh electrode ; the ceo2 content in negative has great effects on the performance during the high rate discharge phase and 2 % ( mass percentage ) is the best one, furthermore, the improvement of purity of ceo2 is beneficial to the comprehensive performance ; the mixture of coo and ceo2 as a additive is more suitable for mh electrode during the high rate discharge phase whose properties are better than that of addition of coo and ceo2 respectively
研究表明, mh電極中添加la _ 2o _ 3 、 ceo _ 2 、 nd _ 2o _ 3顯著提高了電極電化學綜合性能,尤其是大電流放電性能,適宜作大電流放電下電池負極的添加劑; y _ 2o _ 3不適宜作負極添加劑; ceo _ 2添加量對大電流放電性能影響較大, ceo _ 2的適宜添加量2wt ;提高ceo _ 2純度能改善mh電極電化學綜合性能。 mh電極中添加coo 、 ceo _ 2復合添加劑后電極綜合性能比單獨添加coo和ceo _ 2更優良,適宜作大電流放電下電池負極的添加劑。Raised the idea of constructing hybrid capacitor with a battery based positive electrode and a capacitor based negative electrode, experiment proved that a hybrid supercapacitor with a manganese dioxide based positive electrode and an activated carbon based negative electrode showed very good performance, double electrode specific capacitance could be enhanced to 95. 7f / g, that is 2 ~ 3 times that of the carbon based supercapacitors. furthermore, the maximal voltage of a single cell could be expanded to 1. 5v, as a result, the energy density could be ten times higher than that of a carbon based supercapacitors
本論文中我們提出了將電池哈爾濱工程大學碩士學位論文的正極與電容器的負極結合成混合超級電容器的構想,並成功實現了二氧化錳正極和活性炭負極的組合,構成的錳碳混合超級電容器雙電極比容量可達到95 . 7f / g ,比活性炭超級電容器提高了2一3倍,單體工作電壓可以高達1 . 5v ,從而使能量密度提高到碳基超級電容器的十倍。The two prescriptions that hpmc or hec respectively blended with nl demonstrate the different comprehensive performance and the former is better than the latter, but they are not good as nl with pva blended ; cmc and hec blended with ptfe have worse performances than that blended with nl ; compared with the binders of njl and nl, njl is beneficial to the electrochemical properties and disadvantagous to the electrode ' s formation, but nl is the very contrary
天然乳膠中加入hpmc或hpc作為復合粘結劑時,前者粘結負極的成型工藝性和電化學性能都優於後者,但與加入pva相比,電極的綜合性能比較差。 ptfe與親水性物質如cmc 、 hec等組合成的混合粘結劑的粘結負極的性能不如對應nl粘結負極的性能。To analyze conveniently, analysis personnel regularity need to make the operation of background color filling, anode 、 cathode filling, gradual change filling of anode and cathode to eliminate burr phenomena and mosaic phenomena during the filling process. earthquake interpret deal with a lot of data, a mass of proportion operation, coordinate conversion and coordinate mapping must be dong in the plot process, it may frequently appears the phenomena of memory deficiency, graphics refurbish in low speed, graphics overlap and twinkle, so it make use of the technique of memory mapping document, memory dc plotting and local plotting twice and so on to implement quickly and top - quality plotting of lots of gigantic graphics and implement continuous and rolling display
分析人員為了方便分析,也經常需要把波形進行底圖彩色填充,正級、負級填充,正負極的彩色漸變填充,並消除在填充過程中出現的毛刺現象、馬賽克現象。因地震解釋所涉及的數據量很大,在繪圖過程中要進行大量的比例運算、坐標轉換及坐標映射等,就會經常出現內存不足、圖形刷新速度過慢、圖形重疊和閃爍等現象,所以需要採用內存映射文件、內存dc繪圖、局部重繪等技術,實現大數據量巨幅圖形的快速度、高質量繪制以及圖形的連續滾動顯示。Respectively proceeding with bromine complexing agent of anode, modified membrane and electrolytic additive of cathode, mainly referring to specific power of battery, ratio of self - discharge and zinc dendrite, this paper has studied the influences of different anode additive and modified membrane on specific energy of battery by means of charge and discharge curves, and the influences of electrolytic additive ( nh4 +, op - 10, tx - 10 and dodecyl trimethyl ammonium bromide ) on zinc dendrite by means of current - time curve and microscopic morphology observation
本文分別從正極溴絡合劑、隔膜改性和負極的電解液添加劑入手,以電池的比能量、自放電率以及鋅枝晶生長情況為主要的性能指標,用電池充放電曲線等方法研究不同正極添加劑和隔膜改性對電池比能量的影響;用電流-時間曲線以及微觀形貌觀察等方法研究電解液添加劑( nh _ 4 ~ + 、 op - 10 、 tx - 10以及十二烷基三甲基溴化銨)對鋅枝晶生長的影響。分享友人