電池容量試驗 的英文怎麼說

中文拼音 [diànchíróngliángshìyàn]
電池容量試驗 英文
battery energy storage test
  • : 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...
  • : 名詞1 (池塘) pool; pond 2 (旁邊高中間窪的地方) an enclosed space with raised sides 3 (舊指劇...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • : 名詞(古代占卜用的器具) astrolabe
  • : 動詞1. (察看; 查考) examine; check; test 2. (產生預期的效果) prove effective; produce the expected result
  • 電池 : [電學] cell; battery; element; electric battery
  • 試驗 : trial; experiment; test
  1. The influences of the calcination temperature and time, the concentration ratio of deionized distilled water to c - v _ 2o _ 5 and the agitation time on the synthesis of a - v _ 2o _ 5 were studied by orthogonal array design and the interactions between the parameters were considered. so the optimum experimental factors were obtained. lithium rechargeable battery positive electrodes based on these optimum conditions could lead to experimental cells with large discharge specific capacity and good cycling performance

    用正交實研究了煅燒溫度、煅燒時間、去離子水與晶態v _ 2o _ 5 ( c - v _ 2o _ 5 )的濃度比和陳化時間對合成a - v _ 2o _ 5的影響,討論了這些參數間的交互作用,並獲得了最優參數,以該最優參數所制備的a - v _ 2o _ 5為可充鋰正極的實,具有較大的放和較好的循環壽命。
  2. If one cell fails, the whole battery fails. with use the normal battery management system, the difference between cells enlarge. it " s recommend that a cell management system which embedded a powerful microchip to manage the charge and discharge of cell will solve this problem well

    本文分析不一致性對蓄使用過程中的影響,證不一致性隨著使用次數的增加而增大,造成在充過程中,充不均衡,未充足的在放中過放,造成了惡性循環,縮短蓄的壽命。
  3. Alkaline zinc - manganese battery is widely used all over the world it has good performance of storage , low cost , stable discharge and convenience of carrying the sealing of the battery is a crucial factor to the performance of the battery due to the disadvantages of present sealants , leakage of electrolyte often happens what ’ s more , the sealing capability affects the performance of the battery the way to raise the sealing capability is to search for a good additive , which can improve the sealing capability through adding according to chemical principles , this article picks out ptfe and nylon66 as additive adding ptfe or nylon66 into the pitch can improve the sealing capability of the pitch at the same time , the temperature , the time , the amount of addictive , the way to drop temperature and the time of churning all should be considered by testing the constitutions , softening point , moving degree and length of needle of various pitch samples , we can compare the properties of different sealants can be studied by using of x - ray, the constitutions of the pitch can be indicated which can help us to explain these changes this article includes : testing the constitutions , soften point , moving viscosity and needle penetration of various pitches ; raising the sealing capability by adding ptfe nylon66 into the pitches ; testing the constitutions , soften point , moving viscosity and needle penetration of raised samples ; analyzing and discussing the basic principles of this method it is showed that soften point , moving viscosity and needle penetration of pitches are increased by adding ptfe nylon66 and the discharge time , initial voltage , capacity of battery with pitch raised by nylon66 are good and get to the requirement of gb t7 1 1 2 in a11 the method proposed in this article is available in practical industry use

    通過測定改進瀝青的軟化點、運動粘度和針入度等指標參數來比較不同的添加劑及不同的添加條件對瀝青封口性能的影響。本論文的主要研究結果為:系統測了多種瀝青樣品的組成、軟化點、運動粘度、針入度;對市售瀝青分別添加聚四氟乙烯乳液、有機硅樹脂和尼龍66進行改進,制備了改進產品;對改進瀝青的組成、軟化點、運動粘度、針入度進行了測和比較;使用改進瀝青組裝成並對進行恆流放、短路流測漏氣、漏液性能的測;對瀝青改進的原理進行了分析和討論。實結果表明:在瀝青中添加尼龍66和聚四氟乙烯乳液對瀝青的封口性能有明顯的提高;通過對工藝條件的不斷改進,目前的工藝條件已完全可以用於實際生產操作;以添加尼龍66改進的瀝青為封口劑組裝成的完全滿足堿錳生產的需要,且、短路流等指標均達到gb t7112標準要求;本文提出的改進方案,通過證是一種效果好、實用性強的方法。
  4. Firstly, with the principle of electrochemistry, the mathematic models of the electromotive force and inner resistance of the lithium - ion battery are built, which is based on the state of capacity ( soc ). based on the experimental data, the characteristic of the li - ion battery capacity and voltage are defined

    文章首先從化學的原理出發,建立了鋰離子動力動勢和內阻基於狀態值soc的數學模型,並根據實所得的測數據,確定了某鋰離子特性和壓特性。
  5. Then the constant of peukert equation is calculated from the linear interpolation. simultaneity the characteristic curves of the battery capacity, electromotive force and inner resistance are fitted with least - squares. the maximal of relative error between the calculated values from the models and the experimental data is 2. 59 % under 50a discharge current

    利用peukert方程的變形式,用線性插值法計算出鋰離子的peukert常數值;利用最小二乘法擬合了該動力特性、動勢和內阻特性曲線;在50a的放流下,數學模型的計算值與結果的最大相對誤差為2 . 59 。
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