以此专家系统为平台,开发了电解铝过程中氟化铝添加的模糊专家系统,控制电解质温度和分子比。
Based on this platform, a fuzzy expert system of aluminium fluoride's feeding is developed. It is applied to controlling of the aluminum electrolysis's bath temperature and ratio.
设计了基于CAN总线的预焙铝电解槽计算机控制系统的总体方案及基于混沌优化的电解质温度模糊控制器。
The computer control system scheme of Aluminum electrolytic cell based on CAN bus and Fuzzy controller based on chaos optimization are designed.
PEO基聚合物电解质中离子的运动能力与链的结构、离子浓度、温度、增塑剂等因素有关。
The ionic conductivity of PEO-based electrolyte is related to the structure of polymer chain, concentration of ion temperature and plasticizer.
用水基凝胶注法制备出ysz固体电解质薄膜,研究了温度、湿度和坯体厚度对干燥过程的影响规律。
YSZ solid electrolyte film was prepared by aqueous gel casting. The influences of temperature, relative humidity and sample thickness on drying process were studied.
直接测定了铝电解质实际样品的初晶温度。
Liquidus temperature of actual aluminum electrolyte samples was measured directly.
影响阳极基底与YSZ电解质薄膜共焙烧匹配性的主要因素是成型压力、预焙烧温度和焙烧升温速率。
Molding pressure, Sinter temperature in advance and the velocity of temperature raised are the main factors for the matching of anode substrate and thin film YSZ electrolyte.
影响阳极基底与YS Z电解质薄膜共焙烧匹配性的主要因素是成型压力、预焙烧温度和焙烧升温速率。
Molding pressure, sinter temperature in advance and the raise velocity of temperature were the main influencing factors for the matching of anode substrate and thin film YSZ electrolyte.
介绍了脱碳系统蒸汽喷射泵的冲刷腐蚀情况除流速外,介质温度高、含有电解质和氧的去极化作用是产生腐蚀的重要因素。
The major factors for the erosion corrosion of the steam ejection pump in the decarbonization system were media temperature, electrolyte and depolarization of oxygen in addition to flow velocity.
研究了不同正极材料、不同电解质和不同温度对电池短路放电性能的影响以及电池的重复短路放电性能。
The effect of cathode, electrolyse and temperature on the performance of the battery has been investigated in terms of the shortcircuit discharge.
H2D分子在表面的动态吸附行为与平衡时间、溶液浓度、H2D分子自身的电性、电解质浓度和种类以及温度有关。
Moreover, the dynamic adsorption behavior of H2D was related to the aging time, solution concentration, electric of H2D, the type and concentration of electrolyte, and temperature.
随着热激胁迫温度升高,黄瓜叶片的相对电解质外渗率呈现上升趋势,说明细胞质膜受到的破坏渐趋严重。
Along with the temperature increasing, the electrolyte leakage shows upward trend, which describe that the damage of cell membrane by high temperature is becoming worse.
主要探讨了二氧化硅及硫酸含量、温度等因素对胶体电解质物化性能的影响;
The factors influencing gel electrolyte performance such as the content of silica and sulfuric acid and the temperature are mainly discussed.
电力效应是电致温度差和水泥孔隙中电解质溶液产生电渗的共同结果。
Deformation induced by this electrical field in cement is the result of temperature difference and the electroosmosis behavior of electrolyte solvent in the porous cement matrix.
基于电化学理论和电解质溶液中的吸附理论,建立了包含电解液浓度、氧化电压和温度在内的实验参数动力学模型。
Based on the electrochemical theory and the theory of adsorption in electrolyte solution, a dynamic model is established, which contains the electrolyte concentration, applied voltage and temperature.
在初晶温度较低的电解质中,铝的溶解度较低,反之较高。
For electrolyte system with lower liquidus temperatures, the solubility of aluminium was lower too, vice versa.
主要研究了初晶温度、过热度、电解质组成,以及电解质融化之后的熔盐深度对铝溶解度的影响。
Influence factors, such as liquidus temperature, superheat degree, electrolyte components, and the depth of molten salt were focused.
本发明的目的在于提供一种能充分遏制短路发生时的电池温度的上升并且具有高能量密度的非水电解质二次电池。
An object of the present invention is to provide a high-energy density nonaqueous electrolyte secondary battery that controls the rise in temperature during short circuiting.
本发明的目的在于提供一种能充分遏制短路发生时的电池温度的上升并且具有高能量密度的非水电解质二次电池。
An object of the present invention is to provide a high-energy density nonaqueous electrolyte secondary battery that controls the rise in temperature during short circuiting.
应用推荐