1) Impressed current cathodic protection
外加电流阴极保护
1.
The impressed current cathodic protection system for the oil field region canbe considered as a constant current field approximately and the potential distribution inthe region obeys the Polsson Equation.
油田区域性外加电流阴极保护系统可视作性定电流场,区域内的电位分布遵守Poisson方程。
2.
A 1∶100 physical scale model of a vessel is established and used to study the distribution of the potential in the impressed current cathodic protection(ICCP) system of a hull′s double-zones.
建立某船1∶100缩比模型,研究了船体双区域外加电流阴极保护系统中船体保护电位分布。
3.
The main contents include: choosing of anti-corrosion coating technology and construction, comparison and choosing of cathodic protection method, adoption of impressed current cathodic protection method, selection of current density and calculating of protection current, selection of the plus current equipment and materials, as well as the system installation.
主要内容包括:防腐涂层的选择和技术施工;阴极保护方法的对比和选择;外加电流阴极保护方法的采用,电流密度的选取和保护电流的计算,外加电流设备和材料的选型以及系统的布置安装。
2) applied current cathodic protection
外加电流阴极保护
1.
Application of applied current cathodic protection technique for steel pipe pile structures in seaport engineering;
外加电流阴极保护技术在海港工程钢管桩结构中的应用
2.
Electrochemical corrosion of metal and principle of the applied current cathodic protection are expounded.
论述了金属的电化学腐蚀和外加电流阴极保护原理。
3) ICCP
外加电流阴极保护系统
1.
The corrosion currents of propeller revolution modulation and the currents which results from impressed current cathodic protection system (ICCP) are two important sources of ELFE.
螺旋桨转动调制舰船腐蚀电流和外加电流阴极保护系统在海水中产生的电流是舰船极低频电场的2个重要来源。
4) impressed current protection
外电流阴极保护
5) cathodic protection by rectifier
外加电源阴极保护
1.
The reasons for invalid cathodic protection by rectifier in gas transmission pipeline in Lanzhou City are analyzed,and the concrete reconstruction treatment measures are put forward.
分析了兰州燃气输气管道外加电源阴极保护失效的原因,提出了具体的改造处理措施。
6) impressed current anodic protection
外加电流阳极保护
补充资料:阴极电流密度
分子式:
CAS号:
性质:单位面积阴极上通过的电流强度称为阴极电流密度,以A/m2或mA/cm2表示。把电极作为阴极研究其电化学特性时,必须对阴极施加电流,随着阴极电流密度的增加,阴极的电极电位向负方向移动。
CAS号:
性质:单位面积阴极上通过的电流强度称为阴极电流密度,以A/m2或mA/cm2表示。把电极作为阴极研究其电化学特性时,必须对阴极施加电流,随着阴极电流密度的增加,阴极的电极电位向负方向移动。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条