Stable electric insulation to reduce cathodic protection current.
稳定的电绝缘性,降低阴极保护电流。
In the sea, cathodic protection current is a stray current to the metal which is out of the system but not far from it.
在海洋中,阴极保护电流对于系统以外不远处的金属来说,是一种杂散电流。这种杂散电流是阴极保护系统自己生成的。
The stray current is produced by the cathodic protection system itself.
这种杂散电流是阴极保护系统自己生成的。
In addition, inside structure of ballast water tank is very complex, shield effect to protective current also becomes a key problem in cathodic protection design.
另外压载水舱内部结构复杂,“屏蔽效应”对保护电流分布的影响也成为阴极保护设计中的关键问题。
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。
This article presents the selection and application of PID control which ACTS as the intelligent control core in the ship's impressed current cathodic protection system.
本文介绍了在舰船外加电流的阴极保护系统中,作为智能控制核心的PID控制的选择与应用。
The sacrificial anode cathodic protection features no power source, simple management and even current distribution. It is well received especially on special shaped structure.
牺牲阳极法阴极保护因其不需电源、管理简单、电流分布均匀,特别是对于形状特殊的构筑物。
Main application: It is Widely applied to the impressed current cathodic protection of oil drilling platform at sea, buried pipeline and cables under ground.
主要用途:高硅铸铁阳极广泛应用于海上石油钻井平台、地下管道、地下电缆等设施的外加电流的阴极保护。
Results show that it is difficult to make cathodic protection on bare steel because of large current density, and that cathodic protection is suitable for coated steel.
试验结果表明,对裸钢采用阴极保护时,所需电流密度较大,实施难度较大;而对有涂层的钢则更宜采用阴极保护措施。
There are two basic methods of applying cathodic protection to a metallic structure in contact with an electrolyte. These are galvanic cathodic protection and impressed current cathodic protection.
有两种对电解质中金属表面提供阴极保护的基本方法,它们是原电池阴极保护和外加电流阴极保护。
Specific cathodic protection methods, including titanium based anode for impressed current system and Zn sheet anode for sacrificial anode system, are introduced.
重点介绍了阴极保护的具体做法,一种是以钛基阳极作为辅助阳极的外加电流法,另一种是采用锌板阳极的牺牲阳极法。
Therefore it is significant to find a simple method to describe the distribution of potential and current density under the cathodic protection.
由此可见,寻找一种能满足工程要求的简单方法来求解船体的保护电位及电流密度分布问题具有重要意义。
This product scope including soil directly bury cable tray installed in the submerged in water and Marine mud buried in the free flow of water device laid impressed current cathodic protection system.
本产品的适用范围包括土壤中直接埋设、电缆桥架中安装、浸没在水中、埋设在海洋泥浆中和自由流动海水装置中铺设的外加电流阴极保护系统。
Impressed current cathodic protection technique is a kind of efficient measures for avoiding and slower the metal corrosion, so it was used more and more widely.
强制电流阴极保护技术是防止和缓解金属腐蚀的有效措施,因此得到了广泛应用。
The 2-d finite element method was an effective method to calculate the potential and current density distribution of cathodic protection fields.
有限元法已被证明是计算阴极保护场中电位、电流密度分布的有效方法。
Normally cathodic protection is acquired by sacrificial anodes or impressed current.
阴极保护常采用牺牲阳极法和外加电流法。
The system of applied electric current cathodic protection for concrete reinforcing bar painted conductive coating in simulated ocean environment was introduced.
介绍了模拟海洋环境的混凝土钢筋导电油漆型外加电流阴极保护系统。
The applied-current deep-well anode cathodic protection technology has been selected for oil pipeline based upon corrosion conditions.
依据输油管线的腐蚀情况,选用了强制电流深井阳极阴极保护技术。
Potentiostat, as the impressed current cathodic protection power, has been widely used in underground metallic pipeline anticorrosion.
恒电位仪作为阴极保护电源,被广泛应用于埋地金属管道的防腐蚀工程中。
It is described a cathodic protection system of reinforced concrete structures with discrete anodes obtained starting from a corrugated planar substrate welded to a longitudinal current collector.
本发明描述了具有不连续阳极的增强混凝土结构的阴极保护系统,所述阳极可从焊接到纵向集电器的皱褶状平面基体开始获得。
It is described a cathodic protection system of reinforced concrete structures with discrete anodes obtained starting from a corrugated planar substrate welded to a longitudinal current collector.
本发明描述了具有不连续阳极的增强混凝土结构的阴极保护系统,所述阳极可从焊接到纵向集电器的皱褶状平面基体开始获得。
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