用阴极保护进行石油储罐海水水压试验的无污染方案

F. Mainier, P. Nunes, L. P. Gomes, A. Carlos
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引用次数: 3

摘要

储油罐及其衍生物必须通过流体静力试验来评估侧向焊缝的泄漏、可能的裂缝和施工过程中可能发生的故障。在这次试验中,还观察到在地面上支撑储罐的混凝土基础上存在缺陷和裂缝。在靠近大海的储罐中,使用海水作为流体进行流体静力试验具有经济上的吸引力。由于其腐蚀性,海水会对储罐的内表面造成破坏。一般来说,在海水中加入缓蚀剂和杀菌剂是为了控制腐蚀速率。水静力试验中使用的水的处理可能代表一个环境问题,而大多数缓蚀剂是有毒的。在实验池上进行了静压试验,考察了阴极保护的有效性。这些试验表明,铝阳极(牺牲阳极)可以有效地取代储罐中的缓蚀剂,其优点是这种腐蚀保护系统对环境没有危害,而缓蚀剂最终可能会对环境造成危害。在橡胶浮子和管状模块中固定阳极代表了在海水水压试验期间水箱内部保护的重大创新。
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A Non-polluting Option Using Cathodic Protection for Hydrostatic Testing of Petroleum Tanks with Seawater
Oil storage tanks and derivatives must be evaluated by hydrostatic testing for leaks in sideways welds, possible cracks and failures that may have occurred during construction. Also in this test are observed defects and cracks in the concrete foundations that support the tank on the ground. The use of seawater as a fluid for hydrostatic testing in storage tank is economically attractive when the storage tanks are located near the sea. Due to its corrosive nature, seawater can cause damage to the internal surface of storage tanks. Generally, corrosion inhibitors and biocides are added to seawater in order to keep the corrosion rate under control. The disposal of water used in hydrostatic testing can represent an environmental problem whereas most corrosion inhibitors are toxic. Hydrostatic tests were run on bench scale tanks to investigate the efficiency of cathodic protection. These tests indicated that an aluminum anode (sacrificial anode) can efficiently replace corrosion inhibitors in storage tanks with the advantage that this corrosion protection system is not hazardous to the environment, as corrosion inhibitors can eventually be. The fixing of anodes in rubber floats and tubular modules represent a major innovation in the inner protection of tanks during the hydrostatic test with sea water.
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