Abstract
The formation of inorganic deposits on the working surface of oil and gas equipment is one of the most common causes of failures in oil and gas fields. Inorganic salt deposits formed in tubing reduce pipeline throughput capacity and lead to equipment failure. Thus, the problem of salt formation in tubing is relevant and requires the search for optimal methods to solve it. There are a large number of methods aimed at preventing the formation of inorganic scale and at removing the resulting scale from tubing. The methods of removal of scale from the tubing are expensive, time-consuming, and they require a shutdown at the oil production facility. Therefore, it is preferable to use methods for preventing salt formation in tubing pipes.One of the methods for preventing salt formation in oil production is the use of internal protective coatings of the NKT. It is important to understand that the use of coatings to prevent salt formation is not a universal method, individual selection of the protective coating is required for each object. In addition, at the moment, the effectiveness of the use of protective coatings as a measure to prevent salt formation in the tubing has not been fully proven. The selection of an effective internal coating (to prevent salt formation on the surface of the equipment) using pilot field tests is an expensive and long procedure, so it is necessary to develop a laboratory method and specialized testing equipment to solve this problem. This paper reviewed the existing test equipment to assess its potential for laboratory dynamic testing of tubing coatings under saline conditions. Based on the advantages and disadvantages of existing equipment, the «Stand for assessing the resistance of coatings to inorganic salt deposits» was developed. This article describes the development of the «Test Bench for Evaluation of Coating Resistance to Inorganic Salt Deposits,» which can be used to assess the possibility of using protective tubing coatings to prevent the formation of inorganic salt deposits on the inner surface of pipes.
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