{"title":"含1,3-二苯三氮的柴油馏分防腐性能研究","authors":"A. Trotsenko, A. Grigorov","doi":"10.20998/2079-0821.2022.06","DOIUrl":null,"url":null,"abstract":"The article considers the possibility of expanding the range of chemicals that exhibit their high anti-corrosion properties in hydrocarbons and can be used as additives to motor fuels through the use of 1,3-diphenyltriazene. This substance belongs to the class of diazocompounds and its anticorrosive properties are determined by the adsorption capacity in contact with the metal surface, due to the presence in the molecule of nitrogen-containing active groups that form a donor-acceptor (coordination) bond with the metal surface. \nStudies of anticorrosive properties were performed on metal plates (copper and steel, grade 3), located in the model environment, which consisted of straight-run diesel fraction (240-350 ° C) obtained from gas condensate with the addition of 1% of the mass. 1,3-diphenyltriazene in which was injected 0.1% of the mass. a solution of 97% acetic acid or 0.5% of the mass. aqueous solution of 10% NaCl. The anticorrosive properties of the specified model environment were studied both in static (soft) conditions at 20 ° C, periodic stirring at a speed of 100 rpm. for 90 days, and in dynamic (hard) conditions at 50 ° C, continuous stirring at a speed of 500 rpm, aeration 1.5 dm3 / min for 120 hours. \nIt was found that in those samples where there was 1% of the mass. 1,3-diphenyltriazene on the surface of metal plates formed a protective film, as evidenced by the change in color of the metal plate, and the absence of signs of corrosion on the surface, as well as a slight increase in its mass (within 0.0002 ÷ 0.0003 g). In samples where there was no 1,3-diphenyltriazene corrosion rate (Km), for mild study conditions was 0.94 × 10-4 ÷ 5.16 × 10-4 g / (m2 × h), for harsh study conditions - 0.56 × 10-2 ÷ 1.07 × 10-2 g / (m2 × year). \nThe approach proposed by the authors, which takes into account the complex action of several factors (temperature, mixing, aeration and the presence of corrosive agents), allows to adequately, close to the conditions that may arise during the actual operation of facilities, to assess the effectiveness of one or another chemical to protect against corrosion of metal surfaces.","PeriodicalId":9407,"journal":{"name":"Bulletin of the National Technical University \"KhPI\". 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This substance belongs to the class of diazocompounds and its anticorrosive properties are determined by the adsorption capacity in contact with the metal surface, due to the presence in the molecule of nitrogen-containing active groups that form a donor-acceptor (coordination) bond with the metal surface. \\nStudies of anticorrosive properties were performed on metal plates (copper and steel, grade 3), located in the model environment, which consisted of straight-run diesel fraction (240-350 ° C) obtained from gas condensate with the addition of 1% of the mass. 1,3-diphenyltriazene in which was injected 0.1% of the mass. a solution of 97% acetic acid or 0.5% of the mass. aqueous solution of 10% NaCl. The anticorrosive properties of the specified model environment were studied both in static (soft) conditions at 20 ° C, periodic stirring at a speed of 100 rpm. for 90 days, and in dynamic (hard) conditions at 50 ° C, continuous stirring at a speed of 500 rpm, aeration 1.5 dm3 / min for 120 hours. \\nIt was found that in those samples where there was 1% of the mass. 1,3-diphenyltriazene on the surface of metal plates formed a protective film, as evidenced by the change in color of the metal plate, and the absence of signs of corrosion on the surface, as well as a slight increase in its mass (within 0.0002 ÷ 0.0003 g). In samples where there was no 1,3-diphenyltriazene corrosion rate (Km), for mild study conditions was 0.94 × 10-4 ÷ 5.16 × 10-4 g / (m2 × h), for harsh study conditions - 0.56 × 10-2 ÷ 1.07 × 10-2 g / (m2 × year). \\nThe approach proposed by the authors, which takes into account the complex action of several factors (temperature, mixing, aeration and the presence of corrosive agents), allows to adequately, close to the conditions that may arise during the actual operation of facilities, to assess the effectiveness of one or another chemical to protect against corrosion of metal surfaces.\",\"PeriodicalId\":9407,\"journal\":{\"name\":\"Bulletin of the National Technical University \\\"KhPI\\\". 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引用次数: 0
摘要
本文考虑了通过使用1,3-二苯三氮烯来扩大在碳氢化合物中表现出高防腐性能并可作为汽车燃料添加剂的化学品范围的可能性。该物质属于重氮化合物,其防腐性能取决于与金属表面接触时的吸附能力,因为分子中存在含氮活性基团,与金属表面形成供体-受体(配位)键。研究人员在模型环境中对金属板(铜和钢,3级)进行了防腐性能研究,该模型环境由直馏柴油馏分(240-350°C)组成,该馏分由气体凝析液中添加1%的质量获得。1,3-二苯三氮,其中注射0.1%的质量。97%醋酸或0.5%质量的溶液。10% NaCl水溶液。在20°C的静态(软)条件下,以100 rpm的速度周期性搅拌,研究了指定模型环境的防腐性能。在50°C的动态(硬)条件下,以500转/分的速度连续搅拌,曝气1.5 dm3 / min,搅拌120小时。我们发现在这些样品中有1%的质量。1, 3-diphenyltriazene金属板表面形成保护膜,就是明证金属板的颜色的变化,以及缺乏表面腐蚀的迹象,以及轻微的增加它的质量(在0.0002÷0.0003克)。在样品没有1,3-diphenyltriazene腐蚀速率(公里),轻微的研究条件为0.94 4×打败÷4×打败5.16 g / (m2×h)的研究条件÷10 - 0.56×1.07×10 - 2 g / (m2×年)。作者提出的方法考虑了几个因素(温度、混合、通风和腐蚀剂的存在)的复杂作用,允许充分地、接近设施实际操作过程中可能出现的条件,以评估一种或另一种化学品防止金属表面腐蚀的有效性。
INVESTIGATION OF ANTI-CORROSION PROPERTIES OF DIESEL FRACTION, CONTAINING 1,3-DIPHENYLTRIAZENE
The article considers the possibility of expanding the range of chemicals that exhibit their high anti-corrosion properties in hydrocarbons and can be used as additives to motor fuels through the use of 1,3-diphenyltriazene. This substance belongs to the class of diazocompounds and its anticorrosive properties are determined by the adsorption capacity in contact with the metal surface, due to the presence in the molecule of nitrogen-containing active groups that form a donor-acceptor (coordination) bond with the metal surface.
Studies of anticorrosive properties were performed on metal plates (copper and steel, grade 3), located in the model environment, which consisted of straight-run diesel fraction (240-350 ° C) obtained from gas condensate with the addition of 1% of the mass. 1,3-diphenyltriazene in which was injected 0.1% of the mass. a solution of 97% acetic acid or 0.5% of the mass. aqueous solution of 10% NaCl. The anticorrosive properties of the specified model environment were studied both in static (soft) conditions at 20 ° C, periodic stirring at a speed of 100 rpm. for 90 days, and in dynamic (hard) conditions at 50 ° C, continuous stirring at a speed of 500 rpm, aeration 1.5 dm3 / min for 120 hours.
It was found that in those samples where there was 1% of the mass. 1,3-diphenyltriazene on the surface of metal plates formed a protective film, as evidenced by the change in color of the metal plate, and the absence of signs of corrosion on the surface, as well as a slight increase in its mass (within 0.0002 ÷ 0.0003 g). In samples where there was no 1,3-diphenyltriazene corrosion rate (Km), for mild study conditions was 0.94 × 10-4 ÷ 5.16 × 10-4 g / (m2 × h), for harsh study conditions - 0.56 × 10-2 ÷ 1.07 × 10-2 g / (m2 × year).
The approach proposed by the authors, which takes into account the complex action of several factors (temperature, mixing, aeration and the presence of corrosive agents), allows to adequately, close to the conditions that may arise during the actual operation of facilities, to assess the effectiveness of one or another chemical to protect against corrosion of metal surfaces.
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