SU1670564A1 - Method for determining effectiveness of corrosion inhibitors for hydrogen sulfide containing media - Google Patents

Abstract

The invention relates to a testing technique, namely, electrochemical methods for evaluating the effectiveness of inhibitor protection of steel against corrosion and corrosion-mechanical destruction in hydrogen sulfide-containing media, and can be used both in selecting known and developing new inhibitors to protect equipment in oil, gas and chemical industry. The purpose of the invention is to improve the accuracy of determining the protective effect of an inhibitor against corrosion and mechanical destruction of steel in hydrogen sulfide-containing environments by taking into account the value of electrochemical parameters at the crack tip. In two samples, cracks are generated, one of which measures the electrode potential and the pH value at the top of a developing crack in a hydrogen sulfide-containing electrolyte without an inhibitor, and on the other, in the same electrolyte with an inhibitor, and their established values are recorded, according to the formula K = (ϕ _о - ϕ _и ) / ϕ _о + (+ PH _о - PH _и ) / PH _о , where ϕ _о , PH _о is the electrode potential and the pH value at the tip of the developing crack in the hydrogen sulfide-containing electrolyte without inhibitor, respectively

ϕ _and , PH _and - electrode potential and pH at the tip of a developing crack in a hydrogen sulfide-containing electrolyte with an inhibitor, respectively. 1 il.

Description

The invention relates to a testing technique, namely, to electrochemical methods for evaluating the effectiveness of inhibitory protection of steel against corrosion and corrosion-mechanical destruction in hydrogen sulfide-containing environments and can be used both in selecting known and developing new inhibitors to protect equipment in the oil and gas industry. gas and chemical industry

The aim of the invention is to improve the accuracy of determining the protective effect of an inhibitor against corrosion-mechanical destruction of steel in hydrogen sulfide-containing environments by taking into account the value of electrochemical parameters at the crack tip

The drawing shows a diagram of a device for measuring electrode potential and hydrogen value at the tip of a crack.

The device contains a sealed electrochemical cell 1 for a hydrogen sulfide-containing electrolyte 2, a microelectrode of comparison 3, a pH-sensitive microelectrode 4, a high-resistance one. Voltmeter 5, pH meter B, two sealing films 7 and 8, sample 9, having two holes 10,

11 and an initiating notch 12 for initiating a fatigue crack 13 with apex 14.

The device works as follows.

Studies are performed on two samples 9 of the steel grade that must be protected by an inhibitor. As samples 9 in determining the effectiveness of corrosion inhibitors, standard flat samples commonly used for testing metals for crack resistance are used. Initiating incision

12 is made using a special milling cutter or grinding wheel, providing a notched radius R less than 0.25 mm. Holes 10 and 11 (diameter, 3 mm, depth h-0.5 mm) in sample 9 are drilled at a distance I from the initiating notch 12. equal to 3 mm. A fatigue crack is applied under varying stretch with a cycle asymmetry factor of 0.1-0.2. The nominal stress at the maximum cycle force should be no more than 0.5–0.2 sample material 9. The recommended number of loading cycles when a fatigue crack 13 starts in air (1.5 mm long) is at least 510. At the same time, the fatigue crack should not communicate with the holes and 11.

The effectiveness of the protective action of inhibitors is illustrated by examples.

PRI me R 1. In one sample 9, holes 10 and 11 are filled with hydrogen-containing electrolyte 2 without inhibitor using matrices (not shown), they are compared with microelectrode 3, pH-sensitive microelectrode 4 and sealed. their entry points using sealing films 7 and 8, respectively. The sample 9 prepared in this way is placed in a sealed thermostatically controlled electrochemical cell 1, installed in the grips of a loading device (not shown) and connected to a high-resistance voltmeter 5. After this, the electrochemical cell 1 is filled with hydrogen sulfide-containing electrolyte 2 without an inhibitor and the sample 9 is loaded, which ensures the further growth of cracks in it 13 The moment of the communication of the tip 14 of the crack 13 with the holes 10 and 11 is fixed by a jump in the electrode potential using a high-resistance voltmeter 5 and microelectrode 3. At the same time, the value of the hydrogen indicator is measured using pH meter 6, comparison microelectrode 3 and pH-sensitive microelectrode 4 . By

as advancing in the zone of the holes 10 and 11 of the tip 14 of the crack 13, the steady-state values of the electrode potential (p0) and the hydrogen index (pHo) are recorded in it.

Example 2. In this case, in sample 9

the holes 10, 11 and the sealed electrochemical cell 1 are filled with hydrogen sulfide-containing electrolyte 2 with an inhibitor, loading is carried out

sample 9 and similar measurements were made as in the first experiment, registering the established values of the electrode potential (y,) and hydrogen index (pH) at the top 14 of the developing crack 13.

The values of the established electrode potentials and hydrogen indices at the tops of developing cracks in a hydrogen sulfide-containing electrolyte without

inhibitor and with inhibitor, the effectiveness of the protective effect of the inhibitor is determined by the formula

to -L P H0 - p N o or No

The method of determining the effectiveness of the protective effect of corrosion inhibitors for hydrogen sulfide-containing media has the following advantages: an increase in the accuracy of determining the protective

the action of inhibitors; In addition, the choice of effective corrosion inhibitors increases the reliability and durability of the process equipment.

Claims (1)

Invention Formula A method for determining the effectiveness of corrosion inhibitors for hydrogen sulfide-containing media, including measuring electrode potentials of two identical samples, one of which is placed in a hermetic cell with a hydrogen sulfide-containing electrode without an inhibitor, and the other with an inhibitor, in order to improve the accuracy of determination in samples cracks are generated, at the tops of which the electrode potential and pH are determined, and the effectiveness of the inhibitor is determined by the formula to Р ° Р. P H0 - p Ni RohN0 where K is the effectiveness of the inhibitor; , pHo electrode potential and pH at the tip of a crack in a hydrogen sulfide-containing electrolyte without an inhibitor, pH, pH — electrode potential and pH at the tip of a crack in a hydrogen sulfide-containing electrolyte with an inhibitor. 9 to - “and