目的:研究咪唑啉类缓蚀剂对P110钢在CO2注入井环空环境中的应力腐蚀( SCC)行为的影响,为CO2注入井环空环境腐蚀防护方法的建立提供参考和依据。方法在实验室模拟的CO2驱注井环空环境中进行应力腐蚀试验、电化学测试和腐蚀形貌分析。根据现场提取的CO2注入井环空介质的成分分析结果配制模拟溶液,选用咪唑啉类缓蚀剂,调节模拟液pH至4。通入高纯N2进行除氧,以防止硫化物氧化。应力腐蚀试样采用三点弯试样,通过将试样的挠度控制为设定值来控制加载载荷。应力腐蚀试验和电化学试验均在密闭高压釜内进行。实验结束后,采用扫描电镜对腐蚀形貌进行观察。结果在CO2注入井环空环境下,咪唑啉缓蚀剂的浓度对P110钢的SCC行为有重要影响。在拉应力载荷存在时,添加足量的缓蚀剂对均匀腐蚀和SCC均具有较好的抑制效果,但当用量不足时,缓蚀剂的添加会增大P110钢的SCC敏感性,其SCC机制为氢脆与局部阳极溶解的混合机制。因此,P110钢在模拟CO2注入井的环空环境中会发生SCC,其机制为AD+HE机制。结论咪唑啉缓蚀剂的浓度对P110钢的SCC行为有重要影响,足量的缓蚀剂对均匀腐蚀和SCC均具有较好的抑制效果,但浓度不足时反而会增大SCC敏感性。
ABSTRACT:Objective To study the effect of imidazoline corrosion inhibitor on the stress corrosion cracking ( SCC) behavior of
P110 steel in simulated annulus environment in CO2 injection wells, in order to provide reference and basis for the establishment of protection method against corrosion in the annulus environment of CO2 injection wells. Methods P110 steel in simulated annulus environment in CO2 injection wells was treated by SCC tests, electrochemical measurements and corrosion morphology analysis. Ac-cording to the site-extracted component analysis results of annulus medium in the CO2 injection well, simulated solution was pre-pared in laboratory, imidazoline corrosion inhibitor was selected, and the pH of the simulated solution was adjusted to 4. Highly pure N2 was introduced to deoxidize, in order to prevent the oxidation of sulfide. Three-point bend specimen was used in the stress corrosion test, and the deflection of the sample was controlled at the set value to control the load. Both the stress corrosion test and electrochemical test were carried out in a closed autoclave. After the experiment, the corrosion morphology was observed by scan-ning electron microscope. Results In the annulus environment of the CO2 injection well, concentration of imidazoline corrosion in-hibitor had important effect on the SCC behavior of P110 steel. In the presence of tensile stress load, the addition of sufficient cor-rosion inhibitor had good inhibition effect on uniform corrosion and SCC, but when the dosage was insufficient, the addition of cor-rosion inhibitor would increase the SCC sensitivity of P110 steel, and the SCC mechanism was the mixed mechanism of local anodic dissolution and hydrogen embrittlement. Therefore,SCC occured on P110 steel in simulated annulus environment in CO2 injection wells, and its mechanism was AD+HE. Conclusion The concentration of imidazoline corrosion inhibitor posed a significant influ-ence on the SCC behavior of P110 steel. Adequate imidazoline corrosion inhibitor could well inhibit both uniform corrosion and SCC, while the addition of inadequate imidazoline corrosion inhibitor increased the SCC susceptibility instead.
参考文献
| [1] | WANG T L;SONG Y C;ZHANG Y C et al.Measurement of Immiscible CO2 Flooding Processes and Permeability Re-duction due to Asphaltene Precipitation by X-ray CT Ima-ging[J].Energy Procedia,2013,37:6920-6927. |
| [2] | YEVTUSHENKO O;BETTGE D;BOHRAUS S et al.Corro-sion Behavior of Steels for CO2 Injection[J].Process Safety and Environmental Protection,2013,92(1):108-118. |
| [3] | G.A. Zhang;Y. Zeng;X.P. Guo;F. Jiang;D.Y. Shi;Z.Y. Chen .Electrochemical corrosion behavior of carbon steel under dynamic high pressure H_2S/CO_2 environment[J].Corrosion Science: The Journal on Environmental Degradation of Materials and its Control,2012(Dec.):37-47. |
| [4] | Guan, Jing;Xia, Li-Ping;Wang, Li-Ying;Liu, Jin-Feng;Gu, Ji-Dong;Mu, Bo-Zhong.Diversity and distribution of sulfate-reducing bacteria in four petroleum reservoirs detected by using 16S rRNA and dsrAB genes[J].International Biodeterioration & Biodegradation,2013:58-66. |
| [5] | Antony P. Joseph;Juerg Keller;Heriberto Bustamante;Philip L. Bond .Surface neutralization and H_2S oxidation at early stages of sewer corrosion: Influence of temperature, relative humidity and H_2S concentration[J].Water research: A journal of the international water association,2012(13):4235-4245. |
| [6] | ZIAEI S M R;KOKABI A H;NASR-ESFEHANI M .Sulfide Stress Corrosion Cracking and Hydrogen Induced Cracking of A216-WCC Wellhead Flow Control Valve Body[J].Case Studies in Engineering Failure Analysis,2013,1(3):223-234. |
| [7] | ZENG D Z;CHEN R;ZHANG Z et al.Research on Stress Corrosion Sensitivity of C110 Casing in Wellbore Protection Fluid[J].Energy Procedia,2012,16:816-821. |
| [8] | ABAYARATHNA D;NARAGHI A;WANG S H.The Effect of Surface Films on Corrosion of Carbon Steel in a CO2-H2S-H2O System[A].Houston:NACE,2005:05624. |
| [9] | LI W F;ZHOU Y J;XUE Y .Corrosion Behavior of 110S Tube Steel in Environments of High H2 S and CO2 Content[J].Journal of Iron and Steel Research,International,2012,12(19):59-65. |
| [10] | YIN Z F;ZHAO W Z;BAI Z Q et al.Corrosion Behavior of SM 80SS Tube Steel in Stimulant Solution Containing H2 S and CO2[J].Electrochimica Acta,2008,53(10):3690-3700. |
| [11] | APISPEC 5CT.Specification for Casing and Tubing[S]. |
| [12] | GB/T 15970. 6-1998.Corrosion of Metals and Alloys-Stress Corrosion Testing-Part 6:Preparation and Use of Pre-cracked Specimens for Tests Under Constant Load or Con-stant Displacement[S]. |
| [13] | Y. -M. Wu .Applying process modeling to screen refining equipment for wet hydrogen sulfide service[J].Corrosion: The Journal of Science and Engineering,1998(2):169-173. |
| [14] | HEUER J K;STUBBINS J F.An XPS Characterization of FeCO3 Films from CO2 Corrosion[J].Corrosion Science,1999(41):1231-1243. |
| [15] | MA H Y;CHENG X L;LI G Q.The Influence of Hy-drogen Sulfide on Corrosion of Iron under Different Condi-tions[J].CORROSION,2000(42):1669-1683. |
| [16] | KITTEL J;ROPITAL F;GROSJEAN F et al.Corrosion Mecha-nisms in Aqueous Solutions Containing Dissolved H2 S. Part 1:Characterization of H2 S Reduction on a 316L Rotating Disc Electrode[J].Corrosion Science,2013,66:324-329. |
| [17] | FRAGIEL A;SEMA S;PEREZ R .Electrochemical Study of Two Micro-alloyed Pipeline Steels in H2 S Environments[J].International Journal of Hydrogen Energy,2005,30:1303. |
| [18] | Liu, Z. Y.;Dong, C. F.;Li, X. G.;Zhi, Q.;Cheng, Y. F. .Stress corrosion cracking of 2205 duplex stainless steel in H2S-CO2 environment[J].Journal of Materials Science,2009(16):4228-4234. |
| [19] | DING J H;ZHANG L;LU M X et al.The Electrochemical Behavior of 316L Austenitic Stainless Steel in Cl-Contai-ning Environment under Different H2 S Partial Pressures[J].Applied Surface Science,2014,289:33-41. |
| [20] | BANAS J;LELEK-BORKOWSKA U;MAZURKIEWICZ B et al.Effect of CO2 and H2 S on the Composition and Stabili-ty of Passive Film on Iron Alloys in Geothermal Water[J].Electrochimica Acta,2007,52(18):5704-5714. |
| [21] | Ivana Jevremovic;Marc Singer;Srdan Nesic;Vesna Miskovic-Stankovic .Inhibition properties of self-assembled corrosion inhibitor talloil diethylenetriamine imidazoline for mild steel corrosion in chloride solution saturated with carbon dioxide[J].Corrosion Science: The Journal on Environmental Degradation of Materials and its Control,2013(Dec.):265-272. |
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