研究领域

CCUS、油气腐蚀、材料高温失效

科研项目

[1] 主持国家自然科学基金青年基金项目：多组分超临界CO2耦合腐蚀阴极反应机理


[2] 主持北京市自然科学基金面上项目：X80钢焊接接头在多介质耦合的液态/近临界区CO2体系中的腐蚀机理研究


[3] 主持北京市自然科学基金面上项目：含杂质超临界CO2环境管线钢点蚀机理


[4] 主持电力系统及发电设备控制和仿真国家重点实验室开放基金项目：CCS系统超临界CO2输送管道内腐蚀产物膜演化规律


[5] 主持校拔尖人才启动基金项目：低碳钢在含杂质超临界CO2中腐蚀原位观察及电化学特性研究


[6] 主持校优秀青年教师研究项目：过程流体多相流动与传热基础研究


[7] 主持校优秀青年教师研究项目：复杂环境下油气储运设施的腐蚀机理与防护技术研究


[8] 主持企业横向课题：KKM油田注采管柱腐蚀分析及选型研究


[9] 主持企业横向课题：氢能源在城市燃气中的利用研究


[10] 参与国家重点研发计划：国家石油及天然气储备库安全保障技术与装备研发

Publications

[1] Kai Yan, Yong Xiang#*, Haiyuan Yu, Zhenrui Li, Yajing Wu, JianSun, Effect of irregular microcracks on the hot corrosion behavior and thermal shock resistance of YSZ thermal barrier coatings. Surface and Coatings Technology 431 (2022) 128038. (SCI)


[2] Gong Qingjun, Xiang Yong#*, Zhang Jianquan, Wang Rongteng, Qin Dahui. Influence of elemental sulfur on the corrosion mechanism of X80 steel in supercritical CO2-saturated aqueous phase environment. The Journal of Supercritical Fluids 176 (2021) 105320. (SCI)


[3] Yong Xiang, Weiman Xie, Shiyi Ni, Xihan He. Comparative study of A106 steel corrosion in fresh and dirty MEA solutions during the CO2 capture process: Effect of NO3−. Corrosion Science 167 (2020) 108521. (SCI)


[4] Yong Xiang, Chicheng Song, Chen Li, Erdong Yao, Wei Yan. Characterization of 13Cr steel corrosion in simulated EOR-CCUS environment with flue gas impurities. Process Safety and Environmental Protection 140 (2020) 124-136. (SCI)


[5] Yong Xiang, Zhengwei Long, Chen Li, Wei Yan. Neutralization and adsorption effects of various alkanolamines on the corrosion behavior of N80 steel in supercritical CO2 with impurities. Corrosion 75 (2019) 999-1011. (SCI)


[6] Chen Li, Yong Xiang#*, Wenguan Li. Initial corrosion mechanism for API 5L X80 steel in CO2/SO2-saturated aqueous solution within a CCUS system: Inhibition effect of SO2 impurity. Electrochimica Acta 321 (2019) 134663. (SCI)


[7] Yong Xiang, Huaiwei Huang, Zhengwei Long, Chen Li, Wei Yan. Role of residual 2-amino-2-methyl-1-propanol and piperazine in the corrosion of X80 steel within an impure supercritical CO2 environment as relevant to CCUS. International Journal of Greenhouse Gas Control 82 (2019) 127-137. (SCI)


[8] Chen Li, Yong Xiang*, Chicheng Song, Zhongli Ji. Assessing the corrosion product scale formation characteristics of X80 steel in supercritical CO2-H2O binary systems with flue gas and NaCl impurities relevant to CCUS technology. Journal of Supercritical Fluids 146 (2019) 107-119. (SCI)


[9] Yong Xiang. Corrosion issues of carbon capture, utilization, and storage. Materials Performance 57 (2018) 32-35. (SCI)