董宝军，男，汉族，群众，博士，讲师，硕士生导师

教育经历

2007-2011 兰州交通大学 热能与动力工程  本科

2015-2018 西南石油大学 石油与天然气工程 硕士

2018-2022 北京科技大学 材料科学与工程  博士

工作经历

2011-2015 中国石油独山子石化公司 设备工程师

2022-2023 哈尔滨工业大学（深圳） 博士后

2023-至今 中国石油大学（北京）克拉玛依校区 讲师

讲授课程

[1] 工程热力学与传热学

[2] 计算机辅助制图

[3] 油气管道三维设计建模

研究方向

1. 油气田井筒、地面材料腐蚀与防护

2. 炼化装置关键材料腐蚀与防护

3. 燃煤电厂锅炉材料腐蚀与防护

4. 缓蚀剂、阻垢剂和高性能涂层的设计

科研项目

[1] 新疆自治区绸之路经济带创新驱动发展试验区、乌昌石国家自主创新示范区科技发展计划项目：CO₂驱注采井管柱腐蚀与防护关键技术研究与示范性应用

[2] 新疆自治区自然科学基金青年基金：特深井强腐蚀性环境富A1-Cr低密度钢非均质腐蚀产物膜演化机理研究

[3] 新疆自治区引进人才“天池博士”项目：超临界CO₂输送管线腐蚀控制关键技术研究

[4] 克拉玛依市-创新人才专项：CO₂封存井封隔器胶筒橡胶热力化损伤行为及其对密封性能影响研究

[5] 新疆油田采油工艺技术研究院：超深井井下管柱腐蚀评价

[6] 新疆油田采油工艺技术研究院：缓蚀剂、封堵剂评价辅助实验服务

[7] 新疆油田采油工艺技术研究院：CO₂驱气水交替注入地面防腐和防冻措施研究

[8] 新疆油田采油工艺技术研究院：CO₂驱复杂环境动态防腐防垢技术研究

[9] 国家管网研究总院：成品油管道顺序输送石脑油、轻质燃料油管材腐蚀影响实验测试项目

[10] 中石油工程材料技术研究院：超深井开采工况下油管柱流固耦合颠振相似试验

[11] 新疆东方希望有色金属公司：准电锅炉四管取样及失效分析服务

[12] 西南油气田天然气研究院：高含硫气田地面管线焊缝缺陷测

[13] 克拉玛依市科能防腐技术有限公司：油田CO₂驱回注井管柱腐蚀与防护技术研究

代表性论文

[1] Dong B, Liu W, Zhang T, et al. Clarifying a small amount of Cr content on the corrosion of Ni-Mo steel in tropical marine atmospheric environment[J]. Corrosion Science. 2023, 210, 110813.

[2] Dong B, Liu W, Chen L, et al. Unraveling the effect of chloride ion on the corrosion product film of Cr-Ni- containing steel in tropical marine atmospheric environment[J]. Corrosion Science. 2022, 209, 110741.

[3] Dong B, Liu W, Zhang T, et al. Optimize Ni, Cu, Mo element of low Cr-steel rebars in tropical marine atmosphere environment through two years of corrosion monitoring[J]. Cement and Concrete Composites.2022, 125: 104317.

[4] Dong B, Zeng D, Yu Z, et al. Major corrosion influence factors analysis in the production well of CO₂ flooding and the optimization of relative anti-corrosion measures[J]. Journal of Petroleum Science and Engineering, 2021, 200: 108052.

[5] Zeng D, Dong B*, Yu Z, et al. Design of water-based annulus protection fluid for CO₂ flooding injection well[J]. Journal of Petroleum Science and Engineering, 2021, 205: 108726.

[6] Zeng D, Dong B*, Zhang S, et al. Annular corrosion risk analysis of gas injection in CO₂ flooding and development of oil-based annulus protection fluid[J]. Journal of Petroleum Science and Engineering, 2021, 208: 109526.

[7] Zeng D, Dong B*, Qi Y, et al. On how CO₂ partial pressure on corrosion of HNBR rubber O-ring in CO₂–H₂S–CH₄ environment[J]. International Journal of Hydrogen Energy, 2021, 46(11): 8300-8316.

[8] Dong B, Liu W, Cheng L, et al. Investigation on mechanical properties and corrosion behavior of rubber for packer in CO₂-H₂S gas well[J]. Engineering Failure Analysis, 2021: 105364.

[9] Dong B, Liu W, Cheng L, et al. Corrosion failure analysis of Low alloy steel and carbon steel rebar in tropical marine atmospheric environment: outdoor exposure and indoor test [J]. Engineering Failure Analysis, 2021: 105720.

[10] Zeng D, Dong B*, Zeng F, et al. Analysis of corrosion failure and materials selection for CO₂–H₂S gas well[J]. Journal of Natural Gas Science and Engineering, 2021, 86: 103734.

[11] Zeng D, Liu Z, Dong B*, et al. Optimizing the performance of a composite corrosion/scale inhibitor for CO₂ flooding well. Journal of Natural Gas Science and Engineering, 2022, 102: 104555.

[12] Dong B, Liu W, Zhang Y, et al. Comparison of the characteristics of corrosion scales covering 3Cr steel and X60 steel in CO₂-H₂S coexistence environment[J]. Journal of Natural Gas Science and Engineering, 2020, 80: 103371.

[13] Dong B, Chen L, Liu W, et al. Failure analysis of corrosion products formed during CO₂ pre-corrosion of X70 and 3Cr steels: Effect of oxygen contation[J]. Engineering Failure Analysis, 2022, 140: 106529.

[14] Dong B, Zeng D, Yu Z, et al, Role of polyacrylamide concentration on corrosion behavior of N80 steel in the HPAM/H₂S/CO₂ environment[J]. Materials and Corrosion, 2020, 71(4): 526-536. (Cover article)

[15] Dong B, Zeng D, Yu Z, et al, Corrosion mechanism and applicability assessment of N80 and 9Cr steels in CO₂ auxiliary steam drive[J]. Journal of Materials Engineering and Performance, 2019, 28(2): 1030-1039.

[16] Dong B, Zeng D, Yu Z, et al, Effects of heat-stable salts on the corrosion behaviours of 20 steel in the MDEA/H₂S/CO₂ environment[J]. Corrosion Engineering Science and Technology, 2019, 54(4): 339-352.

[17] Dong B, Zeng D, Favero C, et al. Insight into polymer concentration, temperature, CO₂ content, and Cl- content on corrosion of N80 steel tubing in polymer flooding[J]. Materials and Corrosion, 2023, 74(6): 943-961.

[18] Dong B, Liu W, Wu F, et al. Determination of critical salinity of pitting and uniform corrosion of X60 under CO₂-O₂ coexistence environment [J]. Anti-Corrosion Methods and Materials, 2020, 67(2): 166-177.

主要成果（专利及奖励等）

[1] 董宝军, 李灿, 梁宇豪, 等. 二氧化碳点蚀自主识别装置及检测方法: 202511054799.7，发明，授权

[2] 董宝军, 梁宇豪，邢晓凯，等. 碳钢CO₂ 腐蚀产物膜孔隙度预测方法、装置、电子设备及存储介质：202511258256.7，发明，授权

[3] 董宝军, 梁宇豪，邢晓凯，等. 碳钢点蚀坑生长方向预测方法、装置、电子设备及存储介质：202511260084.7，发明，授权

[4] 董宝军, 梁宇豪, 熊小琴，等. 油管金属镀层劣化程度预测方法、装置及电子设备：202511017200.2，发明，实质性审查

[5] 董宝军, 翟俊豪, 吴婷婷，等. 基于熵权分析法的保温层下不锈钢管道腐蚀风险评估方法、装置、电子设备及存储介质：202511017195.5，发明， 实质性审查

[6] 董宝军, 赵世杰，熊小琴，等.油气管道缓蚀剂涂膜有效区域及厚度测定方法、装置：202511017194.0，发明，实质性审查

[7] 中国石油和化工自动化应用协会科技进步二等奖，高含硫天然气净化厂装置腐蚀控制关键技术与规模化应用，2021.

[8] 中国石油和化工自动化应用协会科技进步二等奖，顺北超深酸性油气井井筒腐蚀防护关键技术及应用，2022.

[9] 新疆维吾尔自治区科技进步三等奖，复杂服役环境承压装备在线智能检测与安全评价关键技术及应用，2025

联系方式

E-mail：dongbaojuncorr@cupk.edu.cn

办公电话：15299990163