个人简历

程小伟

 

    职        务:     教研室主任    

    职        称:     教授     
    博导/硕导:     博导     
    所属 部门:     材料科学与工程教研室

    学科 专业:     材料科学与工程     
    研究 方向:     先进固井胶凝材料    
    联系 方式:   chengxw@swpu.edu.cn;028-83037437

个人简历

博士,教授,博士生导师,四川省学术和技术带头人后备人选,四川省高校油气田材料重点实验室主任,中国水泥协会特种水泥分会副理事长,西南石油大学先进固井材料研究中心负责人,澳大利亚莫纳什大学访问学者,材料科学与工程专业学科建设负责人。

目前正在主持和参与国家科技部重点研发计划课题、四川省重点研发计划和多项企业合作项目84项。

在Cement and Concrete Research、Corrosion Science等期刊发表学术论文93篇;授权国内外发明专利42件,出版专著4部;参与制定石油天然气行业标准2项;获省部级等科研奖励12项。

主要研究领域

1、先进固井胶凝复合材料研究与应用

2、新型特种胶凝材料的研究

3、复杂工况下水泥环力学完整研究

4、有机/无机改性材料在固井工程应用研究

代表性成果

1、代表性项目

(1)耐蚀高韧性固井水泥基材料关键技术研究与应用,国家重点研发计划子课题,负责人

(2)H2S和CO2气体对水泥石腐蚀机理及评价方法研究,国家科技重大专项项目子课题,负责人

(3)硅酸盐-磷铝酸盐水泥水化产物与其在高酸性环境下的腐蚀行为研究,高等学校博士学科点专项科研基金,负责人

(4)页岩气水平井固井用原位增韧水泥研究与应用,四川省科技厅,四川省区域创新项目,负责人

(5)超临界CO2压裂页岩环境下固井水泥石损伤与自修复研究,四川省科技厅,四川省区域创新项目,负责人

(6)等离子体改性纤维制备堵漏水泥浆的研究,油气藏地质及开发工程国家重点实验室开放基金,负责人

(7)超深尾管固井水泥浆抗污染技术研究,中国石油天然气股份有限公司西南油气田项目,负责人

(8)井下应力-腐蚀耦合工况下固井质量评价及保障技术,中海石油北京研究中心项目,负责人

(9)文昌油田群复杂大位移井井筒完整性评价,中海石油北京研究中心项目,负责人

(10)渤中25-1油田天然气/CO2驱对水泥环腐蚀特性研究,中海石油北京研究中心项目,负责人

(11)减重水泥浆核心外加剂及体系研究,中国石油渤海钻探工程有限公司项目,负责人

(12)负温固井水泥浆体系研发,中国石油渤海钻探工程有限公司第一固井分公司项目,负责人

(13)固井隔离液技术服务,中国石油天然气股份有限公司西南油气田项目,负责人


2、代表性论文

(1)何敏会, 姚明, 闫宇博, 梅开元, 程小伟. ZnFe-LDHs 型固井水泥H2S 防腐剂制备及性能评价. 钻井液与完井液, 2024, 41(3): 364-373.

(2)Ting Xie, Hongbo Zhang, Yunfei Bai, Kaiyuan Mei, Yijie Zheng, Chunmei Zhang, Xiaowei Cheng. Study on the effect of CO2-responsive hydrogel prepared by free radical polymerization on the self-healing of cement paste fractures: application in CCUS cementing. Construction and Building Materials, 2024, 435: 136651.

(3)Tingcong Wei, Jianzhuang Xiao*, Xiaowei Cheng*, Peng Gong, Kaiyuan Mei, Zhengmeng Hou, Xuning Wu. Improving the mechanical properties of cement-based materials under high temperature: Reducing the C3S/C2S ratio. Construction and Building Materials, 2024, 421: 135741.

(4)Peng Gong, Huacai Fu, Dan He, Yuanpeng Wu, Kaiyuan Mei, Chunmei Zhang, Xin He, Tao Liu, Shangdong Li, Xiaowei Cheng*. Novel material to enhance the integrity of CCUS cement sheath: Exploration and application of calcium aluminate cement. Gas Science and Engineering, 2024, 124: 205247.

(5)龚鹏, 程小伟, 武治强, 张高寅, 张春梅. 碳酸钙晶须对CO2诱导固井水泥石裂缝自愈合的影响研究. 材料导报, 2023, 37(7): 21100107.

(6)苏晓悦, 刘平江, 张晔, 田宝振, 高飞, 梅开元, 程小伟. 超细石墨复合改性水泥石的导热性能. 中国粉体技术, 2023, 29(6): 61-71.

(7)Peng Gong, Qiang Ren, Song Peng, Kaiyuan Mei, Chunmei Zhang, Yuanpeng Wu, Xiaowei Cheng. Influence of graphene oxide on the self-healing of cement paste fractures in CCUS cementing: A combined analysis of experiments and molecular dynamics simulations. Construction and Building Material, 2023,.304:.133067.

(8)Jingxuan Cai, Jinghong Zhou, Cheng Liu, Kaiyuan Mei, Chunmei Zhang, Xiaowei Cheng*. Microencapsulated phase change material-cement composites for cementing the natural gas hydrate layer. Construction and Building Materials, 2023, 399: 132591.

(9)Xi Guan, Fuyun Wang, Qiang Ren, Youzhi Zheng, Kai yuan Mei*, Chunmei Zhang, Xiaowei Cheng*. Preparation and mechanism of tartaric acid-intercalated hydrotalcite retarder for oil-well cement. Construction and Building Materials, 2023, 399: 132580.

(10)孙夏兰, 任强, 吴坷, 黄坤, 梅开元, 张高寅, 程小伟. 丁腈橡胶颗粒油井水泥石抗冲击力学性能与损伤特征. 钻井液与完井液, 2023, 40(2): 241-250, 258.

(11)赵昆鹏, 王涛, 郭春, 罗阳利, 韦庭丛, 梅开元, 张春梅, 赵峰, 程小伟. 高温下赤泥与硅粉协同强化固井水泥石力学性能. 中国粉体技术, 2023, 29(2): 74-80.

(12)Tianpeng Zuo,Sheng Huang,Chunmei Zhang,Tao Gu,Kaiqiang Liu,Xiaowei Cheng. Preparation of sustained-release-type citric-acid-intercalated hydrotalcite and its application in oil-well cement. Advances in Cement Research. 2023, 35(9): 419-431.

(13)Wenyang Zhang, Yong Ma, Ruoyu Yang, Youzhi Zheng, Chunmei Zhang, Kaiyuan Mei, Xiaowei Cheng*. Effects of ethylene diamine tetraacetic acid and calcium nitrate on high-temperature cementing slurry in a large temperature difference environment. Construction and Building Materials, 2023, 368: 130387.

(14)高强, 梅开元, 王德坤, 张力为, 张春梅, 程小伟. CCUS 环境下水泥单矿C3S 的CO2腐蚀动力学研究. 硅酸盐通报, 2022, 41(8): 2644-2652.

(15)罗敏, 黄盛, 何旭晟, 李早元, 程小伟*. 耐200 °C固井水泥用悬浮剂的制备与性能表征. 钻井液与完井液, 2022, 39(4): 473-481.

(16)Gaoyin Zhang, Dan Long, Weining Xu, Xiaowei Cheng, Sheng Huang, Chunmei Zhang, Ming Zhou, Kaiyuan Mei, Liwei Zhang. Elucidating the mechanical property-enhancement mechanism of ferrite in oil-well cement using spherical ferrite. Cement and Concrete Research, 2022, 161: 106950.

(17)何瑀婷, 赵殊勋, 高启轩, 李明泽, 吕宝玉, 左天鹏, 郑怡杰, 程小伟. 镶嵌屏蔽钻井液滤饼对固井二界面胶结质量的影响与提高措施. 钻井液与完井液, 2022, 39(3): 227-233.

(18)Tingcong Wei, Fengqi Wei, Jinghong Zhou, Zhiqiang Wu, Chunmei Zhang, Jia Zhuang, Xiaowei Cheng*. Formation and strengthening mechanisms of xonotlite in C3S-silica and C2S-silica powder systems under high temperature and pressure. Cement and Concrete Research, 2022, 157: 106812.

(19)左天鹏, 程小伟*, 吴昊, 刘芃, 张春梅, 黄盛. 一种长封固段固井用缓凝剂的制备及性能评价. 精细化工, 2022, 39(3): 618-626.

(20)Gaoyin Zhang, Feng Zhao, Xiaowei Cheng*, Sheng Huang, Chunmei Zhang, Ming Zhou*, Kaiyuan Mei, Liwei Zhang. Resource utilization from solid waste originated from oil-based shale drilling cutting during shale gas development. Chemosphere, 2022, 298: 134318.

(21)Peng Gong, Chunmei Zhang, Zhiqiang Wu, Gaoying Zhang, Kaiyuan Mei, Qiang Gao, Xiaowei Cheng*. Study on the effect of CaCO3 whiskers on carbonized self-healing cracks of cement paste: Application in CCUS cementing. Construction and Building Materials, 2022, 321: 126368.

(22)倪修成, 程小伟, 黎俊吾, 王晶, 高显束, 张高寅, 张春梅, 刘开强. 新型油井水泥物相组成调控及力学性能研究. 硅酸盐通报, 2021, 40(8): 2534-2545.

(23)Gaoyin Zhang, Zhiqiang Wu, Xiaowei Cheng*, Xialan Sun, Chunmei Zhang, Ming Zhou*. Mechanical properties of high-ferrite oil-well cement used in shale gas horizontal wells under various loads. Construction and Building Materials, 2022, 319: 126067.

(24)Jin Li, Chunmei Zhang, Zhiqiang Wu, Gaoyin Zhang, Qiang Gao, Kaiqiang Liu, Xiaowei Cheng*. Can low hydration heat cement prevent the decomposition of natural gas hydrate under high pressure and low temperature? Journal of Natural Gas Science and Engineering. 2022, 97: 104347.

(25)Tingcong Wei, Xiaowei Cheng*, Huiting Liu, Hua Zhang, Liwei Zhang, Kaiyuan Mei, Chunmei Zhang, Kaiqiang Liu, Jia Zhuang*. Crystallization of tricalcium silicate blended with different silica powder dosages at high temperature. Construction and Building Materials, 2022, 316: 125884.

(26)Jingxuan Cai, Chunmei Zhang*, Li Zeng, Hao Xu, Jia Wang, Kaiqiang Liu, Xiaowei Cheng*. Preparation and action mechanism of temperature control materials for low-temperature cement. Construction and Building Materials, 2021, 312: 125364.

(27)Xiaowei Cheng*, Zuwei Chen, Tao Gu, Lingjia Zeng, Lin Yao, Zhouyang Chen, Kun Huang, Zhanwu Zhang, Chunmei Zhang, Kaiqiang Liu, Sheng Huang*. Study on the dynamic and static mechanical properties of microsphere rubber powder reinforced oil well cement composites. Construction and Building Materials, 2021, 309: 125145.

(28)Yan Wang, Sinan Liu, Liwei Zhang*, Manguang Gan, Xiuxiu Miao, Ning Wei, Xiaowei Cheng, Hejuan Liu, Xiaochun Li, Jun Li. Evidence of self-sealing in wellbore cement under geologic CO2 storage conditions by micro-computed tomography (CT), scanning electron microscopy (SEM) and Raman observations. Applied Geochemistry, 2021, 128: 104937.

(29)Tingcong Wei, Xiaowei Cheng*, Tao Gu, Sheng Huang, Chunmei Zhang, Jia Zhuang*, Youzhi Zheng. The change and influence mechanism of the mechanical properties of tricalcium silicate hardening at high temperature. Construction and Building Materials, 2021, 308: 125065.

(30)Yang Yu, Chunmei Zhang*, Tao Gu, Weining Xu, Jiaying Zhang, Gaoyin Zhang, Sheng Huang, Kaiqiang Liu, Xiaowei Cheng*. Synthesis and evaluation of a new type of oil-well cement temperature-resistant retarder. Construction and Building Materials, 2021, 302: 124153.

(31)程小伟, 陈祖伟, 李雨威, 张曲, 王福云, 郑友志, 黄盛, 张春梅, 刘开强. 等离子体改性纤维增强油井水泥石的动态破坏规律. 硅酸盐学报, 2021, 49(5): 964-971.

(32)程小伟, 余杨, 张曲, 黄坤, 张军, 谢盛, 张高寅, 张春梅, 黄盛, 刘开强. 新型螯合物型缓凝剂的合成与性能研究. 硅酸盐通报, 2020, 39(11): 3683-3690.

(33)Xiaowei Cheng*, Xuezheng Yang, Chi Zhang, Xianshu Gao, Yongjin Yu, Kaiyuan Mei, Xiaoyang Guo, Chunmei Zhang. Effect of red mud addition on oil well cement at high temperatures. Advances in Cement Research, 2021, 33(1): 28-38.

(34)Kaiyuan Mei, Tao Gu, Youzhi Zheng, Liwei Zhang, Feng Zhao, Peng Gong, Sheng Huang, Chunmei Zhang, Xiaowei Cheng*. Effectiveness and microstructure change of alkali-activated materials during accelerated carbonation curing. Construction and Building Materials, 2021, 274: 122063.

(35)程小伟, 赵 峰, 梅开元, 郑友志, 张春梅, 郭小阳. 碱激活矿渣地聚物早期水化与碳化耦合作用过程研究. 硅酸盐通报, 2020,39(3): 826-831.

(36)Kaiyuan Mei, Xiaowei Cheng*, Tao Gu, Youzhi Zheng, Peng Gong, Bin Li, Chunmei Zhang, Liwei Zhang, Bibo Dai. Effects of Fe and Al ions during hydrogen sulphide (H2S)-induced corrosion of tetracalcium aluminoferrite (C4AF) and tricalcium aluminate (C3A). Journal of Hazardous Materials, 2021, 403: 123928.

(37)Gaoyin Zhang, Qiang Ren, Jianyong He, Shiwei Jiang, Xiaowei Cheng⁎, Yang Yu, Sheng Huang, Chunmei Zhang, Ming Zhou. New understanding of early hydration of C4AF under surface vitrification. Powder Technology, 2021, 377: 372-378.

(38)Chunmei Zhang, Jingxuan Cai, Hao Xu, Xiaowei Cheng*, Xiaoyang Guo. Mechanical properties and mechanism of wollastonite fibers reinforced oil well cement. Construction and Building Materials, 2020, 260: 120461.

(39)Kaiqiang Liu,Xiaowei Cheng*,Yong Ma,Xianshu Gao,Yongjin Yu,Chunmei Zhang,Xiaoyang Guo,Jia Zhuang. Visualization and quantification of pore structure of oil-well cement slurry in liquid-solid transition stage using high-resolution computed tomography. Cement and Concrete Composites, 2020, 111: 103633.

(40)Chunmei Zhang, Jingxuan Cai, Xiaowei Cheng*, Xingguo Zhang, Xiaoyang Guo, Yuntao Li. Interface and crack propagation of cement-based composites with sulfonated asphalt and plasma-treated rock asphalt. Construction and Building Materials, 2020, 242: 118161.

(41)Kaiqiang Liu,Xiaowei Cheng*,Yong Ma,Xianshu Gao,Chunmei Zhang,Zaoyuan Li,Jia Zhuang. Analysis of Interfacial Nanostructure and Interaction Mechanisms between Cellulose Fibres and Calcium Silicate Hydrates Using Experimental and Molecular Dynamics Simulation Data. Applied Surface Science, 2020, 506: 144914.

(42)Kaiyuan Mei, Xiaowei Cheng*, Yi Pu, Yong Ma, Xianshu Gao, Yongjin Yu, Chunmei Zhang, Jia Zhuang*, Xiaoyang Guo. Evolution of silicate structure during corrosion of tricalcium silicate (C3S) and dicalcium silicate (C2S) with hydrogen sulphide (H2S). Corrosion Science, 2020, 163: 108301.

(43)程小伟, 张高寅, 马志超, 李斌, 辜涛. 页岩气水平井油井水泥的原位增韧技术研究. 西南石油大学学报(自然科学版), 2019, 41(6): 68-74.

(44)Xiaowei Cheng*, Qingguang Dong, Zaoyuan Li, Xiaoyang Guo. High-temperature mechanical properties of calcium sulfate whisker-reinforced high-alumina cement. Magazine of Concrete Research, 2020, 72(2): 55-67.

(45)Kaiqiang Liu, Xiaowei Cheng*, Jingxue Li, Xianshu Gao, Yan Cao, Xiaoyang Guo,Jia Zhuang,**, Chunmei Zhang. Effects of microstructure and pore water on electrical conductivity of cement slurry during early hydration. Composites Part B. 2019, 177: 107435.

(46)ShengHuang, Xiaowei Cheng, Xiaoyang Guo, Yu Shi, Wei Wang. Ethanol plasma-induced polymerization of carbon fiber surface for improving mechanical properties of carbon fiber-reinforced lightweight oil well cement. Applied Surface Science, 2019, 497: 143765.

(47)Kaiyuan Mei, Xiaowei Cheng*, Liwei Zhang, Xiaoyang Guo, Jia Zhuang*, Chi Zhang. Self-healing mechanism of Zn-enhanced cement stone: An application for sour natural gas field. Construction and Building Materials, 2019, 227: 116651.

(48)Xiaowei Cheng, Qingguang Dong, YongMa, Chi Zhang, Xianshu Gao, Yongjin Yu, Zhaijun Wen, Chunmei Zhang, Xiaoyang Guo. Mechanical and thermal properties of aluminate cement paste with blast furnace slag at high temperatures. Construction and Building Materials, 2019, 228: 116747.

(49)程小伟, 秦丹, 赵殊勋, 林志辉, 张弛, 高显束, 于永金, 陈祖伟, 张春梅, 李早元, 郭小阳. 动态冲击下纤维素固井水泥石力学性能及增韧机理研究. 硅酸盐通报, 2019,38(6): 1918-1928.

(50)Xiaowei Cheng, Yongsheng Yang, Chunmei Zhang, Zaoyuan Li, Xiaoyang Guo. Cement reinforcing and toughening agent microcrystalline brownmillerite preparation and hydration. Advances in Cement Research, 2019, 31(7): 319-330.

(51)Xiaowei Cheng, Dan Long, Chi Zhang, Xianshu Gao, Yongjin Yu, Kaiyuan Meia, Chunmei Zhang, Xiaoyang Guo, Zuwei Chen. Utilization of red mud, slag and waste drilling fluid for the synthesis of slag-red mud cementitious material. Journal of Cleaner Production, 2019, 238(11): 117902.

(52)Xiaowei Cheng, Dan Qin, Zuwei Chen, Yi Pu, Zhenyu Han, Diyuan Li, Xianshu Gao, Jing Wang, Chunmei Zhang Kaiqiang Liu. Mechanical response and crack propagation of oil well cement under dynamic and static loads. Journal of Adhesion Science and Technology, 2019, 33(15): 1658-1675.

(53)Kaiqiang Liu, Xiaowei Cheng⁎, Xianshu Gao, Xingguo Zhang, Xiaoyang Guo, Jia Zhuang⁎. Effect of the hydration rate and microstructure of Portland cement slurry on hydrostatic pressure transfer. Powder Technology, 2019, 352: 251-261.

(54)Kaiqiang Liu, Xiaowei Cheng*, Chi Zhang, Xianshu Gao, Jia Zhuang, Xiaoyang Guo. Evolution of pore structure of oil well cement slurry in suspension-solid transition stage. Construction and Building Materials. 2019, 214: 382-398.

(55)Kaiyuan Mei, Xiaowei Cheng, Hua Zhang, Yongjin Yu, Xianshu Gao, Feng Zhao, Jia Zhuang, Xiaoyang Guo. The coupled reaction and crystal growth mechanism of tricalcium silicate (C3S): An experimental study for carbon dioxide. Construction and Building Materials, 2018, 187: 1286-1294.

(56)Kaiqiang Liu,Xiaowei Cheng*,Xingguo Zhang,Xiaoyang Guo,Jia Zhuang. Design of low-density cement optimized by cellulose-based fibre for oil and natural gas wells. Powder Technology, 2018, 338: 506-518.

(57)Xiaowei Cheng, Morteza Khorami, Yu Shi, Kaiqiang, Liu, Xiaoyang Guo, Stephen Austin, Messaoud Saidani. A new approach to improve mechanical properties and durability of low-density oil well cement composite reinforced by cellulose fibres in microstructural scale. Construction and Building Materials, 2018, 177: 499-510.

(58)Kaiqiang Liu, Xiaowei Cheng*, Xingguo Zhang, Zaoyuan Li, Jia Zhuang, Xiaoyang Guo. Relationship Between the Microstructure/Pore Structure of Oil-Well Cement and Hydrostatic Pressure. Transport in Porous Media, 2018, 124(2): 463-478.

(59)Xiaowei Cheng, Kaiqiang Liu, Xingguo Zhang, Zaoyuan Li, Xiaoyang, Guo. Integrity changes of cement sheath due to contamination by drilling fluid. Advance in Cement Research, 2018, 30(02):47-55.


3、代表性专利

(1)用于控制水泥水化热的低温固井微胶囊的制备方法,美国专利,US11786880B2,2023.10.17

(2)利用溶胶-凝胶法制备金属-螯合物型缓凝剂的工艺,美国专利,US11603488B2,2023.03.14

(3)油基页岩钻井岩屑制备的油井水泥浆高温悬浮稳定剂,美国专利,US11345844B2,2022.05.31

(4)用赤泥、矿渣和废钻井液配制固井工作液,美国专利,US10975284B2,2021.04.13

(5)动载荷作用下固井第一、第二胶结面断裂强度评价方法,美国专利,US10876945B2, 2020.01.09

(6)一种油井水泥膨胀剂的制备方法,俄罗斯专利,RU2820663C1,2024.06.07

(7)用于水泥石微裂缝自修复的CO2响应性凝胶材料的制备方法,俄罗斯专利,RU2812747C1, 2024.01.02

(8)一种用于井眼固井的缓释缓凝剂的制造方法,俄罗斯专利,RU2786170C1,2022.12.19

(9)水泥浆/钻井液水化热影响天然气水合物稳定性测试装置,俄罗斯专利,RU2770639C1, 2022.04.19

(10)一种固井水泥浆侯凝过程中金属套管变形量测试装置,俄罗斯专利,RU2766992C1,2022.03.16

(11)一种用于固井的导热水泥浆的制备方法,发明专利,ZL202211468526.3

(12)一种油井水泥膨胀剂的制备方法,发明专利,ZL202211203119.X

(13)一种固井用缓释型缓凝剂的制备方法,发明专利,ZL202010996558.5

(14)一种固井水泥浆侯凝过程中金属套管变形量测试装置,发明专利,ZL202110224439.2

(15)水泥浆/钻井液水化热影响天然气水合物稳定性测试装置,发明专利,ZL202010937763.4

(16)一种利用油基页岩钻屑制备的油井水泥浆高温悬浮稳定剂,发明专利,ZL201910507276.1

(17)一种固井水泥石外源性自修复材料修复能力评价装置及评价方法,发明专利,ZL201910507276.1

(18)油井水泥第一胶结面的胶结强度测试方法,发明专利,ZL201811296632.1

(19)一种轻质高强混凝土材料及其制备方法,发明专利,ZL201810009104.7

(20)一种高强透水混凝土材料及其制备方法,发明专利,ZL201810008630.1

(21)一种利用赤泥制备微晶铁铝酸钙的方法,发明专利,ZL201611217114.7

(22)一种废弃钻井液与钻屑制备的固井工作液体系,发明专利,ZL201610454959.1

(23)高温高压下动态钻井液泥饼模拟评价仪,发明专利,ZL201610454934.1

(24)一种内源型增韧耐蚀水泥浆体系,发明专利,ZL201610352000.7

(25)一种铁铝酸钙的制备方法,发明专利,ZL201610109264.X

(26)一种防硫化氢腐蚀的油井水泥外加剂的制备方法,发明专利,ZL201410755763.7

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4、省部级奖励

(1)2023年获中国材料研究学会技术发明二等奖

(2)2021年获中国材料研究学会技术发明二等奖

(3)2020年获四川省人民政府科技进步二等奖

(4)2020年获中国材料研究学会技术发明二等奖

(5)2020年中国石油和化工自动化应用协会科技进步二等奖

(6)2019年湖北省人民政府科技进步二等奖

(7)2018年中国产学研合作促进会创新成果一等奖

(8)2013年四川省人民政府科学技术进步三等奖

(9)2017年复杂油气藏固井液技术研究与应用,科学出版社

(10)2023年油气井水泥生产与应用,石油工业出版社

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