[1]张万栋,张超,吴江,等.南海高温高压含CO2气井超级13CrS油管柱耐磨损性能测试[J].石油管材与仪器,2018,4(03):22-26.[doi:10.19459/j.cnki.61-1500/te.2018.03.006]
             ZHANG Wandong,WU Jiang,ZHANG Chao,et al.Wear Resistance Test of Super 13CrS Tubing String in High Temperature and High Pressure Gas Well with CO2 in South China Sea[J].Petroleum Tubular Goods & Instruments,2018,4(03):22-26.[doi:10.19459/j.cnki.61-1500/te.2018.03.006]
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            南海高温高压含CO2气井超级13CrS油管柱耐磨损性能测试
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            《石油管材与仪器》[ISSN:2096-0077/CN:61-1500/TE]

            卷:
            4
            期数:
            2018年03期
            页码:
            22-26
            栏目:
            试验研究
            出版日期:
            2018-06-20

            文章信息/Info

            Title:
            Wear Resistance Test of Super 13CrS Tubing String in High Temperature and High Pressure Gas Well with CO2 in South China Sea
            文章编号:
            2096-0077(2018)03-0022-05
            作者:
            张万栋1张超1吴江1杨玉豪1丁剑2
            1.中海石油有限公司湛江分公司 广东 湛江 524057;2.西南石油大学油气藏地质及开发工程国家重点实验室 四川 成都 610500
            Author(s):
            ZHANG Wandong1 WU Jiang1 ZHANG Chao1 YANG Yuhao1 DING Jian2
            1.Zhanjiang Branch of CNOOC Ltd., Zhanjiang, Guangdong 524057, China; 2. State Key Laboratory for Oil & Gas Reservoir Geology and Exploitation, Southwest Petroleum University, Chengdu, Sichuan 610500, China
            关键词:
            13CrS油管13Cr油管磨损高温高压耐磨性
            Keywords:
            13CrS tubing 13Cr tubing wear high temperature and high pressure wear resistance
            分类号:
            TE931
            DOI:
            10.19459/j.cnki.61-1500/te.2018.03.006
            ?#21335;?#26631;志码:
            A
            摘要:
            针对南海高温高压含CO2气井油管在深井及超深井服役过程中的偏磨问题,模拟现场工况开展了大量油管磨损试验。使用自制磨损机,在常温常压下条件下,采用三种现场完井液及清水介质,施加三种不同侧向力,对以13CrS为主的两种不同材质及强度的油管材料进行磨损试验。试验结果表明,在含完井液的介质环境中,完井液能够有效保护油管,降低油管的磨损,其中完井液A减磨效果最好,达到80%~90%;在四种液体介质中,油管累计磨损量随着侧向力增加而增加,呈现出正比关系,且油管累计磨损量增加速?#35797;?#30952;损初期不断增大,而后逐渐减小变缓趋于稳定;在两种油管材料中,13CrS-110油管材料累计磨损量最低,耐磨性能最好。
            Abstract:
            Aiming at the problem of partial wear of high temperature and high pressure CO2 gas well tubing in the South China Sea during service in deep well and ultra deep well, a large number of tubing wear tests were carried out under simulated field conditions. Under normal temperature and atmospheric pressure, the wear of two different brand materials were tested in three different completion fluids and clean water by using the selfmade wear machine. It focused on the performance of 13CrS materials in three different lateral force. The results show that the completion fluid can effectively protect the tubing and reduce the wear of the tubing, in which the completion fluid A has the best reduction effect, reaching 80%~90%. The trend of cumulative wear volume is that the tubing wear increases with the increase of lateral force, showing a linear relationship, and the cumulative wear rate increases with the time in the initial stage of wear, then gradually decreases, and becomes stable. Among the two kinds of oil pipe materials, the cumulative wear of A brand 13CrS110 oil pipe is the lowest. Therefore, the wear resistance of A brand 13CrS110 oil pipe is the best.

            参考?#21335;?References:

            [1] 张智,李炎军,张超,等. 高温含CO2气井的井筒完整性设计[J]. 天然气工业, 2013, 33(9):79-86.
            [2] JULIAN J Y, MCLELLAN B J, MCNERLIN B J, et al. 16Cr Coiled-Tubing Field Trial at Prudhoe Bay, Alaska[C]. SPE/ICoTA Coiled Tubing and Well Intervention Conference and Exhibition. Society of Petroleum Engineers, 2007.
            [3] 张智,何雨,王一婷,等. 含硫气井井筒完整性风险评价研究[J]. 中国安全生产科学技术, 2017,13(4): 101-107.
            [4] XUAN V H, ANH T N. Investigation on the Wear of Well-Tubing in the Oil Exploitation[C]. World Tribology Congress III. 2005:171-172.
            [5] TING J Y, KUI S W. Effect of Produced Fluid on the Wear Behavior of Grade D Sucker Rod and N80 Type Tubing[J]. 石油科学(英文版), 2005,2(2):116-118.
            [6] 张福祥,杨向同,钱智超,等. 超级13Cr油管在P110套管中往复磨损实验研究[J]. 科学技术与工程, 2014 (36): 189-193.
            [7] 马文海,钱智超,李臻,等. 超级13Cr油管在不同材料套管中磨损对比实验[J]. 石油机械, 2014, 42(11): 159-162.
            [8] 马尚余,邓宽海,刘婉?#20445;?#31561;. 油管磨损量的实验研究及预测[J]. 油气田地面工程, 2016, 35(3): 23-26.
            [9] 林冠发,仝明信,白真权,等. 两种油套管钢在两相流中的腐蚀磨损特性研究[J]. 摩擦学学报. 2006,26(1): 88-91.
            [10] 姚小飞,谢发勤,韩勇,等. TC4合金和P110油管钢摩擦磨损性能的比较[J]. 稀有金属材料与工程, 2012, 41(9): 1539-1543.
            [11] 王毅飞,谢发勤,姚小飞,等. P110油管钢表面镀Cu与镀Ni-P摩擦磨损性能的比较[J]. 摩擦学学报, 2012, 32(1):64-69.
            [12] 江民涛,郑典模,王丁. 磨损、解决磨损的方法及耐磨材?#29486;?#36848;[J]. 江西科学, 2007, 25(4):494-499.

            备注/Memo

            备注/Memo:
            第一作者简介:张万栋,男,1985年生,助理工程师,2008年毕业于吉林大学工程力学专业,获学士学位,现主要从事海洋钻井方面的研究和管理工作。E-mail:[email protected]
            更新日期/Last Update: 2018-06-25
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