[1]張萬棟,張超,吳江,等.南海高溫高壓含CO2氣井超級13CrS油管柱耐磨損性能測試[J].石油管材與儀器,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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            南海高溫高壓含CO2氣井超級13CrS油管柱耐磨損性能測試
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            《石油管材與儀器》[ISSN:2096-0077/CN:61-1500/TE]

            卷:
            4
            期數:
            2018年03期
            頁碼:
            22-26
            欄目:
            試驗研究
            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
            文章編號:
            2096-0077(2018)03-0022-05
            作者:
            張萬棟1張超1吳江1楊玉豪1丁劍2
            1.中海石油有限公司湛江分公司 廣東 湛江 524057;2.西南石油大學油氣藏地質及開發工程國家重點實驗室 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
            關鍵詞:
            13CrS油管13Cr油管磨損高溫高壓耐磨性
            Keywords:
            13CrS tubing 13Cr tubing wear high temperature and high pressure wear resistance
            分類號:
            TE931
            DOI:
            10.19459/j.cnki.61-1500/te.2018.03.006
            文獻標志碼:
            A
            摘要:
            針對南海高溫高壓含CO2氣井油管在深井及超深井服役過程中的偏磨問題,模擬現場工況開展了大量油管磨損試驗。使用自制磨損機,在常溫常壓下條件下,采用三種現場完井液及清水介質,施加三種不同側向力,對以13CrS為主的兩種不同材質及強度的油管材料進行磨損試驗。試驗結果表明,在含完井液的介質環境中,完井液能夠有效保護油管,降低油管的磨損,其中完井液A減磨效果最好,達到80%~90%;在四種液體介質中,油管累計磨損量隨著側向力增加而增加,呈現出正比關系,且油管累計磨損量增加速率在磨損初期不斷增大,而后逐漸減小變緩趨于穩定;在兩種油管材料中,13CrS-110油管材料累計磨損量最低,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.

            參考文獻/References:

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            備注/Memo

            備注/Memo:
            第一作者簡介:張萬棟,男,1985年生,助理工程師,2008年畢業于吉林大學工程力學專業,獲學士學位,現主要從事海洋鉆井方面的研究和管理工作。E-mail:[email protected]
            更新日期/Last Update: 2018-06-25
            宁夏11选5