本文主要研究内容
作者林子旸(2019)在《固井中钻井液滞留模型及两相流界面变化》一文中研究指出:固井施工的质量直接影响着油气井的寿命以及油气产量。提高固井顶替效率一直以来是固井施工的首要目标。由于地层因素、井眼状况、技术条件等原因造成了顶替过后环空中仍有钻井液滞留,严重影响着固井质量。为了更加客观准确地分析固井注水泥顶替流动规律,分析出现钻井液环空滞留的因素,建立钻井液环空滞留模型,探索液体流动与滞留两相界面变化特点,本文以柱坐标下流体运动微分方程为基础,建立了赫切尔-巴尔克莱流体偏心环空轴向流运动方程,建立了流场速度函数、视粘度函数及流量、压力降流动参数半解析数值解,建立了偏心环空中钻井液整体滞留、局部滞留流体力学分析条件与计算模型,通过模型模拟对偏心环空中钻井液的整体滞留计算相滞留边界,流核宽度,及整体滞留区域进行计算分析并分析了相关因素对钻井液滞留的影响,将力学理论模型与流体间的混掺扩散作用结合起来,自主设计建立了两相液体界面变化模拟实验装置,对钻井液与驱替液两相液体界面变化进行了实验测试与分析,建立了界面界面层厚度、密度等相关参数分析计算的经验模型,为准确把握固井顶替流动中滞留钻井液的驱替机理,探索提高固井顶替效技术途径与措施提供了基础。通过模型模拟得出,偏心度较低时环空内不易出现整体滞留区域,随着偏心度的不断增加,整体滞留区域也随之增加。当偏心度达到一定数值时,环空区域内全部滞留。随着套管偏心度的增加,钻井液的滞留现象愈发严重。套管偏心度较低时,钻井液滞留主要集中在了窄间隙,滞留层最大值位于井壁上,随着套管偏心度的增加,钻井液的滞留区域逐渐的扩散,滞留面积增大,随着井斜角度的增大,套管处的滞留层厚度逐渐增大且较明显,井壁处略有变化,变化不明显。不同的压力梯度下滞留层厚度也不同,压力梯度越高,计算的滞留层厚度越小,当压力梯度接近1500Pa/m时滞留层厚度近似为0。通过两相液体界面变化试验得出上部驱替液流速及两相液体接触时间的变化均对于界面层内流体的流变性能有着较为明显的影响,上部驱替液流速及两相液体接触时间增加,流性指数、屈服应力会增加,而密度、稠度系数会随转速及时间的增长而降低。将多种变量拟合得出一种评价钻井液滞留的理论依据。
Abstract
gu jing shi gong de zhi liang zhi jie ying xiang zhao you qi jing de shou ming yi ji you qi chan liang 。di gao gu jing ding ti xiao lv yi zhi yi lai shi gu jing shi gong de shou yao mu biao 。you yu de ceng yin su 、jing yan zhuang kuang 、ji shu tiao jian deng yuan yin zao cheng le ding ti guo hou huan kong zhong reng you zuan jing ye zhi liu ,yan chong ying xiang zhao gu jing zhi liang 。wei le geng jia ke guan zhun que de fen xi gu jing zhu shui ni ding ti liu dong gui lv ,fen xi chu xian zuan jing ye huan kong zhi liu de yin su ,jian li zuan jing ye huan kong zhi liu mo xing ,tan suo ye ti liu dong yu zhi liu liang xiang jie mian bian hua te dian ,ben wen yi zhu zuo biao xia liu ti yun dong wei fen fang cheng wei ji chu ,jian li le he qie er -ba er ke lai liu ti pian xin huan kong zhou xiang liu yun dong fang cheng ,jian li le liu chang su du han shu 、shi nian du han shu ji liu liang 、ya li jiang liu dong can shu ban jie xi shu zhi jie ,jian li le pian xin huan kong zhong zuan jing ye zheng ti zhi liu 、ju bu zhi liu liu ti li xue fen xi tiao jian yu ji suan mo xing ,tong guo mo xing mo ni dui pian xin huan kong zhong zuan jing ye de zheng ti zhi liu ji suan xiang zhi liu bian jie ,liu he kuan du ,ji zheng ti zhi liu ou yu jin hang ji suan fen xi bing fen xi le xiang guan yin su dui zuan jing ye zhi liu de ying xiang ,jiang li xue li lun mo xing yu liu ti jian de hun can kuo san zuo yong jie ge qi lai ,zi zhu she ji jian li le liang xiang ye ti jie mian bian hua mo ni shi yan zhuang zhi ,dui zuan jing ye yu qu ti ye liang xiang ye ti jie mian bian hua jin hang le shi yan ce shi yu fen xi ,jian li le jie mian jie mian ceng hou du 、mi du deng xiang guan can shu fen xi ji suan de jing yan mo xing ,wei zhun que ba wo gu jing ding ti liu dong zhong zhi liu zuan jing ye de qu ti ji li ,tan suo di gao gu jing ding ti xiao ji shu tu jing yu cuo shi di gong le ji chu 。tong guo mo xing mo ni de chu ,pian xin du jiao di shi huan kong nei bu yi chu xian zheng ti zhi liu ou yu ,sui zhao pian xin du de bu duan zeng jia ,zheng ti zhi liu ou yu ye sui zhi zeng jia 。dang pian xin du da dao yi ding shu zhi shi ,huan kong ou yu nei quan bu zhi liu 。sui zhao tao guan pian xin du de zeng jia ,zuan jing ye de zhi liu xian xiang yu fa yan chong 。tao guan pian xin du jiao di shi ,zuan jing ye zhi liu zhu yao ji zhong zai le zhai jian xi ,zhi liu ceng zui da zhi wei yu jing bi shang ,sui zhao tao guan pian xin du de zeng jia ,zuan jing ye de zhi liu ou yu zhu jian de kuo san ,zhi liu mian ji zeng da ,sui zhao jing xie jiao du de zeng da ,tao guan chu de zhi liu ceng hou du zhu jian zeng da ju jiao ming xian ,jing bi chu lve you bian hua ,bian hua bu ming xian 。bu tong de ya li ti du xia zhi liu ceng hou du ye bu tong ,ya li ti du yue gao ,ji suan de zhi liu ceng hou du yue xiao ,dang ya li ti du jie jin 1500Pa/mshi zhi liu ceng hou du jin shi wei 0。tong guo liang xiang ye ti jie mian bian hua shi yan de chu shang bu qu ti ye liu su ji liang xiang ye ti jie chu shi jian de bian hua jun dui yu jie mian ceng nei liu ti de liu bian xing neng you zhao jiao wei ming xian de ying xiang ,shang bu qu ti ye liu su ji liang xiang ye ti jie chu shi jian zeng jia ,liu xing zhi shu 、qu fu ying li hui zeng jia ,er mi du 、chou du ji shu hui sui zhuai su ji shi jian de zeng chang er jiang di 。jiang duo chong bian liang ni ge de chu yi chong ping jia zuan jing ye zhi liu de li lun yi ju 。
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论文详细介绍
论文作者分别是来自东北石油大学的林子旸,发表于刊物东北石油大学2019-07-15论文,是一篇关于固井论文,偏心环空论文,钻井液滞留论文,顶替界面论文,两相流界面论文,东北石油大学2019-07-15论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自东北石油大学2019-07-15论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:固井论文; 偏心环空论文; 钻井液滞留论文; 顶替界面论文; 两相流界面论文; 东北石油大学2019-07-15论文;