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[1]沈月文 曲福俊 梁立东 潘国华.热油管道清蜡周期的抛物线计算模型[J].油气储运,2020,39(06):668-672.[doi:10.6047/j.issn.1000-8241.2020.06.010]
SHEN Yuewen,QU Fujun,LIANG Lidong,et al.Parabolic calculation model for wax removal interval of hot oil pipeline[J].Oil & Gas Storage and Transportation,2020,39(06):668-672.[doi:10.6047/j.issn.1000-8241.2020.06.010]
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SHEN Yuewen,QU Fujun,LIANG Lidong,et al.Parabolic calculation model for wax removal interval of hot oil pipeline[J].Oil & Gas Storage and Transportation,2020,39(06):668-672.[doi:10.6047/j.issn.1000-8241.2020.06.010]
热油管道清蜡周期的抛物线计算模型
《油气储运》[ISSN:1000-8241/CN:13-1093/TE]
卷:
39
期数:
2020年06期
页码:
668-672
栏目:
输送与储存
出版日期:
2020-06-25
- Title:
- Parabolic calculation model for wax removal interval of hot oil pipeline
- 文章编号:
- 1000-8241(2020)06-0668-05
- Keywords:
- hot oil pipeline; wax deposition mathematical model; wax deposition thickness; wax removal interval
- 分类号:
- TE832
- 文献标志码:
- A
- 摘要:
- 在热油管道输送过程中,结蜡现象严重影响原油输送的经济性与安全性,合理制定热油管道清蜡周期是确保管道正常运行的关键。通过分析不同含蜡量、含胶量、含水率的原油结蜡强度随温度变化的规律,拟合出温度与结蜡强度抛物线的关系式,结合析蜡温度建立了热油管道结蜡强度通用抛物线数学模型和清蜡周期计算公式,可实现对不同含蜡量、含胶量、含水率、析蜡温度下热油管道清蜡周期的量化计算,进而为原油特性相近的热油管道制定合理的清蜡周期,确保输油管道正常运行。该方法在西吐孜科尔油田—库木克尔油田的热油管道进行了实例应用,合理调整了管道清管周期,管道运行安全可靠,为热油管道清蜡周期的确定提供了技术支持。(图3,表1,参22)
- Abstract:
- In the process of hot oil pipeline transportation, the economy and safety of crude oil transportation are seriously affected by wax deposition. Therefore, the reasonable wax removal interval is considered as the key to ensure the normal operation of the pipeline. By analyzing the law of wax deposition intensity of oil with different wax content, resin content and water content changing with temperature, the parabolic relation between temperature and wax deposition intensity was obtained by fitting. The general parabolic mathematical model of wax deposition intensity for hot oil pipeline was established by considering wax precipitation temperature. The wax removal interval was proposed which could quantitatively calculate the wax removal interval of hot oil pipelines at different wax content, resin content, water content and wax precipitation temperature, make reasonable wax removal interval for hot oil pipelines with similar properties and ensure the safe operation of pipelines. This method has been applied to the hot oil pipeline from West-Tuzkol Oilfield to Kumkol Oilfield. Thanks to the reasonable wax removal interval, the pipeline operates safely. This method is expected to provide technical supports for determining the wax removal interval of hot oil pipelines. (3 Figures, 1 Table, 22 References)
参考文献/References:
[1] 张劲军. 易凝高黏原油管输技术及其发展[J]. 中国工程科学, 2002,4(6):71-76. ZHANG J J. High-viscosity crude oil pipeline transportation’s technology and development[J]. Engineering Science,2002,4(6): 71-76.
[2] 陈帝文,谢英,麦方锐,王兴志,颜威. 油水两相流蜡沉积规律的 研究进展[J]. 石油化工,2018,47(11):1292-1298. CHEN D W,XIE Y,MAI F R,WANG X Z,YAN W. Research progress of oil-water two-phase flow wax deposition[J]. Petrochemical Technology,2018,47(11):1292-1298.
[3] 李男,黄启玉,赵旗. DSC 降温速率对含蜡油样析蜡特性的影 响[J]. 油气储运,2018,37(3):281-284. LI N,HUANG Q Y,ZHAO Q. Influence of cooling rate on the wax precipitation characteristic of waxy oil samples in DSC test[J]. Oil & Gas Storage and Transportation,2018,37(3):281-284.
[4] 王继平,王馨艺,郝宝健,刘伟亮,王海月. 热油管道结蜡厚度与 经济清管周期计算[J]. 当代化工,2016,45(3):545-548. WANG J P,WANG X Y,HAO B J,LIU W L,WANG H Y. Calculation of wax deposit thickness and economic pigging period of waxy crude oil pipeline[J]. Contemporary Chemical Industry, 2016,45(3):545-548.
[5] 魏立新,刘扬,杨建军,曾文,王凤龙. 油井出油温度最优化拟和 方法[J]. 大庆石油学院学报,2004,28(2):54-56. WEI L X,LIU Y,YANG J J,ZENG W,WANG F L. Optimization fitting method of oil well temperature[J]. Journal of Daqing Petroleum Institute,2004,28(2):54-56.
[6] 李传宪,黄晨醒,郁振华,杨飞. 不加热输油管道最佳清管周期 影响因素研究[J]. 石油化工高等学校学报,2017,30(3):66-71. LI C X,HUANG C X,YU Z H,YANG F. Influence factors of optimized pigging frequency in unheated oil pipelines[J]. Journal of Petrochemical Universities,2017,30(3):66-71.
[7] 韩明原,黎申,叶绍宇,孙世成. 含蜡原油管道清管周期的确定 及影响因素分析[J]. 管道技术与设备,2017(1):1-3. HAN M Y,LI S,YE S Y,SUN S C. Determination and analysis of influential factors of pigging cycle for waxy crude pipeline[J]. Pipeline Technique and Equipment,2017(1):1-3.
[8] 田震,敬加强,靳文博,赵红艳,王雷振. 含蜡原油管道安全经济 清管周期模型的建立与计算分析[J]. 中国海上油气,2015,27(2): 120-126. TIAN Z,JING J Q,JIN W B,ZHAO H Y,WANG L Z. Development and computational analysis of the safe and economic pigging frequency model for waxy crude oil pipelines[J]. China Offshore Oil and Gas,2015,27(2):120-126.
[9] 宋建河,汪冈伟,肖明,王书浩. 秦京输油管道合理清蜡周期的 确定[J]. 油气储运,2004,23(5):44-47. SONG J H,WANG G W,XIAO M,WANG S H. Rational determination on wax pigging period in Qinhuangdao-Beijing Oil Pipeline[J]. Oil & Gas Storage and Transportation,2004,23(5): 44-47.
[10] 江国业,张文信,周诗岽,吴明,王平,田艺兵. 低输量输油管道的清蜡周期研究[J]. 抚顺石油学院学报,2003,23(3):46-49. JIANG G Y,ZHANG W X,ZHOU S D,WU M,WANG P, TIAN Y B. Pigging period study for oil pipeline with low through-put[J]. Journal of Fushun Petroleum Institute,2003, 23(3):46-49.
[11] 王晓梅,陈国群,艾慕阳. 用双曲正切结蜡模型计算含蜡原油 管道的结蜡分布[J]. 油气储运,2008,27(12):24-27. WANG X M,CHEN G Q,AI M Y. Using hyperbolic tangent wax model to calculate wax distribution over waxy crude oil pipeline[J]. Oil & Gas Storage and Transportation,2008, 27(12):24-27.
[12] 朱林,项振东,杨玉华. 原油温度对管道结蜡的影响及其机理 研究[J]. 油气田地面工程,1991,10(2):13-15. ZHU L,XIANG Z D,YANG Y H. Effect of crude oil temperature on wax deposition in pipeline and its mechanism[J]. Oil-Gasfield Surface Engineering,1991,10(2):13-15.
[13] 胡文庭,李关虎,胡小冬,范虎,候义梅. 原油集输管线结蜡机理 分析及动态结蜡实验研究[J]. 内蒙古石油化工,2011(12):5-6. HU W T,LI G H,HU X D,FAN H,HOU Y M. Mechanism analysis of wax deposition in crude oil gathering pipelines and experimental study of dynamic wax deposition[J]. Inner Mongolia Petrochemical Industry,2011(12):5-6.
[14] 吕朝旭,邢晓凯,柯鲁峰. 多相流蜡沉积研究进展[J]. 油气田地 面工程,2018,37(4):36-41. LYU C X,XING X K,KE L F. Research progress of wax deposition of multiphase flow[J]. Oil-Gas Field Surface Engineering,2018,37(4):36-41.
[15] 靳文博,敬加强,田震,王雷振,伍鸿飞. 蜡沉积厚度随时间变 化规律的模型研究[J]. 化工进展,2015,34(6):1544-1549. JIN W B,JING J Q,TIAN Z,WANG L Z,WU H F. Model of wax deposition thickness change with time[J]. Chemical Industry and Engineering Progress,2015,34(6):1544-1549.
[16] 王一然,杨辉,许丹. 原油组成对原油管道结蜡规律的影响[J]. 中国石油和化工标准与质量,2016(9):81-82. WANG Y R,YANG H,XU D. Influence of crude oil composition on wax deposition on tubing wall[J]. China Petroleum and Chemical Standard and Quality,2016(9):81-82.
[17] 刘雪峰,马贵阳. 含蜡原油蜡沉积特性与清蜡周期研究[J]. 当 代化工,2016,45(8):1834-1836. LIU X F,MA G Y. Research on deposition characteristics of waxy crude oil and pigging period[J]. Contemporary Chemical Industry,2016,45(8):1834-1836.
[18] 王伟强,贺相军,杜茂敏,郭秀丽. 含蜡热油管道结蜡厚度计 算[J]. 管道技术与设备,2010(5):12-13. WANG W Q,HE X J,DU M M,GUO X L. Calculation of wax deposit thickness of heated waxy crude oil pipelines[J]. Pipeline Technique and Equipment,2010(5):12-13.
[19] 杨红静,杨树章,马廷丽,高立国. 清防蜡技术的研究及应用[J]. 表面技术,2017,46(3):130-137. YANG H J,YANG S Z,MA T L,GAO L G. Research and application of anti-paraffin technology[J]. Surface Technology, 2017,46(3):130-137.
[20] 赵福麟. 采油用剂[M]. 东营:华东石油学院出版社,1987: 17-20. ZHAO F L. Oil recovery agent[M]. Dongying:East China Petroleum Institute Press,1987:17-20.
[21] 范开峰,黄启玉,毕权,李男. 管输含蜡原油沉积物的性质[J]. 油气储运,2016,35(9):946-951. FAN K F,HUANG Q Y,BI Q,LI N. Properties of deposits in waxy crude oil pipeline[J]. Oil & Gas Storage and Transportation,2016,35(9):946-951.
[22] 林俊岭,李少平,孙丽娜. 外输管线清蜡周期的确定[J]. 油气田 地面工程,2012,31(1):42-44. LIN J L,LI S P,SUN L N. Determination of wax removal period for export pipeline[J]. Oil-Gas Field Surface Engineering,2012,31(1):42-44.
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备注/Memo
(收稿日期:2019-01-12;修回日期:2020-02-24;编辑:王雪莉) 作者简介:沈月文,男,1969 年生,工程师,2008 年毕业于西安石油大学石油工程专业,现主要从事油气田地面工程建设和生产运营相关的研究工作。地址:新疆克拉玛依市克拉玛依区世纪大道7 号,834000。电话:0990-6537060。Email:1519715400@qq.com
更新日期/Last Update:
2020-06-25