网站版权 © 《油气储运》编辑部 陕ICP备11014090号-10
地址:河北省廊坊市金光道51号(065000);电话:0316-2176193 / 0316-2072055; 传真:0316-2177392; 网址:yqcy.paperonce.org
技术支持:西安三才科技实业有限公司 029-89381847;029-88222991
[1] 刘晓燕.特高含水期油气水管道安全混输界限确定及水力热力计算方法研究[D].大庆:大庆石油学院,2005. LIU X Y. The limit confirming and hydraulic/thermodynamic calculation method research for oil-gas-water mixing transportation safe in pipeline during oil producing with supper high water cut[D]. Daqing: Daqing Petroleum Institute, 2005.
[2] 吴景峰.高含水原油的不加热集输试验[J].油田地面工程, 1982(4):12-15. WU J F. Non-heating gathering & transferring tests on high water content crude[J]. Oilfield Surface Engineering, 1982(4): 12-15.
[3] 冷冬梅.不加热集油技术在大庆高含水油田中的应用[J].油气田地面工程,2013,32(6):66-67. LENG D M. Application of unheated oil gathering technology in Daqing high water cut oilfield[J]. Oil-Gas Field Surface Engineering, 2013, 32(6): 66-67.
[4] 吴江肃.中原油田单管不加热集输流程简介[J].油田地面工程, 1985(1):42. WU J S. Brief introduction of single pipe unheated gathering and transportation process in Zhongyuan Oilfield[J]. Oilfield Surface Engineering, 1985(1): 42.
[5] 岳永会,杨玉玲,谢海英.喇嘛甸油田不加热集输技术研究与试验[J].油气田地面工程,2005(9):11. YUE Y H, YANG Y L, XIE H Y. Research and test of unheated gathering and transportation technology in Lamadian Oilfield[J]. Oil-Gasfield Surface Engineering, 2005(9): 11.
[6] 杜久恒.特高含水期原油不加热集输技术[J].油气田地面工程, 2005(9):15-16.DU J H. Unheated gathering and transportation technology of crude oil high water cut period[J]. Oil-Gasfield Surface Engineering, 2005(9): 15-16.
[7] 吕勇明.外围油田单管不加热集输现场试验探讨[J].石油石化节能,2011,1(4):6-7. LYU Y M. Field test of single tube unheated gathering and transportation in peripheral oilfield[J]. Energy Conservation in Petroleum & Petrochemical Industry, 2011, 1(4): 6-7.
[8] TRALLERO J L, SARICA C, BRILL J P. A study of oil-water flow patterns in horizontal pipes[J]. SPE Production & Facilities, 1997, 12(3): 165-172.
[9] ANGELI P, HEWITT G F. Flow structure in horizontal oil-water flow[J]. International Journal of Multiphase Flow, 2000, 26(7): 1117-1140.
[10] MCKIBBEN M J, GILLIES R G, SHOOK C A. A laboratory investigation of horizontal well heavy oil-water flows[J]. The Canadian Journal of Chemical Engineering, 2000, 78(4): 743-751.
[11] TAN C, LI P F, DAI W, DONG F. Characterization of oil-water two-phase pipe flow with a combined conductivity/capacitance sensor and wavelet analysis[J]. Chemical Engineering Science, 2015, 134: 153-168.
[12] FENG X, WU S X, ZHAO K, WANG W, ZHAN H L, JIANG C, et al. Pattern transitions of oil-water two-phase flow with low water content in rectangular horizontal pipes probed by terahertz spectrum[J]. Optics Express, 2015, 23(24): A1693-A1699.
[13] LUO X M, L? G B, ZHANG W, HE L M, L? Y L. Flow structure and pressure gradient of extra heavy crude oil-water two-phase flow[J]. Experimental Thermal and Fluid Science, 2017, 82: 174-181.
[14] 刘晓燕,陈伟,高海智,王忠华,武传燕.水-胶凝原油两相流流态化实验研究[J].工程热物理学报,2013,34(3):480-483. LIU X Y, CHEN W, GAO H Z, WANG Z H, WU C Y. Experimental study on fluidization of water-gelled crude oil two-phase flow[J]. Journal of Engineering Thermophysics, 2013, 34(3): 480-483.
[15] 范伟.胶凝原油水力悬浮多相流动特性研究[D].大庆:东北石油大学,2014. FAN W. Study on hydraulic suspension conveying multiphase flow characteristics of gelled crude oil[D]. Daqing: Northeast Petroleum University, 2014.
[16] 李鸿英,贾治渊,韩善鹏,韩方勇,吴浩,张劲军,等.高含水含蜡原油的粘壁特性试验[J].油气储运,2020,39(8):898-906. LI H Y, JIA Z Y, HAN S P, HAN F Y, WU H, ZHANG J J, et al. Test on wall-adhering behavior of high water-cut waxy crude oil[J]. Oil & Gas Storage and Transportation,2020,39(8): 898-906.
[17] 张阳,宋晨,刘婕,徐沛扬,李娇,胡雄翼,等.高含水期含气油井低温集输试验研究[J].石油规划设计,2020,31(1):39-45,60. ZHANG Y, SONG C, LIU J, XU P Y, LI J, HU X Y, et al. Experimental research on low-temperature gathering and transportation of gas-bearing oil wells in high water-cut period[J]. Petroleum Planning & Engineering, 2020, 31(1): 39-45, 60.
[18] 檀为建,崔艳丽,李娇,张士英,鲁晓醒,胡雄翼,等.西柳站高含水油井常温集输温度界限试验研究[J].油气田地面工程, 2018,37(6):19-25. TAN W J, CUI Y L, LI J, ZHANG S Y, LU X X, HU X Y, et al. Experimental study on temperature limits of normal-temperature gathering and transportation in high water-cut oil wells of Xiliu station[J]. Oil-Gas Field Surface Engineering, 2018, 37(6): 19-25.
[19] 鲁晓醒,檀为建,胡雄翼,张士英,张雁京,李娇,等.高含水期原油低温集输黏壁特性实验[J].油气储运,2019,38(11):1245-1250. LU X X, TAN W J, HU X Y, ZHANG S Y, ZHANG Y J, LI J, et al. Experiment on wall sticking characteristics during the low-temperature gathering and transportation of crude oil in the period of high water cut[J]. Oil & Gas Storage and Transportation, 2019, 38(11): 1245-1250.
[20] 吕杨,柴德民,李晓宇,张富强,刘罗茜,张瀚文,等.界面特性与粘附对探究凝油粘壁机理的启示[J].油气储运,2021,40(12):1338-1348. LYU Y, CHAI D M, LI X Y, ZHANG F Q, LIU L Q, ZHANG H W, et al. Enlightenment of interfacial behavior and adhesion for study on wall sticking mechanism of condensate oil[J]. Oil &Gas Storage and Transportation, 2021, 40(12): 1338-1348.
[1]康万利,刘桂范,关宇.高含水期水平管内油水混输压降模型及其应用[J].油气储运,2006,25(4):50.[doi:10.6047/j.issn.1000-8241.2006.04.014]
KANG Wanli,LIU Guifan.The Application and Calculation of Oil-Water Pressure Loss Model with High Water percentage in Horizontal Pipelines[J].Oil & Gas Storage and Transportation,2006,25(03):50.[doi:10.6047/j.issn.1000-8241.2006.04.014]
[2]龚大利.大庆油田高含水原油流变性的研究[J].油气储运,2005,24(8):25.[doi:10.6047/j.issn.1000-8241.2005.08.008]
GONG Dali.Study on the Rheology of High Water-content Crude Oil in Daqing Oilfield[J].Oil & Gas Storage and Transportation,2005,24(03):25.[doi:10.6047/j.issn.1000-8241.2005.08.008]
[3]鲁晓醒 檀为建 胡雄翼 张士英 张雁京 李娇 杨东海 徐沛扬.高含水期原油低温集输粘壁特性实验[J].油气储运,2019,38(08):1.
LU Xiaoxing,TAN Weijian,HU Xiongyi,et al.Experiment on wall sticking characteristics during the low-temperature gathering and transportation of crude oil in the period of high water cut[J].Oil & Gas Storage and Transportation,2019,38(03):1.
[4]李鸿英 贾治渊 韩善鹏 韩方勇 吴浩 张劲军 白晓东 杨艳.高含水含蜡原油的粘壁特性试验[J].油气储运,2020,39(08):898.[doi:10.6047/j.issn.1000-8241.2020.08.008]
LI Hongying,JIA Zhiyuan,HAN Shanpeng,et al.Test on wall-adhering behavior of high water-cut waxy crude oil[J].Oil & Gas Storage and Transportation,2020,39(03):898.[doi:10.6047/j.issn.1000-8241.2020.08.008]
[5]吕杨,张瀚文,刘罗茜,等.高含水原油干线管道低温集输理论基础及现场试验[J].油气储运,2024,43(07):1.
Lyu Yang,Zhang Hanwen,Liu Luoqian,et al.Theoretical basis and field test of low-temperature gathering and transportation of high water-content crude oil trunk pipelines[J].Oil & Gas Storage and Transportation,2024,43(03):1.
[6]吕杨,张瀚文,刘罗茜,等.高含水原油干线管道低温集输理论基础及现场试验[J].油气储运,2024,43(08):916.[doi:10.6047/j.issn.1000-8241.2024.08.008]
LYU Yang,ZHANG Hanwen,LIU Luoqian,et al.Theoretical basis and field experiment of low-temperature gathering and transportation for high water-cut crude trunk pipeline[J].Oil & Gas Storage and Transportation,2024,43(03):916.[doi:10.6047/j.issn.1000-8241.2024.08.008]
[7]鲁晓醒 檀为建 胡雄翼 张士英 张雁京 李娇 杨东海 徐沛扬.高含水期原油低温集输黏壁特性实验[J].油气储运,2019,38(11):1245.[doi:10.6047/j.issn.1000-8241.2019.11.007]
LU Xiaoxing,TAN Weijian,HU Xiongyi,et al.Experiment on wall sticking characteristics during the lowtemperature gathering and transportation of crude oil in the period of high water cut[J].Oil & Gas Storage and Transportation,2019,38(03):1245.[doi:10.6047/j.issn.1000-8241.2019.11.007]
基金项目:国家自然科学基金资助项目“管道内溶气稠油-水分散体系中相分布与流动特性研究”,51674281。
作者简介:杨东海,男,1984年生,副教授,2013年博士毕业于中国石油大学(华东)油气储运工程专业,现主要从事多相流及油气田集输技术方面的研究工作。地址:山东省青岛市黄岛区长江西路66号,266580。电话:13475842257。Email:yangdonghai12@163.com
(收稿日期:2020-12-09;修回日期:2022-01-26;编辑:刘朝阳)