[1] 李秋莲,张健,张岳峰,等. 大庆油田油井计量站计量现状分析与对策[J].油气田地面工程,2011,30(9):56-57.
LI Qiulian,ZHANG Jian,ZHANG Yuefeng,et al.Present situation analysis and countermeasure of oil well metering station in Daqing oilfield[J].Oil-Gasfield Surface Engineering,2011,30(9):56-57.
[2] 彭岗桂.单井称重式自动计量装置设计与分析[D].成都:西南石油大学,2015.
PENG Ganggui.Design and analysis of automatic weighing device for single well[D].Chengdu:Southwest Petroleum University,2015.
[3] 邹凌川.原油计量技术的研究[D].西安:西安石油大学,2014.
ZOU Lingchuan.Crude Oil metering technology[D].Xi'an:Xi'an Shiyou University,2014.
[4] 刘忠能,钟海全,李颖川,等.稠油环空掺稀气举技术——以吐哈油田吐玉克区块为例[J].石油学报,2015,36(2):217-223.
LIU Zhongneng,ZHONG Haiquan,LI Yingchuan,et al.Heavy oil gas-lift technology assisted with light oil:a case study from Tuyuk block in Tuha oilfield[J].Acta Petrolei Sinica,2015,36(2):217-223.
[5] 陈巍芳.高含水时期的油井计量技术[J].化学工程与装备,2011,34(8):81-83.
CHEN Weifang.Oil measurement technology in high water cut period[J].Chemical Engineering and Equipment,2011,34(8):81-83.
[6] 李杰训,赵雪峰,王明信,等.美国陆上油田地面工程建设的启示[J].石油规划设计,2016,27(1):18-22.
LI Jiexun,ZHAO Xuefeng,WANG Mingxin,et al.lightenment of ground construction of onshore oilfield in the United State[J].Petroleum Planning and Design,2016,27(1):18-22.
[7] BOHRER M,FRIED S,HELMS L,et al.State of north Dakota Bakken Formation resources study project[D].Appendix C,2008.
[8] 王萍萍.浅谈分离器玻璃管量油的准确度[J].中国石油和化工标准与质量,2013,33(21):55.
WANG Pingping.Discussion on the accuracy of separator glass tube oil measurement[J].China Petroleum and Chemical Standard and Quality,2013,33(21):55.
[9] 赵晶,王祎楠.玻璃管量油与U型连续量油电动装置量油对比[J].油气田地面工程,2012,31(7):66.
ZHAO Jing,WANG Weinan.Comparison of oil measurement in the glass tube and the U type continuous oil metering device[J].Oil-Gasfield Surface Engineering,2012,31(7):66.
[10] 韦继明.远程自动量油系统在油田的应用[J].石油化工自动化,2009,43(4):71-73.
WEI Jiming.The application of telecontrolled automatic dipstick system in oilfields[J].Automation in Petro-Chemical Industry,2009,43(4):71-73.
[11] 刘扬,赵洪激,周士华.低渗透油田地面工程总体规划方案优化研究[J].石油学报,2000,21(2):88-95.
LIU Yang,ZHAO Hongji,ZHOU Shihua.A study of optimization of overall planning for surface engineering of low osmose oil field[J].Acta Petrolei Sinica,2000,21(2):88-95.
[12] 曹克芸.油井产量计量技术探讨与研究[J].山东工业技术,2014(24):78.
CAO Keyun.Discussion and research on the oil well production measurement[J].Shandong Industrial Technology,2014(24):78.
[13] 李杰训,田一华,戴仲.油气矿场加工[M].北京:中国科学技术出版社,2013.
LI Jiexun,TIAN Yihua,DAI Zhong.Oil and gas field processing[M].Beijing:China Science and Technology Press,2013.
[14] 何东.辽河冷家油田功图法量油技术可行性研究[J].中国石油和化工,2014,21(9):60-63.
HE Dong.The feasibility study on the method of dynamometer-diagram oil measurement in the Liaohe Lengjia oilfield[J].China Petroleum and Chemical Industry,2014,21(9):60-63.
[15] 杨瑞,黄伟,辛宏,等.功图法油井计量技术在长庆油田的应用[J].油气田地面工程,2010,38(2):55-57.
YANG Rui,HUANG Wei,XIN Hong,et al.Application of dynamometer diagram method for metering technique of oil well in Changqing oilfield[J].Oil-Gasfield Surface Engineering,2010,38(2):55-57.
[16] 李金诺,龚仁彬,李群,等.一种抽油机示功图数据无损压缩存储方法[J].石油学报,2016,37(2):266-272.
LI Jinnuo,GONG Renbin,LI Qun,et al.A lossless data compression and storage method of pump dynamometer[J].Acta Petrolei Sinica,2016,37(2):266-272.
[17] 中华人民共和国住房和城乡建设部.油田油气集输设计规范:GB 50350-2015[S].北京:中国计划出版社,2016.
Ministry of Housing and Urban-Rural Development of the People's Republic of China.Code for design of oil-gas gathering and transportation systems of oilfield:GB 50350-2015[S].Beijing:China Planning Press,2016.
[18] 刘合,郝忠献,王连刚,等.人工举升技术现状与发展趋势[J].石油学报,2015,36(11):1441-1448.
LIU He,HAO Zhongxian,Wang Liangang,et al.Current technical status and development trend of artificial lift[J].Acta Petrolei Sinica,2015,36(11):1441-1448.
[19] 王茂盛,李焕,孟宪丽,等.大庆油田外围低渗区块功图法量油初步应用探索[J].内蒙古石油化工,2013,23(15):46-48.
WANG Maosheng,LI Huan,MENG Xianli,et al.Preliminary study on the application of indicator diagram measurement in peripheral low permeability block of Daqing Oilfield[J].Inner Mongolia Petrochemical Industry,2013,23(15):46-48.
[20] 杨瑞,王永全,辛宏.功图法油井计量系统基于现场应用的误差分析[J].工业控制计算机,2009,22(5):35-37.
YANG Rui,WANG Yongquan,XIN Hong.Error analysis of oil field measurement system based on indicator diagram measurement[J].Industrial Control Computer,2009,22(5):35-37.
[21] 郑娟.功图法在油田单井计量系统中的应用与研究[D].西安:西安石油大学,2015.
ZHENG Juan.The application and research of dynamometer card in the oilfield single well metering system[D].Xi'an:Xi'an Shiyou University,2015.
[22] 何鑫.影响油井功图计量准确性的因素分析[J].石油和化工设备,2013,16(6):49-51.
HE Xin.Analysis of the factors affecting the oil measurement accuracy by dynamometer-diagram method[J]. Petroleum and Chemical Equipment,2013,16(6):49-51.
[23] 孙富伟,李盛兴,劳国瑞.卧式气-油-水三相分离器工程设计探讨[J].化学工程,2015,43(12):10-15.
SUN Fuwei,LI Shengxing,LAO Guorui.On engineering design of horizontal gas-oil-water three-phase separator[J].Chemical Engineering,2015,43(12):10-15.
[24] STEWART M.Chapter 5-Three-phase oil and water separation[M]//ARNOLD K,STEWART M.Surface production operations:design of oil Handling systems and facilities.3rd ed.Amsterdam:Elsevier,2008:244-315.
[25] 叶兵.多相计量技术新进展[J].国外油田工程, 2010,26(2):52-54.
YE Bing.The current multi-phase measurement technology[J].Foreign Oilfield Engineering,2010,26(2):52-54.
[26] 张君峰,毕海滨,许浩,等.国外致密油勘探开发新进展及借鉴意义[J].石油学报,2015,36(2):127-137.
ZHANG Junfeng,BI Haibin,XU Hao,et al.New progress and reference significance of overseas tight oil exploration and development[J].Acta Petrolei Sinica,2015,36(2):127-137.
[27] 穆乃刚.低产液油井三相计量的研究[D].大庆:东北石油大学,2013.
MU Naigang.The study of three-phase measurement for low-yield oil wells[D].Daqing:Northeast Petroleum University,2013.
[28] 文江波,张劲军,郑飞,等.流动条件下原油乳化含水率与水相组成的关系[J].石油学报,2015,36(5):626-632.
WEN Jiangbo,ZHANG Jinjun,ZHENG Fei,et al.Relationship between emulsified water fraction under flowing conditions and composition of water phase[J].Acta Petrolei Sinica,2015,36(5):626-632.
[29] 许晓英,赵庆凯,陈丰波,等.多相流量计在国内市场的应用及发展趋势[J].石油与天然气化工,2016,46(9):99-104.
XU Xiaoying,ZHAO Qingkai,CHEN Fengbo,et al.Application and development trend of multiphase flow meter in the domestic market[J].Petroleum and Natural Gas Industry,2016,46(9):99-104.
[30] WANG T,BAKER R.Coriolis flowmeters:a review of developments over the past 20 years,and an assessment of the state of the art and likey future directions[J].Flow Measurement and Instrumentation,2014,40:99-123.
[31] 白俊生.科里奥利质量流量计测量流量的应用探讨[J].自动化应用,2016(7):125-126.
BAI Junsheng.Application of measuring flow with a Coriolis mass flow meter[J].Automation Application,2016(7):125-126.
[32] 郑明方,杨长春.石油化工仪表及自动化[M].北京:中国石化出版社,2014.
ZHANG Mingfang,YANG Changchun.Instrumentation and automation in petrochemical industry[M].Beijing:China Petrochemical Press,2014.
[33] OLIVER J R.A machine-learning approach to automated negotiation and prospects for electronic commence[J].Journal of Management Information Systems,2015,13(3):83-112.
[34] LI Guomei,WANG Yueshe,HE Renyang,et al.Numerical simulation of predicting and reducing solid particle erosion of solid-liquid two-phase flow in a choke[J].Petroleum Science,2009,10(6):91-97.
[35] 丘泺霏.PhaseWatcher Vx多相流量计原理和应用[J].中国高新技术企业,2016(24):45-46.
QIU Luofei.Principle and application of multiphase flowmeter PhaseWatcher Vx[J].China High Tech Enterprise,2016(24):45-46.
[36] 徐宏伟.低产液量油井产量计量方式适应性分析[J].能源与节能,2013,18(6):36-38.
XU Hongwei.Adaptability analysis of production measurement forms of low-yielding liquid volume oil wells[J].Energy and Energy Conservation,2013,18(6):36-38.
[37] 赵雪峰,李福章.大庆低渗透油田地面工程简化技术[M].北京:石油工业出版社,2014.
ZHAO Xuefeng,LI Fuzhang.Simplified techniques of surface engineering in the Daqing low permeability oilfield[M].Beijing:Petroleum Industry Press,2014.
[38] 刘扬,赵洪激,王平.环形掺热水集输系统优化设计及分析[J].石油学报,1999,20(1):77-81.
LIU Yang,ZHAO Hongji,WANG Ping.An optimizing design and analysis of oil-gas gathering system of ring type mixing heat water[J].Acta Petrolei Sinica,1999,20(1):77-81.
[39] 刘扬,关晓晶.油气集输系统优化设计研究[J].石油学报,1993,14(3):110-117.
LIU Yang,GUAN Xiaojing.A study on optimal design of oil-gas gathering system[J].Acta Petrolei Sinica,1993,14(3):110-117.
[40] 李明.浅谈油井计量现状的发展方向[J].中国石油和化工标准与质量,2012,32(5):176.
LI Ming.On the current situation of the development direction of oil measurement[J].China Petroleum and Chemical Standard and Quality,2012,32(5):176. |