[1]李發根,石鑫,羊東明,等.單井管道注水摻稀一管雙用可行性分析[J].石油管材與儀器,2019,5(04):87-90.[doi:10.19459/j.cnki.61-1500/te.2019.04.021]
 LI Fagen,SHI Xin,YANG Dongming,et al.Feasibility Analysis on Single Well Pipeline with Two Functions of Water Injection and Light Oil Dilution[J].Petroleum Tubular Goods & Instruments,2019,5(04):87-90.[doi:10.19459/j.cnki.61-1500/te.2019.04.021]
點擊復制

單井管道注水摻稀一管雙用可行性分析
分享到:

《石油管材與儀器》[ISSN:2096-0077/CN:61-1500/TE]

卷:
5
期數:
2019年04期
頁碼:
87-90
欄目:
經驗交流
出版日期:
2019-08-20

文章信息/Info

Title:
Feasibility Analysis on Single Well Pipeline with Two Functions of Water Injection and Light Oil Dilution
文章編號:
2096-0077(2019)04--0087-04
作者:
李發根1石鑫2羊東明2丁楠1
1.中國石油集團石油管工程技術研究院,石油管材及裝備材料服役行為與結構安全國家重點實驗室 陜西 西安 710077;2.中國石化西北油田分公司工程技術研究院 新疆 烏魯木齊 830011
Author(s):
LI Fagen1 SHI Xin2 YANG Dongming2 DING Nan1
1. CNPC Tubular Goods Research Institute, State Key State Key Laboratory for Performance and Structure Safety of Petroleum Tubular Goods and Equipment Materials, Xi′an, Shaanxi 710077, China; 2. Northwest Oil Field Branch Company Engineering Technology Research Institute, Urumqi, Xinjiang 830011, China
關鍵詞:
注水摻稀一管雙用技術性分析經濟性分析
Keywords:
water injection dilution light oil pipeline with two functions technical analysis economic analysis
分類號:
TE931
DOI:
10.19459/j.cnki.61-1500/te.2019.04.021
文獻標志碼:
A
摘要:
提高單井管道利用率,實施注水摻稀一管雙用是油田節約投資提高油氣采收率及降本增效的重要舉措。以某油田為例,分析單井管道注水摻稀一管雙用新工藝改造措施和經濟效益,研究注水摻稀交替工況下腐蝕規律和防腐措施,從技術性和經濟性角度探討單井管道注水摻稀一管雙用新工藝可行性。結果表明單井管道注水摻稀一管雙用新工藝是一種相對經濟可靠且可行的降本增效方法:注水功能和摻稀功能周期不沖突,功能互不影響,流程也可對接,工藝改造切實可行;雖然注水摻稀交替工況下單井管道局部腐蝕穿孔風險增大,但使用內襯PEX修復措施可解決該問題,防腐措施可行;綜合投資回收期僅為2.06 a。
Abstract:
To improve pipeline utilization and integrate water injection function and light oil dilution function of single well pipelines might be an important measure in oil fields, which could enhance oil and gas recovery, save investment and reach the aim of reducing cost and increasing benefit. Taking single well pipeline with two functions of water injection and light oil dilution in the station as an example, process modification and economic benefit was discussed, corrosion rules and anticorrosion method in the condition of water injectionlight oil dilution cycles were studied, and feasibility was analyzed on single well pipelines with two functions of water injection and light oil dilution from the perspective of technology and economy. The results showed that new technology about single well pipelines with two functions of water injection and light oil dilution was a relatively economical, reliable and feasible measure, which could bring considerable benefit. Firstly new technology was feasible because the cycle, function and process between the injection technology and light oil dilution technology did not conflict. Secondly single well pipelines liner PEX could avoid the increasing risk of local corrosion and the relevant corrosion problem was solved . Finally its payback period was only about 2.06 a.

參考文獻/References:

[1] 曹靜靜,楊矞琦.國內低滲透油藏提高采收率技術現狀及展望[J]. 四川化工,2017,20(6):17-21.
[2] WU Shuhong, HAN Min, MA Desheng, et al. Steamflooding to Enhance Recovery of a Waterflooded Light-Oil Reservoir[J]. Journal of Petroleum Technology, 2012, 64(1): 64-66.
[3] LIAO Changlin, LIAO Xinwei, ZHAO Xiaoliang, et al. Study on Enhanced Oil Recovery Technology in Low Permeability Heterogeneous Reservoir by Water-Alternate-Gas of CO2 Flooding[C]. 2013, SPE Asia Pacific Oil and Gas Conference and Exhibition 165907, Jakarta, Indonesia.
[4] N BHOLA, G ARIARATNAM, N ROTH. Produced Water InjectionThe Challenges Faced[C]. 2015, SPE Kuwait Oil and Gas Show and Conference 175206 , Mishref, Kuwait.
[5] ALDAZ, S. Selective Water Injection Completion[J]. Oil Gas European Magazine, 2010, 36(4): 190-193.
[6] 張春榮.低滲透油田高壓注水開發探討[J]. 斷塊油氣田,2009,16(4):80-82.
[7] 蒙磊.關于油田注水管線腐蝕原因及防腐措施的探究[J]. 全面腐蝕控制,2017,31(6): 56-58.
[8] DEHAGHANI A H S, BADIZAD M H. ExperimentalStudy of Iranian Heavy Crude Oil Viscosity Reduction by Diluting with Heptane, Methanol, Toluene, Gas Condensate and Naphtha[J]. Petroleum, 2016, 2(4): 415-424.
[9] R.D. URQUHART. Heavy Oil Transportation-Present and Future[J]. Journal of Canadian Petroleum Technology, 1986, 25(2): 68-71.
[10] 曹暢,艾克熱木·牙生,劉磊,等.稠油摻稀降黏技術的研究進展與展望[J]. 油氣儲運, 2018,37(3):248-254.
[11] 徐士祺,郝上京.油田注水管道的腐蝕研究與緩蝕劑評價[J]. 管道技術與設備,2017,(2):34-37.
[12] 葛鵬莉,羊東明,韓陽,等.內穿插修復技術在塔河油田的應用[J]. 腐蝕與防護,2014,35(4):384-386.
[13] 鮮寧,湯曉勇,施岱艷,等.CO2凝析氣田碳鋼管道穿孔失效分析[J]. 天然氣與石油,2012,30(3):64-67.
[14] 矯濱田,王建豐,常煒,等.某海底管道失效原因[J]. 腐蝕與防護,2014,35(9):951-955.
[15] 韓國強.淺談非金屬管道在集油和注水系統中的應用[J]. 化工裝備技術,2016,37(5):23-25.

相似文獻/References:

[1]李綱要,黃新業,張立義,等.N80防腐油管腐蝕失效分析[J].石油管材與儀器,2017,3(06):59.[doi:10.19459/j.cnki.61-1500/te.2017.06.015]
 LI Gangyao,HUANG Xinye,ZHANG Liyi,et al.Corrosion Failure Analysis of N80 Anticorrosion Tubing[J].Petroleum Tubular Goods & Instruments,2017,3(04):59.[doi:10.19459/j.cnki.61-1500/te.2017.06.015]

備注/Memo

備注/Memo:
基金項目:陜西省重點研發計劃重點項目(項目編號為:2018ZDXM-GY-171)、中國石油天然氣股份有限公司重大科技專項(項目編號為:2016E-0606)資助。 第一作者簡介:李發根,男,1985年生,2008年畢業于中國石油大學( 北京 )材料學專業,獲碩士學位,現從事石油管材腐蝕與防護工作。E-mail:[email protected]
更新日期/Last Update: 2019-08-25
360双色球走势图表大全