[1]孫鵬.葡萄花油田水平井試油儀器及工藝優化研究[J].石油管材與儀器,2019,5(03):73-75.[doi:10.19459/j.cnki.61-1500/te.2019.03.018]
 SUN Peng.Study on the Testing Instrument and Process Optimization of Horizontal Well in Putaohua Oilfield[J].Petroleum Tubular Goods & Instruments,2019,5(03):73-75.[doi:10.19459/j.cnki.61-1500/te.2019.03.018]
點擊復制

葡萄花油田水平井試油儀器及工藝優化研究
分享到:

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

卷:
5
期數:
2019年03期
頁碼:
73-75
欄目:
儀器設備與應用
出版日期:
2019-06-20

文章信息/Info

Title:
Study on the Testing Instrument and Process Optimization of Horizontal Well in Putaohua Oilfield
文章編號:
2096-0077(2019)03--0073-03
作者:
孫鵬
大慶油田試油試采分公司試采大隊 黑龍江 大慶 163100
Author(s):
SUN Peng
Daqing Oil Field Test and Production Branch Test Production Team Engineering Group, Daqing, Heilongjiang 163100, China
關鍵詞:
葡萄花油田水平井低孔低滲試油儀器聯作試油
Keywords:
Putaohua Oilfield horizontal well low porosity and low permeability oil test instrument combined production test
分類號:
TE353
DOI:
10.19459/j.cnki.61-1500/te.2019.03.018
文獻標志碼:
A
摘要:
葡萄花油田是大慶油田外圍的主力產油區塊,受目前低油價的影響,水平井開發已經逐漸成為區域內的主要開發方式,但葡萄花油田低孔低滲特征明顯,常對水平井試油工作產生較大影響,通過分析葡萄花油田現階段試油工藝,提出了試油過程中需要克服的各種問題,同時結合葡萄花油田的地質情況,從水平井試油儀器和工藝出發,研究了區域內試油試采的配套技術,總結了水平井試油的工藝措施,并提出低孔低滲儲層聯作試油的方法,優化了水平井試油技術,通過實際應用,完成了射孔、測試和抽汲排液的三道工序,單口井平均用時較少,平均時間可達5天,大大縮減了
Abstract:
Putaohua Oilfield is the main oil production block in the periphery of Daqing Oilfield. Under the influence of low oil price at present, horizontal well development has gradually become the main development mode in the region, but the characteristics of low porosity and low permeability in Putaohua Oilfield are obvious. It often has a great influence on the horizontal well testing work. By analyzing the present oil testing technology of Puhua Oilfield, various problems need to be overcome in the oil testing process are put forward. At the same time, combined with the geological conditions of the Putaohua Oilfield, On the basis of horizontal well testing instrument and technology, this paper studies the matching technology of regional oil testing and production test, summarizes the technical measures of horizontal well testing, puts forward the method of combining oil testing with low porosity and low permeability reservoir, and optimizes the horizontal well testing technology. Through practical application, the three processes of perforation, testing and swabbing are completed. The average time of a single well is less and the average time can reach 5 days, which greatly reduces the time taken up at the wellhead, and the facts have proved that the time taken up by the well head has been greatly reduced. This method of singlelayer oil test and combined production can provide technical support for the development of Putaohua oil field.

參考文獻/References:

[1] 邱金平,張明友,才博,等.超深高溫高壓含硫化氫氣藏高效試油技術新進展[J]. 鉆采工藝,2018,41(2):49-50,94.
[2] 王景恒.基于電纜地層測試器的產能評價及試油優化[J]. 石油工業技術監督,2018,34(3):60-62.
[3] 于昊. 致密油水平井試油工藝及產能評價方法研究[D]. 東北石油大學,2017.
[4] 魏煒.關于對井下試油壓裂新工藝的探討[J]. 石化技術,2017,24(12):233.
[5] 毛宇. 大慶油田試油現場施工安全管理與控制研究[D]. 吉林大學,2017.
[6] 王俊威.勝利油田小套管完井水平井試油技術優化設計與應用[J]. 油氣井測試,2017,26(5):73-74,78.
[7] 郝增賢,閆桂芳,王偉秋,等.環保試油排液裝置現場應用[J]. 油氣井測試,2017,26(1):61-62,78.
[8] 郭秀庭,葛黨科,孫濤,等.海上低滲儲層試油井技術分析與實踐[J]. 油氣井測試,2017,26(4):41-44,77.
[9] 孫海芳,劉飛,王志敏.高溫高壓氣井試油完井一體化工藝技術[J]. 鉆采工藝,2017,40(4):36-39,3.
[10] 齊宗江,郭建,毛文軒.水平井橋塞分層試油工藝研究[J]. 化工管理,2017,(12):111.

相似文獻/References:

[1]馬認琦,張璽亮,史紅娟,等.井下牽引器的技術現狀及發展趨勢[J].石油管材與儀器,2015,(04):8.
 MA Renqi,ZHANG Xiliang,SHI Hongjuan,et al.Technical Status and Development Trends of Downhole Tractors for Horizontal Wells[J].Petroleum Tubular Goods & Instruments,2015,(03):8.
[2]姜岳慶.測井資料在檢查水平井套管破漏中的組合應用[J].石油管材與儀器,2016,(01):80.
 JIANG Yueqing.Combinational Application of Well Logging Data in Detecting Casing Leakage in Horizontal Wells[J].Petroleum Tubular Goods & Instruments,2016,(03):80.
[3]宋執武,陳鵬舉,高德利,等.“上提下沖”下套管作業方法的力學分析[J].石油管材與儀器,2016,(06):45.
 SONG Zhiwu,CHEN Pengju,GAO Deli,et al.Mechanics Analysis of “Lift and Free Fall” Casing Running Method[J].Petroleum Tubular Goods & Instruments,2016,(03):45.
[4]尹國平,劉恒,鄒岳元,等.生產測井陣列成像儀在水平井的應用[J].石油管材與儀器,2016,(06):59.
 YIN Guoping,LIU Heng,ZOU Yueyuan,et al.Application of Array Image Tools of Production Logging in Horizontal Wells[J].Petroleum Tubular Goods & Instruments,2016,(03):59.
[5]鄭占樹,吳依東,賈明賓.水平井濕接頭的改進[J].石油管材與儀器,2017,3(03):96.[doi:10.19459/j.cnki.61-1500/te.2017.03.024]
 ZHENG Zhanshu,WU Yidong,JIA Mingbin.Improvement of Wetconnector Used in Horizontal Wells[J].Petroleum Tubular Goods & Instruments,2017,3(03):96.[doi:10.19459/j.cnki.61-1500/te.2017.03.024]
[6]張必波,孫剛,王振.一種伸縮測量裝置的研制[J].石油管材與儀器,2017,3(06):26.[doi:10.19459/j.cnki.61-1500/te.2017.06.007]
 ZHANG Bibo,SUN Gang,WANG Zhen.Development of a Measuring Tool for Flex Quantity[J].Petroleum Tubular Goods & Instruments,2017,3(03):26.[doi:10.19459/j.cnki.61-1500/te.2017.06.007]
[7]呂俊濤,董建華,歐昊達,等.PNST-3D剩余油飽和度測井儀的設計[J].石油管材與儀器,2018,4(01):29.[doi:10.19459/j.cnki.61-1500/te.2018.01.008]
 LYU Juntao,DONG Jianhua,OU Haoda,et al.Design of PNST3D Residual Oil Saturation Tool[J].Petroleum Tubular Goods & Instruments,2018,4(03):29.[doi:10.19459/j.cnki.61-1500/te.2018.01.008]
[8]郭道連.青海油田水平井產液剖面測井資料的分析及應用[J].石油管材與儀器,2018,4(01):94.[doi:10.19459/j.cnki.61-1500/te.2018.01.024]
 GUO Daolian.Analysis and Application of Production Profile Logging Data of Horizontal Well in Qinghai Oilfield[J].Petroleum Tubular Goods & Instruments,2018,4(03):94.[doi:10.19459/j.cnki.61-1500/te.2018.01.024]
[9]譚政,倪秀敏.持水率計在水平測井工藝中的改進[J].石油管材與儀器,2018,4(02):29.[doi:10.19459/j.cnki.61-1500/te.2018.02.008]
 TAN Zheng,NI Xiumin.Technology Improvement of Water Holdup Meter in Horizontal Logging[J].Petroleum Tubular Goods & Instruments,2018,4(03):29.[doi:10.19459/j.cnki.61-1500/te.2018.02.008]
[10]劉曉磊.基于陣列探針的水平井油水兩相流成像測井方法研究[J].石油管材與儀器,2018,4(02):70.[doi:10.19459/j.cnki.61-1500/te.2018.02.019]
 LIU Xiaolei.Approach to Oil and Water Twophase Flow Imaging Logging for Horizontal Wells Based on Array Probe[J].Petroleum Tubular Goods & Instruments,2018,4(03):70.[doi:10.19459/j.cnki.61-1500/te.2018.02.019]

備注/Memo

備注/Memo:
第一作者簡介:孫鵬,男,1983年生,工程師,2015年畢業于東北石油大學石油工程專業,現主要從事試采測試與管材儀器領域工作。E-mail:[email protected]
更新日期/Last Update: 2019-06-25
pc蛋蛋官网