油氣井工程系

宋先知

發布日期:2016-09-19 作者: 編輯: 訪問量:
 

姓名:宋先知

職稱:副教授/博導

職務:無

教育和工作經歷

2000-2004 中國石油大學(華東)石油工程,學士

2004-2010 中國石油大學(北京)油氣井工程,碩博連讀

2008-2009 美國Oklahoma大學石油工程,聯合培養博士生

2010-2012 中國石油大學(北京)機械工程,博士后

2012-2013 中國石油大學(北京)油氣井工程系,講師

2013-至今 中國石油大學(北京)油氣井工程系副教授、碩士生導師

2016年聘為博士生指導教師

個人主頁:
電子郵箱:songxz@cup.edu.cn
聯系電話010-89732176
所在系所:油氣井工程系
研究方向:油氣井流體力學與工程;水射流理論與技術;地熱鉆完井理論與技術
教學情況:石油工程本科《完井工程》;碩士留學生《Advanced Well Completion

 論文著作:

[1]     Xianzhi Song*, Zehao Lyu, Gensheng Li, Jinxia Liu, Ruixia Li, Yu Shi. Numerical Analysis of Characteristics of a Single U-tube Downhole Heat Exchanger in the Geothermal Reservoir [C]. Geothermal Resources Council Annual Meeting, 2017. (EI)

[2]     Zehao Lyu, Xianzhi Song*, Gensheng Li, Xiaodong Hu, Yu Shi, Yu Liu. Numerical Analysis of the Two-material Downhole Flow Field in Hydrothermal Jet Drilling [C]. Geothermal Resources Council Annual Meeting, 2017. (EI)

[3]     Yu Shi, Xianzhi Song*, Gensheng Li, Zhonghou Shen, Jinxia Liu, Ruixia Li. Numerical Investigation on Reservoir Heat Production Capacity of a Downhole Heat Exchanger Geothermal System [C]. Geothermal Resources Council Annual Meeting, 2017. (EI)

[4]     Song, Xianzhi* ; Xu, Zhengming ; Li, Gensheng ; Pang, Zhaoyu ; Zhu, Zhaopeng. A new model for predicting drag coefficient and settling velocity of spherical and non-spherical particle in Newtonian fluid[J]. Powder Technology, 2017,321: 242-250EI

[5]     Song, Xianzhi* ; Lyu, Zehao; Li, Gensheng ; Hu, Xiaodong .Numerical analysis of the impact flow field of multi-orifice nozzle hydrothermal jet combined with cooling water[J]. International Journal of Heat & Mass Transfer, 2017, 114:578-589.EI

[6]     Song, Xianzhi*; Lyu, Zehao; Cui, Li ;Li, Gensheng ;Ji, Guodong; Pang, Zhaoyu. Comparison of numerical analysis on the downhole flow field for multi-orifice hydrothermal jet drilling technology for geothermal wells[J]. Geothermics, 2017, 70:314-323.EI

[7]     Xianzhi Song*, Yu Shi, Gensheng Li, Xiaodong Hu, Zehao Lv, Rui Zheng, Gaosheng Wang. Experimental Study on Specific Energy of Thermal Spallation Drilling Technology. 2017.6.25-28. 51st U.S. Rock Mechanics/Geomechanics Symposium. San Francisco.

[8]     Song, Xianzhi*, Lv, Zehao, Li, Gensheng, Hu, Xiaodong, Shi, Yu.Numerical analysis on the impact of the flow field of hydrothermal jet drilling for geothermal wells in a confined cooling environment. Geothermics 2017.01.01 66: 39~49 (SCI/EI)

[9]     Song Xianzhi*, Li Gensheng, Xu Zhengming, Wang Mengshu, S.N. Shah, Pang Zhaoyu.Experimental study on the wellbore cleaning efficiency of microhole horizontal well drilling. SPE Journal, 2017, doi:10.2118/185965-PA.SCI/EI

[10]  Zehao Lyu, Xianzhi Song, Gensheng Li, Xiaodong Hu, Yu Shi, Zhipeng Xu. Numerical analysis of characteristics of a single U-tube downhole heat exchanger in the borehole for geothermal wells[J]. Energy, 2017, 125: 186-196.SCI/EI

[11]  X Song*, C Peng, G Li, K Wen. A Probabilistic Model to Evaluate the Operation Reliability of the Underground System in Underground Gas Storage Transformed from Depleted Gas Reservoir[C]//International Petroleum Technology Conference. International Petroleum Technology Conference, 2016.

[12]  Xianzhi Song*, Gensheng Li, Bin Guo, Haizhu Wang, Xiaojiang Li, Zehao Lyu. Transport Feasibility of Proppant by Supercritical Carbon Dioxide Fracturing in Reservoir Fractures. Journal of Hydrodynamics, Ser. B

[13]  Jingbin Li, Gensheng Li, Zhongwei Huang, Xianzhi Song, Zhenguo He, Shikun Zhang. A discussion about the method to study the effect of ambient pressure on hydraulic jetting. Journal of Petroleum Science and Engineering. 2016.10.21, 149 (2017): 203~207SCI/EI

[14]  Xianzhi Song*, Zehao Lv, Liu Cui, Gensheng Li, Guodong Ji, Xiaodong Hu, Yu Shi. Numerical Analysis of Flow Field in Multiple Hydrothermal jet Drilling for Geothermal Wells. Geothermal Resources Council(GRC) 40th Annual Meeting. California 2016:245~253EI

[15]  Xianzhi Song*, Xiaodong Hu, Gensheng Li, Zehao Lv, Yu Shi, Bin Zhu. Research Progress of Hydrothermal Jet Drilling Technology. 11th Pacific Rim International Conference on Water Jet Technology, Xuzhou,China. 2016.10.17-2016.10.18

[16]  Song, Xianzhi*, Lv, Zehao, Li, Gensheng, Hu, Xiaodong, Shi, Yu.Numerical analysis of characteristics of multi-orifice nozzle hydrothermal jet impact flow field and heat transfer. Journal of Natural Gas Science and Engineering 2016.9.01 35: 79~88 (SCI/EI)

[17]  Hu, Xiaodong, Song, Xianzhi(*), Li, Gensheng, Shen, Zhonghou, Cui, Liu, Lv, Zehao, Shi, Yu, Peng, Chi. Numerical analysis of bottomhole velocity and pressure distributions of high pressure high temperature hydrothermal jet. IADC/SPE Asia Pacific Drilling Technology Conference, Singapore2016.8.22-2016.8.24EI

[18]  Song, Xianzhi*, Peng, Chi, Li, Gensheng, He, Zhenguo, Wang, Haizhu. Optimization of Operation Parameters for Helical Flow Cleanout with Supercritical CO2 in Horizontal Wells Using Back-Propagation Artificial Neural Network[J]. Plos One, 2016, 11(6):e0156358. (SCI)

[19]  Xianzhi Song*, Gensheng Li, Zehao Lv, Xiaodong Hu, Bin Zhu. NUMERICAL SIMULATION ON CHARACTERISTICS OF THERMAL JET IMPACT FLOW FIELD[C]// Thermal and Fluids Engineering Summer Conference. 2016.

[20]  Li, Jingbin, Li, Gensheng, Huang, Zhongwei, Song, Xianzhi, Yang, Ruiyue, Peng, Kewen. The self-propelled force model of a multi-orifice nozzle for radial jet drilling. Journal of Natural Gas Science and Engineering. 2015.5.01, 24: 441~448(SCI/EI)

[21]  Xianzhi Song*, Gensheng Li, Zhongwei Huang, Shouceng Tian, Haizhu Wang. Mechanism and Characteristics of Horizontal-Wellbore Cleanout by Annular Helical Flow[J]. Spe Journal, 2014, 19(1):45-54.SCI/EI

[22]  Zhang, Haolin, Li, Gensheng, Tian, Shouceng, song, Xianzhi.A simplified mechanistic model for predicting the critical incipient velocity of cuttings in inclined pipes. Journal of Chemical and Pharmaceutical Research. 2014.01.01, 6(3): 735~744 (EI)

[23]  Xianzhi Song*, Gensheng Li, Zhongwei Huang, Haizhu Wang, Yuxiong Cheng. Characteristics of horizontal wellbore cleanout by rotating jets. 10th Pacific Rim International Conference on Water Jet Technology. Keju, Korea 2013.4.25-2013.4.27

[24]  Song, Xianzhi*, Li, Gensheng, Huang, Zhongwei, Zhang, Laibin, Tian, Shouceng, Cui, Liu. Mechanism and characteristics of horizontal wellbore cleanout by rotating jets.2012 IADC/SPE Asia Pacific Drilling Technology Conference 2012 - Catching the Unconventional Tide: Winning the Future Through Innovation. 2012, 2:808-818(EI)

[25]  Song, X.Z.*, Li, G.S., Huang, Z.W., Tian, S.C., Shi, H.Z. A Numerical Simulation on Characteristics of Annular Helical Flow in Horizontal Wellbore Cleanout. Energy Source Part A.2011,33(19)1832-1844.SCI/EI

[26]  Song, X.Z.*, Li, G.S., Huang, Z.W., Wang, H.Z., Tian, S.C., Shi, H.Z.Experimental study on horizontal wellbore cleanout by rotating jets. Journal of Petroleum Science and Engineering. 2010, 75(1-2) :71-76.SCI/EI

[27]  Song Xianzhi, Li Gensheng*, Yuan Jinping, Tian Zhonglan, Shen Ruichen, Yuan Guangjie, Huang Zhongwei.Mechanism and Field Tests of Solution Mining Technique by Self-resonated Cavitation Water Jets. Petroleum Science.2010,7(3)385-389.SCI

[28]  Li Gensheng, Song Xianzhi*, Tian Shouceng, Wang Haizhu, Yuan Guangjie.Self-resonated jet technology improves cavern construction. Oil and Gas Journal .2009, 107(46):51-56. (SCI)

[29]  胡曉東,宋先知,李根生,沈忠厚,彭熾,朱斌.超臨界水射流焦湯系數計算與節流過程降溫效果分析[J].石油鉆采工藝, 2017, 39(2):163-168.

[30]  宋先知,呂澤昊,崔柳,李根生,劉昱,胡曉東,紀國棟.高溫射流反應腔結構設計與反應規律[J].石油學報,2017,38(5):587-596.

[31]  李根生,宋先知,黃中偉,田守嶒,史懷忠,王海柱,盛茂.連續管鉆井完井技術研究進展及發展趨勢[J].石油科學通報,2016,1(01):81-90.

[32]  宋先知,石宇,李根生,胡曉東,呂澤昊,王天宇. 基于FLUENT的熱力射流調制與流場計算分析軟件[J].計算機應用,2016,36(S1):315-318.

[33]  郭宇健,李根生,宋先知,田守嶒,王夢抒.基于四參數流變模式的鉆井液穩態波動壓力計算[J].鉆采工藝, 2014(5):1-4.

[34]  宋先知,李根生,王夢抒,易燦,蘇新亮.連續油管鉆水平井巖屑運移規律數值模擬[J].石油鉆探技術,2014(2):28-32.

[35]  郭宇健,李根生,宋先知,田守嶒,王夢抒.基于赫巴流體的偏心環空波動壓力數值模擬[J].石油機械,2014,42(3):5-9.

[36]  黃英勇,李根生,宋先知,付加勝. PDC鉆頭定向噴嘴井底流場數值模擬[J].石油鉆探技術,2011, 39(6):99-103.

[37]  宋先知,李根生,王海柱,袁光杰,袁進平.多夾層巖鹽自振空化射流造腔技術研究[J].石油機械,2009, 37(12):20-23.

[38]  宋先知,李根生,王海柱,丁國生,田守嶒.鹽穴儲氣庫底部碎屑旋轉射流沖洗數值模擬[J].天然氣工業,2010, 30(8):83-86.

[39]  宋先知, 李根生, 袁進平,. 自振空化射流造腔機理與試驗[C]//中國石油學會地下儲氣. 2008.

[40]  李根生,黃中偉,田守嶒,宋先知,王小秋,李志勇.石油工程專業完井工程課程建設與實踐[J].石油教育,2012(2):85-88.

[41]  宋先知, 李根生, 黃中偉,. 油氣井工程研究生創新人才培養模式探索與實踐[J]. 石油教育, 2015(6):21-23.

已授權發明專利:

[1]     一種具有破巖與自進雙模式的多孔噴嘴裝置,2017.01.11,中國,ZL201310134611.0

[2]     一種利用熱力射流高效破巖的鉆井新方法,2016.11.09,中國,ZL201410075665.9

[3]     同步多分支徑向水平井完井方法及工具,2016.08.24,中國,ZL201410175007.7

[4]     自進式旋轉射流多孔噴嘴,2016.05.25,中國,ZL201210451183.X

[5]     超臨界二氧化碳磨料射流射孔模擬實驗系統,2016.04.13,中國,ZL201310694748.1

[6]     自進式巖屑磨料直旋混合射流鉆頭,2016.03.02,中國,ZL201410111959.2

[7]     一種解除油氣井近井地帶污染的旋流酸洗方法,2016.01.27,中國,ZL201210567644.X

[8]     連續油管超臨界CO2射流沖砂解堵的方法,2016.01.27,中國,ZL201110359313.2

[9]     一種復合滑套、壓裂裝置及增加油氣井壓裂層段的方法,2014.06.18,中國,ZL201210043505.7

[10]  一種脈沖空化多孔射流噴嘴,2014.04.30,中國,ZL201110360332.7

[11]  連續油管超臨界CO2 噴射壓裂方法,2013.11.06,中國,ZL201110078618.6

[12]  自進式鉆孔方法及脈沖空化旋轉射流噴嘴,2013.05.22,中國,ZL201110167983.4

[13]  一種用于超短半徑水平井的鉆井方法,2012.5.30,中國,ZL201010565816.0

申請發明專利:

[1]     一種多分支水平井閉式循環開發水熱型地熱的方法,申請號,201710200768.7

[2]     一種井下動力鉆井系統,申請號,201710256417.8

[3]     一種井下動力鉆頭裝置,申請號,201710256405.5

[4]     一種雙水平井循環超臨界二氧化碳開發干熱巖的方法,申請號,201710263932.9

[5]     地熱井雙層真空保溫結構及其使用方法,申請號,201710542031.3

[6]     鉆井系統,申請號,201710140725.4

[7]     一種適用于干熱巖開采的熱裂解造縫方法,申請號,201610945706.4

[8]     一種利用熱力射流開采天然氣水合物的方法及系統,申請號,201510522831.X

[9]     井筒環空中氣液固三相間滑脫測量設備及方法,申請號:201410312172.2

[10]  模擬井筒多功能流動測試系統,申請號:201310352220

[11]  利用窄間隙高速流體拖曳力送進高壓軟管的方法,申請號:201510664563.5

[12]  一種利用液氮進行干熱巖鉆井的新方法,申請號:201610736667.7

[13]  一種多功能高壓水射流—PDC齒聯合破巖實驗鉆頭,申請號:201611202980.9

[14]  水力脈沖與碟簧耦合驅動軸向振動鉆井方法與裝置,申請號:201510763178.6

研究項目:

[1]     國家自然科學基金青年基金項目高溫射流沖擊-熱裂解耦合破巖機理與實驗研究,2016.01-2018.12

[2]     國家自然科學基金石油石化聯合基金重點支持項目深層高溫高壓油氣井安全高效鉆完井基礎研究,2016.01-2019.12

[3]     國家自然科學基金重大國際合作項目頁巖氣藏水平井完井與多級壓裂增產的基礎研究,2013.01-2017.12

[4]     國家自然科學基金面上項目液氮噴射射孔-壓裂可行性實驗研究,2014.01-2017.12

[5]     國家重點研發計劃政府間國際科技創新合作重點專項地熱智能井鉆完井關鍵技術與優化設計平臺,2017.01-2018.12

[6]     高等學校學科創新引智計劃項目深部地熱資源開發基礎研究,2017.01-2022.01

[7]     國家973計劃項目深井復雜地層安全高效鉆井基礎研究,2010.01-2014.12

[8]     國家科技重大專項任務深層高壓井井筒流動應用基礎研究,2016.01-2020.12

[9]     國家科技重大專項任務完井方式適應性評價技術及水平井完井配套工具研究,2011.01-2015.12

[10]  國家科技重大專項任務徑向水平井技術,2011.01-2015.12

[11]  高等學校全國優秀博士學位論文作者專項資金資助項目熱力射流提高深井鉆速可行性研究,2013.01-2017.12

[12]  中國石油科技創新基金研究項目熱力射流沖擊-裂解耦合破巖機理研究,2015.10-2017.09

[13]  中國博士后科學基金面上項目水平井微小井眼鉆井攜巖規律數值模擬與實驗,2011.07-2012.06

科研獎勵與榮譽:

[1]     全國優秀博士學位論文獲得者,2012.12

[2]     孫越崎青年科技獎,2016.09

[3]     中國石油和化學工業聯合會技術發明一等獎,2014.11

[4]     中國石油和化學工業聯合會創新團隊獎,2015.11

[5]     中國石油和化學工業聯合會科學技術進步一等獎,2010.10

[6]     教育部科技進步一等獎,2011.01

[7]     中國石油大學(北京)青年拔尖人才,2013-2016

教學獎勵與榮譽:

[1]     第九屆中國石油大學(北京)優秀教學成果一等獎,2015.12

[2]     第八屆中國石油大學(北京)優秀教學成果一等獎,2012.08

[3]     第七屆中國石油大學(北京)優秀教學成果一等獎,2011.06

[4]     第十屆中國石油大學(北京)優秀教學成果二等獎,2017.06

[5]     中國石油大學(北京)第二屆青年教學效果卓越獎,2017.08

[6]     中國石油大學(北京)第四屆青年教學骨干教師,2014.05

[7]     中國石油大學(北京)第十一屆泓達杯青年教師教學基本功比賽二等獎,2015.11

[8]     中國石油大學(北京)第十屆泓達杯青年教師教學基本功比賽二等獎&最佳教案獎,2013.11

[9]     中國石油大學(北京)青年拔尖人才,2013-2016

[10]  中國石油大學(北京)石油工程學院院長獎(最佳科研獎),2013

[11]  中國石油大學(北京)首批院級品牌課教師,2016

[12]  中國石油大學(北京)校工會積極分子,2013

[13]  中國石油教育學會百篇優秀論文一等獎,2016.12

社會與學術兼職:

[1]     第二屆世界石油理事中國國家委員會(WPC)青年委員會委員,2014-至今

[2]     第四屆水射流專業技術委員會委員,2016-至今

[3]     美國地熱資源委員會(GRC)第41屆年會的分會主席(Session Chair),2017.10

[4]     SPE會員,中國石油學會會員

 

[5]     Energy,Applied Energy,Applied Thermal Engineering,Journal of Petroleum Science and Engineering,Energy Sources Part A 等期刊審稿人

28杠