邱楠生�,男�,福建連城縣人����,1968年7月生����,教授��,博士生導師�,國家杰出青年基金獲得者���,教育部長江學者特聘教授�����。1989年淮南礦業學院(現安徽理工大學)本科畢業���,1991年于中國礦業大學北京研究生部獲煤田地質學碩士學位����,1994年于中國科學院地質研究所獲構造地質學博士學位�����。1998.10~1999.4在美國Oklahoma State University做訪問學者�����。1994年7月至今在中國石油大學(北京)盆地與油藏研究中心從事教學與科研工作�,2012-2016擔任中心主任�����。研究方向為沉積盆地溫壓場����、盆地構造~熱演化和油氣成藏機理����。發表SCI收錄論文80余篇(其中第一/通訊作者60篇)��,出版專著3部���。獲得教育部自然科學一等獎等省部級一等獎5項�,2003年獲得青年地質科技獎�、2005年入選教育部“新世紀優秀人才支持計劃”�,2011年獲國家杰出青年科學基金資助�����,2013年入選教育部“長江學者特聘教授”�,2014年獲第七屆黃汲清青年地質科學技術獎��,2016年入選科技北京百名領軍人才培養工程�。
辦公電話:010-89733340, 手機:13910633594��,Email:qiunsh@cup.edu.cn
1�����、研究領域
(1)沉積盆地溫壓場��,(2)地熱資源評價�����,(3)沉積盆地熱體制和熱歷史����,(4)油氣成藏機理
2�����、學術兼職
(1)油氣資源與探測國家重點實驗室副主任
(2)中國地質學會構造地質學與地球動力學專業委員會副主任
(3)中國地球物理學會地熱專業委員會委員
(4)中國石油大學(北京)地球科學學院學術委員會主任
(5)《地學前緣》����、《石油學報》�、《Petroleum Science》和《石油科學通報》編委
3��、講授的主要課程
(1)《沉積盆地溫壓場》(1995年-)�����,研究生課程
(2)《地熱學基礎》(2017年-)��,研究生課程
(3)《科技論文寫作》(2012年-)��,本科生課程
(4)《地熱資源勘查》(2018年-)�,本科生課程
(5)《地質過程定量模擬》(2003-2011年)�,研究生課程
4�����、在研主要項目
【1】國家自然科學基金重點項目“四川盆地構造-熱演化及其對震旦-寒武系天然氣成藏的約束”(2019-2023)
【2】國家自然科學基金重大項目“頁巖氣改造-散失途徑與保存條件”子專題(2017-2021)
【3】國家重點研發計劃“超深層環境油氣生成與烴源灶有效性評”課題之子專題(2018-2021)
【4】華北油田項目“冀中坳陷重點潛山及內幕油氣演化與成藏機理研究”(2018-2019)
【5】中石化油氣成藏重點實驗室開放基金“川東丁山地區構造-熱演化研究:來自低溫熱年代學和構造物理模擬的約束”(2018-2019)
【6】中石化西部研究中心項目“塔里木盆地典型地區特深層溫壓場研究”(2018-2019)
【7】北京市科技新星與領軍人才培養計劃項目(2017-2019)
5��、已完成的主要項目
【1】國家自然科學基金項目
①國家杰出青年科學基金項目“石油與天然氣地質學”(2012-2015)
②重點項目“華北克拉通破壞的地熱學響應-來自沉積盆地熱歷史的約束”(2012-2015)
③面上項目“塔里木盆地西北緣構造-熱演化的低溫熱年代學約束”(2011-2013)
④面上項目“有機質自由基熱演化的時間-溫度效應機制研究”(2005-2007)
⑤面上項目“沉積盆地中微量元素抑制或催化有機質成熟的機理” (2004-2004)
【2】國家油氣重大專項/國家重點研發項目
①油氣重大專項“典型大型氣田形成的溫壓場研究”專題(2009 -2015)
②油氣重大專項“準噶爾盆地準中地區油氣成藏動力研究”專題(2011-2015)
【3】國家“973”�����、“863”項目
①國家“973”項目“構造熱演化與頁巖氣的改造和保存”課題之子專題(2012-2016)
②國家“973”項目“中國西部疊合盆地多期構造過程疊加與深部古溫壓場重建”課題之子專題(2011-2015)
③國家“863”項目“天然氣水合物成藏條件實驗模擬技術”(2006-2010)
【4】省部級項目
①教育部重大項目“中國典型海相沉積盆地熱動力學與油氣成藏”(2008-2011)
②教育部新世紀優秀人才支持計劃項目“我國碳酸鹽巖地區有機質高-過成熟的熱演化歷史及古地溫恢復方法探”(2006-2008)
③教育部重點基金“沉積盆地古生代碳酸鹽巖地區古地溫恢復方法探索”(2003-2005)
④中石化海相前瞻性項目“中國陸域海相沉積盆地烴源巖成熟度與生烴期次”(2007-2010)
⑤中石化“十五”重大基礎研究項目“八面河油田成藏組合模式研究”(2000-2003)
⑥中石化西指項目“準噶爾盆地有效烴源巖分布特征�、演化歷史和油源貢獻” (2004-2007)
⑦中石化 “十五”重大項目“郯廬斷裂中段兩側盆地烴源巖分布及演化規律研究”(2003-2005)
⑧中石油創新基金“沉積盆地有機質鏡質體反射率異常的有機-無機作用成因機理” (2003-2005)
⑨中石油創新基金“深部熱力系熵與流體輸運熱動力學機制研究(CX2000-05)”(2000-2002)
⑩中石油“九五”項目三級課題“柴達木盆地溫壓場研究”(1996-1998)
⑾中海油重大項目“渤海灣地區優質烴源巖分布預測與油氣資源定量評價”(2006-2010)
【5】其他項目/橫向項目
①中國石油勘探開發研究院杭州地質研究院項目“四川盆地震旦~古生界深層碳酸鹽巖溫壓場研究”(2015-2016)
②華北油田校企合作項目“冀中坳陷重點潛山帶油氣成藏動力與優勢運移方向”(2015-2016)
③中國石化油氣成藏重點實驗室對外開放基金“南方志留系龍馬溪頁巖成熟度表征方法和過程研究”(2014-2015)
④中國石化油氣成藏重點實驗室對外開放基金“有機質熱演化的時間-溫度效應機制研究”(2012-2013)
6����、發表的主要論著
[1]Qiu N S, Liu S. Uplift and denudation in continental area of China linked to climate effects: evidence from apatite and zircon fission track data. Scientific Reports,2018, 8:9546. [SCI]
[2]Liu W, Qiu N S*, Xu Q C, Liu Y F. Precambrian temperature and pressure system of Gaoshiti-Moxi block in the central paleo-uplift of Sichuan Basin, southwest China. Precambrian Research, 2018, 313:91-108.[SCI]
[3]Tian Y T, Kohn B P, Qiu N S, et al., Eocene to Miocene out-of-sequence deformation in the eastern Tibetan Plateau: Insights from shortening structures in the Sichuan Basin. Journal of Geophysical Research-Solid Earth, 2018, 123(2):1840-1855. [SCI]
[4]Jiang Q, Qiu N S*, Zhu C Q, Heat flow study of the Emeishan large igneous province region: Implications for the geodynamics of the Emeishan mantle plume. Tectonophysics, 2018, 724-725: 11-27.[SCI]
[5]Liu Y F, Qiu N S*, et al., Temperature and pressure characteristics of the Ordovician gas condensate reservoirs in the Tazhong area, Tarim Basin, Northwest China. AAPG Bulletin, 2018, in press[SCI�,EI]
[6]Chang J, Qiu N S*, Zhao X Z, et al., Tectono-thermal reconstruction of the western Bohai Bay Basin (East China) and its implication for hydrocarbon generation and migration. Journal of Asian Earth Sciences, 2018, 160:380-395. [SCI]
[7]Xu Q C, Qiu N S*, Zhang G W, et al., Thermal Evolution and Maturation of Sinian and Cambrian Source Rocks in the Central Area of the Sichuan Basin, Southwest China. Journal of Asian Earth Sciences, 2018,164:143-158. [SCI]
[8]Liu Y F, Qiu N S*, Chen J F, et al., Origins and accumulation processes of the Ordovician gas condensate in the Tazhong area, Tarim Basin, northwest China. Geological Journal, 2018, 53(4): 1354-1371 [SCI]
[9]Liu W, Qiu N S*, Shen A J, et al., The evolution of pore-fluid pressure and its causes in the Sinian-Cambrian deep carbonate gas reservoirs in Central Sichuan Basin, Southwest China. Journal of Petroleum Science and Engineering,2018,160: 96-109 [SCI]
[10]Xu W, Qiu N S*, Wang Y, Chang J. The evolution of the Meso-Cenozoic lithospheric thermal-rheological structure in the Jiyang sub-basin, Bohai Bay Basin, eastern North China Craton. International Journal of Earth Sciences, 2018, 107:153-166 [SCI]
[11]Liu Y C, Chen D X*, Qiu N S*, et al., Geochemistry and origin of continental natural gas in the western Sichuan basin, China. Journal of Natural Gas Science and Engineering,2018, 49:123-131. [SCI]
[12]Zhu C Q, Hu S B, Qiu N S, et al., Geothermal constraints on Emeishan mantle plume magmatism: paleotemperature reconstruction of the Sichuan Basin, SW China. International Journal of Earth Sciences, 2018,107:71-88. [SCI]
[13]Wu H, Wu S X, Qiu N S*, et al., Quantitative identification of the annealing degree of apatite fission track using the terahertz time domain spectroscopy (THz-TDS). Applied Spectroscopy, 2018, 72(6):870-878. [SCI]
[14]Chang J, Qiu N S, Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1):49-61. [SCI]
[15]Chang J, Tian Y T, Qiu N S*. Mid-Late Miocene deformation of the northern Kuqa fold- and-thrust belt (southern Chinese Tian Shan): An apatite (U-Th-Sm)/He study. Tectonophysics, 2017,694:101-113. [SCI���,EI]
[16]Liu Y F, Qiu N S*, Yao Q Y, Zhu C Q. Impact of Temperature on Overpressure Unloading in the Central Sichuan basin, southwest China. Journal of Petroleum Science and Engineering, 2017,156:142-151. [SCI���,EI ]
[17]Xu W, Qiu N S*. Heat flow and Destabilized Cratons: A comparative study of the North China, Siberian, and Wyoming Cratons. International Geology Review, 2017,59(7):884-904. [SCI]
[18]Liu N, Qiu N S*, Chang J, et al., Hydrocarbon migration and accumulation of the Suqiao Buried-hill Zone in Wen’an Slope, Jizhong Subbasin, Bohai Bay Basin, China. Marine and Petroleum Geology,2017, 86:512-525. [SCI��,EI]
[19]Liu Y C, Chen D X*, Qiu N S*, et al., Reservoir characteristics and methane adsorption capacity of the Upper Triassic continental shale in Western Sichuan Depression, China. Australian Journal of Earth Sciences, 2017,64(6): 807-823[SCI]
[20]Li L, Qiu N S. The initiation and tectonic regimes of the Cenozoic extension in the Bohai Bay Basin, North China revealed by numerical modelling. J. Asian Earth Sciences, 2017, 140:92-107. [SCI]
[21]Qiu N S, Zuo Y H, Xu W, et al., Meso-Cenozoic lithosphere thinning in the eastern North China Craton: evidence from thermal history of the Bohai Bay Basin, North China. Journal of Geology, 2016, 142: 195-219. [SCI]
[22] Nansheng Qiu,Yinhui Zuo, Wei Xu, Jian Chang, Meso-Cenzoic thermal structure of the lithosphere in the Bohai Bay Basin, eastern North China Craton. Geological Journal, 2016, 51:794-804. [SCI]
[23] Liu Y F, Qiu N S, Xie Z Y, et al., Overpressure compartments in the Central Paleo-Uplift, Sichuan Basin, Southwest China. AAPG Bulletin, 2016,100(5):867-888 [SCI]
[24] Chang J, Li J W, Qiu N S, Song X Y, Li H L. Multiple cooling episodes in Central Tarim (Northwest China) revealed by apatite fission track analysis and vitrinite reflectance data. International Journal of Earth Science, 2016,105(4):1257-1272. [SCI]
[25]Liu Y F, Qiu N S, Chang J, et al., Distribution and evolution for the Upper Triassic overpressures in the central of Sichuan Basin, SW China. Journal of Petroleum Science and Engineering, 2016, 1116-1129.
[26]Chang J, Qiu N S and Xu W. Thermal regime of the Tarim Basin, Northwest China: A review. International Geology Review, 2017, 59(1) :49-61.
[27] Li Z, Qiu N S, Chang J, Yang X M., Precambrian evolution of the Tarim Block and its tectonic affinity to other major continental blocks in China: New clues from U-Pb geochronology and Lu-Hf isotopes of detrital zircons. Precambrian Research, 2015, 270:1-21. [SCI]
[28]Cai C E, Liu Z, Qiu N S, He J L, Xu S H. Hydrocarbon accumulation in the northwest Chaluhe Fault Depression, Yitong Basin, North China. Australian Journal of Earth Sciences, 2015, 62:4, 513-527. [SCI]
[29] Qiu N S, Xu W, Zuo Y H, Chang J. Meso-Cenozoic thermal regime in the Bohai Bay Basin, eastern North China Craton. International Geology review, 2015, 57(3):271-289[SCI]
[30] Zuo Y H, Qiu N S, Hao Q Q, et al., Geothermal regime and source rock thermal evolution in the Chagan sag, Inner Mongolia, northern China. Marine and Petroleum Geology, 2015, 59:245-267. [SCI]
[31] Qiu N S, Zuo Y H, Chang J, Li W Z. Geothermal evidence of Mesozoic and Cenozoic lithospheric thinning in the eastern North China craton: constraints from the thermal history of the Jiyang sub-basin, Bohai Bay Basin. Gondwana Research, 2014, 26(3-4):1079-1092. [SCI]
[32]Yu Y X, Tang L J, Yang W J, Huang T Z, Qiu N S and Li W G, Salt structures and hydrocarbon accumulations in the Tarim Basin, northwest China. AAPG Bulletin, 2014, 98(1): 135-159 [SCI,EI].
[33]Chang J, Roderick B, Yuan W M, Li W Z, Que Y Q, Qiu N S*. Mesozoic cooling history of the ‘Bachu Uplift’ in the Tarim Basin, China : constraints from zircon fission-track thermochronology. Radiation Measurements,2014,67:5-14
[34] Qiu N S, Chang J, Zuo Y H, Wang J Y, Li H L. Thermal evolution and Lower Paleozoic source rocks maturation in the Tarim Basin, Northwest China. AAPG Bulletin, 2012, 96(5): 789-821[SCI,EI]
[35] Qiu N S, Chang J, Li W Z, Yun L, Li H L. New evidence on the Neogene uplift of South Tianshan: Constraints from the (U-Th)/He and AFT ages of borehole samples of the Tarim basin and implications for hydrocarbon generation. International J. of Earth Sciences, 2012, 101(6): 1625-1643[SCI]
[36] Qiu N S, Li H L, Xu E S, Qin J Z, Zheng L J. Temperature and time effects on free radical concentration in organic matters: evidence from laboratory pyrolysis experimental and geological samples. Energy Exploration and Exploitation, 2012, 30(2):311-329 [SCI, EI]
[37] Chang J, Qiu N S, Li J W. Tectono-thermal evolution of the northwestern Tarim Basin in China: Constrains from zircon and apatite (U-Th)/He thermochronology. J. of Asian Earth Sciences, 2012, 61:187-198. [SCI]
[38]Chang J, Qiu N S. Closure temperature of (U-Th)/He system in apatite obtained from natural drillhole samples in the Tarim basin and its geological significance. Chinese Science Bulletin, 2012,57(26): 3482-3490. [SCI, EI]
[39]Tian Y T, Qiu N S, Barry P K, et al., Detrital zircon (U-Th)/He thermochronometry of the Mesozoic Daba Shan foreland basin, central China: evidence from timing of post-orogenic denudation. Tectonophysics, 2012,(570-571):65-77 [SCI]
[40] Zuo Y H, Qiu N S, Zhang Y, et al., Geothermal regime and hydrocarbon Kitchen evolution of the offshore Bohai Bay Basin, North China. AAPG Bulletin, 2011, 95(5):749-769[SCI,EI]
[41] Qiu N S, Jiang G, Mei Q H, et al., The Paleozoic tectonothermal evolution of the Bachu Uplift of the Tarim Basin, NW China: constraints from (U-Th)/He ages, apatite fission track and vitrinite reflectance data. J. of Asian Earth Sciences, 2011, 41(6):551-563 [SCI]
[42] Qiu N S, Zuo H Y, Zhou X H, Li C C. Geothermal regime of the Bohai Offshore Area, Bohai Bay Basin, North China. Energy Exploration & Exploitation, 2010, 28(5):327-350 [SCI,EI]
[43]Qiu N S, Wang J Y, Mei Q H, et al., Constraints of (U-Th)/He ages on early Paleozoic tectonothermal evolution of the Tarim Basin, China. Science China: Earth Sciences, 2010, 53(7): 964-976.[SCI,EI]
[44]邱楠生, Reiners P,梅慶華,姜光,等, (U-Th)/He年齡在沉積盆地構造-熱演化研究中的應用-以塔里木盆地KQ1井為例(中英文對照).地球物理學報,2009,52(7):1825-1835 [SCI].
[45]Qiu N S, Zhang Z H, Xu E S. Geothermal regime and Jurassic source rocks maturity in the Junggar Basin, Northwest China. J. Asian Earth Science, 2008, 31(4-6):464-478[SCI]
[46] Qiu N S, Li H L, Jin Z J, Zhu Y K. Temperature and time effect on the concentrations of free radicals in coal: evidence from laboratory pyrolysis experiments. International J. of Coal Geology, 2007, 69(3): 220-228. [SCI,EI]
[47]邱楠生,蘇向光,李兆影, 張杰,柳忠泉,李政,張林曄. 郯廬斷裂中段兩側坳陷新生代構造-熱演化歷史研究(中英文對照). 地球物理學報, 2007,50(5):1497-1507 [SCI]
[48]Qiu N S, Zha M, Wang X L, Yang H B. Tectono-thermal evolution of the Junggar Basin, Northwest China: Constraints from Ro and apatite fission track modeling. Petroleum Geosciences, 2005, 11(4):361-372.[SCI]
[49]邱楠生,胡圣標和何麗娟,沉積盆地熱體制研究的理論和應用.石油工業出版社,2004.
[50]Qiu N S. Geothermal regime in the Qaidam basin, northeast Qinghai-Tibet Plateau. Geological Magazine, 2003, 140(6):707-719 [SCI]
[51]Qiu N S, Kang Y S, Jin Z J. Temperature and pressure field in the Tertiary succession of the Western Qaidam Basin, Northeast Qinghai-Tibet Plateau, China. Marine and Petroleum Geology, 2003, 20(5):493-507[SCI,EI]
[52]Qiu N S. Tectono-thermal Evolution of the Qaidam Basin, China-evidence from Ro and Apatite fission track data. Petroleum Geosciences, 2002, 8(3):279-285 [SCI]
[53]Qiu N S, Wang J Y. The use of free radicals of organic matter to determine paleogeo- temperature gradient. Organic Geochemistry, 1998, 28(1/2):77-86[SCI,EI]
7����、獲獎和榮譽情況
【1】教育部2014年度科技進步一等獎《陸相斷陷盆地流體活動與油氣成藏》���,排名第3�����;
【2】2014年中國產學研合作創新成果獎《渤海灣地區油氣形成富集與分布預測》���, 排名第5��;
【3】北京市2011年度科技進步一等獎《油氣臨界成藏理論�����、評價方法與重大勘探成效》�,排名第3�;
【4】教育部2006年度自然科學一等獎《中國主要含油氣盆地熱體制���、熱歷史及其在油氣成藏過程中的作用》��,排名第1�;
【5】教育部2005年度科技進步一等獎《濟陽坳陷下第三系油氣運聚成藏與挖潛勘探》����,排名第8���;
【6】CNPC2002年度技術創新一等獎:《大中型油氣田成藏定量模式研究》�,排名第11��;
【7】第九屆中國青年地質科技獎—銀錘獎(2003年)�;
【8】教育部新世紀優秀人才支持計劃(2005年)��;
【9】教育部度長江學者特聘教授(2013年)���;
【10】第七屆黃汲清青年地質科學技術獎——科技研究者獎(2014年)���;
【11】入選科技北京百名領軍人才培養工程(2016年)
8����、研究生培養情況
已畢業碩士研究生50余人(其中6人獲得學校優秀碩士論文)�����,博士研究生12人(其中3人獲得學校優秀博士畢業生)�。注重培養學生的創新能力�����、獨立工作能力和動手能力�,采取指導�����、交流與相互探討的方式�����,培養其科研思路及綜合分析問題和解決問題的能力����,鼓勵研究生出國參加國際會議���。碩士研究生一年級階段原則上不要求參與科研工作���,主要以上課和查閱相關文獻為主�����,學會撰寫科技論文�����,著重了解某方面科研的方法�、國內外研究現狀與發展前景���。進入論文階段后����,選定論文題目���、進一步進行文獻閱讀和分析�,進入獨立工作的培養階段����。要求碩士研究生畢業前至少公開發表論文1篇(含接受)��,參加1次以上的全國會議��。研究生進入論文后的補助將依據其工作表現��,在學校規定的基礎上給予獎勵�。博士研究生按照學校的規定發表1篇以上的國際期刊論文�����、參加相應的科研工作和鼓勵出國參加國際會議或進行國際交流����,現已有多名博士和碩士生到國外實驗室進行聯合研究���。
