Representative scientific research work
1 National Natural Fund Project "Study on Time-temperature Effect Mechanism of Thermal Evolution of Organic Radicals (40472066)" (research period: 2005-2007)
2 "973" national second-class project "Analysis of hydrocarbon generation conditions and hydrocarbon generation history of marine carbonate strata in China (2005CB422 102)" (research period: 2005-2008).
3. Project supported by the Ministry of Education for outstanding talents in the new century: "Thermal evolution history of over-mature organic matter and paleogeothermal recovery methods in carbonate areas of China" (research period: 2006-2008).
4. The second-level project of the major project of CNOOC Tianjin Branch, "Distribution prediction of high-quality source rocks and quantitative evaluation of oil and gas resources in Bohai Bay area" (research period: 2006-2008).
5 National Natural Fund Project "Mechanism of Trace Elements Inhibiting or Catalyzing the Maturation of Organic Matter in Sedimentary Basins (403420 14)" (research period: 2004-2004).
6 "Study on distribution and evolution of source rocks in basins on both sides of the middle section of the Tan-Lu fault (P03007)", a major project of China Petrochemical during the Tenth Five-Year Plan (research period: 2003-2005).
The national "973" second-level project "Study on thermal history recovery method of typical superimposed basins (G 1999043302)" (research period: 2000-2004).
China Petroleum Youth Innovation Fund Project "Organic-inorganic mechanism of abnormal organic matter vitrification in sedimentary basins (03E70 1 1)" (research period: 2003-2005).
9 Large-scale scientific research project of China Petrochemical Western Petroleum Exploration and Development Command "Distribution characteristics, evolution history and oil source contribution of effective source rocks in Junggar Basin" (research period: 2004-2007).
10 the key fund project of the Ministry of education for tackling key scientific and technological problems, "Exploration of paleogeothermal recovery methods in Paleozoic carbonate areas of sedimentary basins (03 108)" (research period: 2003-2005).
1 1 National Tenth Five-Year Sub-project "Accumulation Mechanism of Paleogene Subtle Oil and Gas Reservoirs in Jiyang Depression (200 1BA605A09)" (research period: 2000-2003).
12 the major basic research project of China Petrochemical during the Tenth Five-Year Plan "Study on the Reservoir-forming Combination Model of Bamianhe Oilfield" (research period: 2000-2003).
13 "Study on Temperature and Pressure Field in Qaidam Basin (970208-04-0 1)" (research period: 1996- 1998).
14 National "973" Support Project "Formation Mechanism and Model of Paleogene Lithologic Oil and Gas Reservoir in Qikou Depression, Huanghua Depression" (research time: 2003-2004)
Shengli Oilfield 15 Horizontal Project "Study on Neogene Hydrocarbon Accumulation Mechanism and Model in Zhanhua Depression" (research time: 2005-2006)
Main thesis
Qiu Nansheng, Su Xiangguang, Li, Liu Zhongquan, Cenozoic tectonic-thermal evolution history of Jiyang Depression. Journal of Geophysics, 2006,49 (4):1127-1135. [including SCI]
Qiu Nansheng, Lee Hye-ri, Jin Zhijun, Zhu Yingkang. Study on paleotemperature scale of organic free radicals in thermal history recovery of carbonate rock series. Journal of Geology, 2006,80 (3): 390-397.
Qiu Nansheng, Wang, Xie Mingju, discussion on the physical and chemical environment of vitrinite reflectance anomaly in sedimentary basin. Journal of Geology, 2006,80 (10):1760-1769.
Pang, Qiu Nansheng, Jiang, 2005, quantitative simulation of hydrocarbon accumulation process. Petroleum industry press.
Qiu Nansheng, Zhaopin, Wang Xulong, Yang Haibo, 2005, Tectonic Thermal Evolution in Junggar Basin: Constraints from ro and Patent Conflict Trajectory Simulation. Petroleum geoscience,11(4): 361-372. [including SCI]
Qiu Nansheng, Lee Hye-ri, Jin Zhijun, 2005, Exploration of thermal history recovery method in carbonate rock area of Lower Paleozoic. Frontier of Earth Science, 12 (4): 56 1-567.
Qiu Nansheng, Hu Shengbiao, He, 2004, Theory and application of thermal system research in sedimentary basins. Petroleum Industry Press, 240 pages.
Qiu Nansheng, 2003, geothermal register of Qaidam basin in the northeast of Qinghai-Tibet Plateau. Journal of Geology.140 [6]: 707-719 [included in SCI].
Qiu Nansheng, Kang, Jin Zhijun, 2003, Temperature and Pressure Field of Tertiary Strata in the west of Qaidam Basin in the northeast of Qinghai-Tibet Plateau. Marine and Petroleum Geology.20 (5): 493-507
[10] Qiu Nansheng, Jin Zhijun, Li Jingchang, 2002, Preliminary study on thermal historical fluctuation model in thermal evolution analysis of sedimentary basins. Journal of Geophysics, 45 (3): 398-406. [including SCI]
[1 1] Sheng, 2002, Tectonic Thermal Evolution in Qaidam Basin: Evidence from RO and patented fishing line data. Petroleum Geoscience.8 (3): 279-285 [included by SCI].
Qiu Nansheng, Jin Zhijun, Hu Wenxuan, 2000, Fluid inclusion analysis of oil and gas filling history in Dongying sag. Journal of Petroleum University (Natural Science Edition), 24 (4): 95-97.
Qiu Nansheng, Jin Zhijun, 2000, discussion on the pulsation of oil and gas accumulation. Frontier of Earth Science, 7 (4): 56 1-567.
Qiu Nansheng, Kang, Fan Honghai, etc. , 1999, discussion on the relationship between tertiary temperature and pressure and oil and gas distribution in western Qaidam basin. Journal of Geophysics, 42 [6]: 826-833. [including SCI]
Sheng,, 1998, using free radicals of organic matter to determine paleogeothermal gradient. Organic Geochemistry.28 (1/2): 77-86. [included by SCI and EI]
Qiu Nansheng, Wang Jiyang, Zhou Licheng, etc., 1995. Study on thermal evolution of source rocks in three-dimensional basin by electron paramagnetic resonance technique. China, the science bullet is in. 40 ⒆: 1625- 1628。 [included by sci and EI]
[17] Qiu Nansheng, Jin, 1992, Method for determining parameters of new coal rank by laser-induced fluorescence. Science Bulletin, 37 (22): 2072-2075.
Award-winning achievements at or above the provincial and ministerial level
1The first prize of natural science awarded by the Ministry of Education in 2006: Thermal System, Thermal History and Its Role in Oil and Gas Accumulation in China, ranking first;
2. In 2005, the Ministry of Education won the first prize for scientific and technological progress: Paleogene hydrocarbon migration, accumulation and potential exploration in Jiyang Depression, ranking eighth;
3. The first prize of technical innovation of China Petroleum and Natural Gas Corporation in 2002: Study on Quantitative Reservoir-forming Model of Large and Medium-sized Oil and Gas Fields, ranking11;
4. The second prize of scientific and technological progress awarded by the Ministry of Education in 2003: Basic research on oil and gas geology and resource evaluation in Qaidam Basin, ranking15;
In 2005, the third prize of scientific and technological progress in Hubei Province: tapping the potential of Bamianhe Oilfield, ranking sixth.
The 9th China Youth Geological Science and Technology Award-Silver Hammer Award;
Student training situation
Pay attention to cultivating students' innovative ability, independent working ability and practical ability, and adopt the methods of guidance, exchange and mutual discussion to cultivate students' scientific research ideas and comprehensive analysis and problem-solving ability. In principle, first-year graduate students are not required to participate in scientific research, mainly attending lectures and consulting relevant documents, learning to write scientific papers, and focusing on research methods, research status and development prospects at home and abroad. After entering the thesis stage, choose the topic of the thesis, further read and analyze the literature, and enter the training stage of independent work. Graduate students are required to publish at least 1 paper (including admission) before graduation. The subsidy for graduate students after entering the thesis will be rewarded according to their work performance and the regulations of the school.