1. Zhang Jinliang, Qin Lijuan, Zhang Zhongjie, 2008, Sedimentary Facies and Diagenesis of Silurian Sandstone in Tazhong Area, Tarim Basin, Western China and Its Influence on Reservoir Quality, Asian Geoscience, Vol.33, No.2 (sci is included in SCI).

2. Yang Zicheng, Zhang Jinliang, 2008. Application of fluid history analysis method in hydrocarbon accumulation —— Taking Huimin sag as an example, Journal of China Youshi University, 32 (5) (included in EI)

3.2008, Hang Xiaohua, Zhang Jinliang, Application of High Resolution Sequence Stratigraphy in Terminal Fan System of Upper 2-3 Layer of Shahejie Formation in West Area of Pucheng Oilfield, Acta Stratigraphica, 32(4).

4.2008, Ma, Zhang Zhongjie, Zhang Xin. Importance of user interaction in 3D geological modeling and reservoir development. Proceedings of the 1st International Conference on Modeling and Simulation (ISBN978- 1-84626-046-9). Page 290-293

5. In 2008, Wang Jinkai, Zhang Jinliang, Xie Jun and Zhang Xin. Application of geological modeling and reservoir simulation in the middle and upper strata of the third member of Hetaoyuan Formation in Xiaermen Oilfield. Summary of the 1st International Conference on Modeling and Simulation (ISBN978- 1-84626-046-9). Pages 267-270.

6. In 2008, Zhang Zhongjie, Zhang Jinliang, Jiang Yimin and Zhang Xin. Sedimentology and Reservoir Modeling of Xiaermen Oilfield in Yang Mi Depression. Proceedings of the first international conference on modeling and simulation. pp294-297。

7.2008, Xu Shujuan, Zhang Xin, Zhang Jinliang, Application of Computer Simulation in Geological Structure of Upper Member of Shahejie Formation in East Area of Pucheng Oilfield. Proceedings of the first international conference on modeling and simulation. pp282-285。

8. In 2008, Ailing Yang, Mingming Tang, Zhang Jinliang. Interpolation calculation of optical path surface based on Delaunay triangulation and sector boundary algorithm. Proceedings of the 1st International Conference on Modeling and Simulation (ISBN978- 1-84626-043-8). Page 86-90

9. In 2008, Tang Mingming, Yang Ailing, Zhang Jinliang. Optimal loss curve of step index single mode fiber. International symposium on modeling and simulation before the 2008 Olympic Games. Proceedings of the first international conference on modeling and simulation. pp236-239。

10.2008, Xie Jun, Liang,. Genesis and Distribution Characteristics of Interlayer in Terminal Fan Reservoir of Pucheng Oilfield, Journal of China Ocean University, 38 (4): 653-656.

1 1.2008, Zhang Xin, Zhang Jinliang. Sedimentary characteristics and model of turbidite glutenite in the lower member of Shahejie Formation in Shengtuo area, acta petrolei sinica, 29 (4): 533-538 (included in ei).

12.2008, Zhang Jinliang, Zhang Xin. Petrology and geochemistry of Eocene sandstone and siltstone in Huimin sag, Journal of China.

University of Geology, Vol. 19, No.3, pp. 252-270 (included by SCI).

13.2008, Zhang Jinliang, Zhang Zhongjie, Silurian tidal sedimentary facies-

Ancient Estuary in Tazhong, Tarim Basin, Petroleum Science, Vol.5, No.2, pp95- 104.

14. Zhang Wei, Zhang Jinliang, Xie Jun, 2008, Study on Reservoir Heterogeneity, Interlayer and Controlling Factors of 2+3 Layer in the Upper Second Member of Shahejie Formation in the West of Pucheng Oilfield. Petroleum Science, Volume 5, No.2, Page 135- 144.

15.2008, Zhang Jinliang, Zhang Xin. Sedimentary facies and oil and gas distribution of glutenite in the upper fourth member of Shahejie Formation in Shengtuo area, Acta Sedimentology, 26 (3): 36 1-368.

16.2008, Zhao,, Song, et al. Structural development model of weathering crust at the top of Paleogene in the eastern Yihezhuang uplift and its influence on hydrocarbon migration and accumulation. Acta Sedimentary Sinica, 26 (3): 435-443.

17.2008, Zhang Jinliang, Yang Zicheng. Biomarker characteristics and oil source correlation of crude oil in the south slope of Dongying sag, Journal of China Ocean University,

38(3):453-460

18.2008, Xie Jun, Liang. Study on Sedimentary Facies and Models of Silurian Kepingtage Formation in Tarim Basin, Journal of An University, 23 (2): 1-5 (included in EI) 19. Jiang Yiming, Zhang Jinlian, 2008. Braided river delta deposits in the broad marine background: middle section of Kepingtage Formation in central Tarim Basin, Journal of China Ocean University, Vol.7, No.2, pp 145- 153.

20. In 2008, Xie Jun, Sri Lanka. Influence of diagenetic traps on gas reservoirs, Natural Gas Industry, 28 (6): 27-302 1 .2008, Sri Lanka, Yang Zicheng. Diagenesis of beach bar sandstone in the upper fourth member of Shahejie Formation in Boxing Depression and its relationship with reservoir quality, Youshi University, China.

22. In 2008, Xue Qiang, Zhang Jinliang. Geological characteristics and exploration direction of the upper member of Shahejie Formation in Guangli Oilfield, Journal of Xi University,

23 (1): 6-11(included in EI) 23. Zhang Jinliang, Zhang Xin, 2007. Geochemical Characteristics of Silurian Sandstones in Tazhong Area and Significance of Provenance Discrimination, acta petrolei sinica 23 (1 1): 2990-.

24. In 2007, Zhang Xin, Zhang Jinliang, Qin Lijuan. Petrological characteristics and provenance analysis of sandstone in Kepingtage Formation, Tarim Basin, Mineral Rock, 27 (3): 106- 165438 (included in EI).

25.2007, Zhang Jinliang, Yang Zicheng, Application of Inclusion Oil in Oil and Gas Exploration.

Reservoir analysis of Huimin sag, presented at Guangzhou International Conference on Geological Fluids and Fluid Inclusions in 2007.

26. Zhang Jinliang, Si, 2007. Mixed Deposition of Carbonate Rock and Terrigenous Debris in Faulted Lake Basin. Geological Review, 53 (4): 448-45327 .2007, Qin Lijuan, Zhang Jinliang, Upper 2+3 Reservoir Evaluation in Southern Area of Pucheng Oilfield, Journal of Xi Youshi University, 22 (4): 40.

28. In 2007, Zhang Jinliang, Jia Ying and Du Guilin. Diagenesis of Silurian sandstone in Tabei area of Tarim basin and its influence on reservoir quality. Petroleum Science, Volume 4, No.3, pp 1- 13

29. Yang Zicheng, Zhang Jinliang, 2007. Application of fluid inclusions in reservoir analysis of the south slope of Dongying sag. Journal of China Geo University, 18, special issue, 3 17-3 19 (included in SCI).

30. Zhang Zhongjie, Zhang Jinliang, 2007. Sedimentology of upper Ordovician shoreline deposits in Tarim basin Journal of China Geo University, volume 18, special issue, page 3 1 1-3 13 (included in SCI).

3 1.2007, Zhang Jinliang, Zhang Xin. Fan delta and related turbidite deposits in steep slope zone of Dongying sag in Bohai Bay Basin. Journal of China Geo University, 18, special issue, 3 14-3 16 (included by SCI) 32. In 2007, Xie Jun, Liang. Evaluation of polymer performance indexes suitable for high temperature and high salt reservoirs. Journal of China Ocean University.

33. Zhang Jinliang, Dai Chaoqiang, 2007, Terminal Fan-A Neglected Sedimentary Type in China, Geological Review, 53 (2): 170- 179.

34. Zhang Xin, Zhang Jinliang, 2007, Geochemical Characteristics of Sandstone in the 4th Member of Shahejie Formation on the South Slope of Dongying Depression, Geological Science, 42 (2): 303-3 18.

35. In 2007, Zhang Ailing, Yang, Jun Yudong and Zhang. Study on maturity of source rocks by capillary interferometer. Go on. Spie's 6279，62794W- 1-8。 (including EI).

36. In 2007, Yang Ailing, Dong, Bi Decang, Gui Mei and Zhang Jilin. Experimental study on fringe pattern of liquid-filled capsules with focused laser sheet light. Go on. Spie's 6279, 627978- 1-7. (included in ei)

37. In 2007, Zhao, Sui Fenggui, Chen, Wang and Xiang. Based on the principal component analysis of logging data, the structural identification diagram of weathering crust is established, Logging Technology, 3 1(6):583-587.

38.2006, Deng Meiyin, Yang Xiaoming, Zheng, Determination of crude oil sample concentration by multi-point function fitting of synchronous fluorescence spectrum, Petroleum Exploration and Development, 33 (2): 205-207 (included in EI).

39.2006, Deng Meiyin, Yang Xiaoming, Zheng, Fluorescence analysis, spectroscopy and spectral analysis of crude oil samples based on different spectral techniques, (4): 728-732 (included in SCI).

40. In 2006, Deng Meiyin, Yang Xiaoming, Zheng, A new method to determine the concentration of crude oil samples based on three-dimensional synchronous fluorescence spectroscopy, spectroscopy and spectral analysis, (6): 1080- 1083 (included in SCI).

41.In 2006, Yang Ailing, Li Wendong, Yuan Guang, Dun, Measuring refractive index of liquid with capillary interferometer. Applied optics. 45 (3 1): 7993-7998. (included in EI)

42. Dai Chaoqiang, Zhang Jinliang, 2006. High-resolution sequence stratigraphic framework of the upper member of the fourth member of Shahejie Formation in the southern slope of Dongying Depression in northern Shandong, Geological Bulletin, 25 (9-10):168-174.

43. In 2006, Xue Qiang and Zhang Jinliang. Sedimentary characteristics and hydrocarbon enrichment conditions of the fourth member of Shahejie Formation in the north area of Gaoqing Oilfield. Special oil and gas reservoir, 13 (6): 22-24.

44. In 2006, Zhang Jinliang, Liang Jie, Xue Qiang and Lin Hui. Study on diagenesis of Yancheng natural gas reservoir in northern Jiangsu Province. Journal of China Ocean University, 36 (1):135-140.

45. Zhang Jinliang, Du Guilin, 2006, Diagenesis of Silurian Asphalt Sandstone in Tazhong Area and Its Influence on Reservoir Physical Properties, Mineral Rock, 26 (3). 85-93 (included in EI).

46. Zhang Jinliang,,, 2006, Sedimentary facies analysis of the third member of Fu in Jinhu Depression, Journal of China Ocean University, 36(4). 535-539.

47. In 2006, Zhang Jinliang, Zhang Xin, Element Geochemical Characteristics of Silurian Paleomarine Sedimentary Environment in Tarim Basin, China Ocean University.

Journal, vol. 36, No.2, pp. 200-208.

Main teaching materials and works

1, Zhang Jinliang, Xie Jun, Reservoir Sedimentary Facies (Textbook), Petroleum Industry Press, 20082, Zhang Jinliang, Xie Jun, Petroleum Development Geology (Textbook), Ocean University of China Press, the main award-winning project in 2008, 1. Mechanism and potential evaluation of deep basin gas accumulation in central Shaanxi Province.

2. Static and Dynamic Analysis of Oil Reservoirs and Enhanced Oil Recovery won the second prize of Shaanxi Science and Technology Progress Award, ranking second;

3. Description technology and prediction method of remaining oil in high water cut oilfield, third prize of Qingdao Natural Science, ranking first; China petrochemical workers

Second prize of industrial scientific and technological progress, ranking first;

4. The second prize of China Petroleum and Chemical Industry Scientific and Technological Progress Award "Oil and Gas Accumulation Conditions and Fine Exploration in Slope Zone of Dongying Depression" ranked first;

5. The third prize of Shandong Science and Technology Progress Award for Fine Exploration Technology and Exploration Practice of Gravel Reservoirs, ranking first; China petroleum and chemical industry

Second prize of scientific and technological progress, ranking first;

6. Development of geological logging oil and gas rapid detection technology and instrument, second prize of China petroleum and chemical industry scientific and technological progress, ranking first;

7. First prize of Qingdao Natural Science Third Prize "Geological Conditions and Reservoir-forming Mode of Gas Reservoir in Central Basin".

Patent application obtained 3 utility model patents.

1. A device for measuring the maturity of source rocks (applicants: Yang Ailing, Zheng,; 2. A device for directly measuring the refractive index of crude oil (Applicant: Yang Ailing, Zheng; )

3. A device and method for measuring the maturity of source rocks (Applicants: Yang Ailing, Zheng,; Notification of authorization has been received)

National invention patents entering substantive examination

1. Micro-area in-situ fluorescence spectrum measuring device (applicant: Yang Ailing, Zhang Jinliang, Li Shirong; )

2. Micro-fluorescence spectrum measuring device for single oil-gas inclusion (applicants: Yang Ailing, Zhang Jinliang, Deng Meiyin, Liu Zonglin; )

3. Inclusions Micro Fluorescence Spectrometer (Applicants: Yang Ailing, Zhang Jinliang, Deng Meiyin, Liu Zonglin; )

4. A device and method for measuring the maturity of original hydrocarbon rocks (Applicant: Yang Ailing, Zhang Jinliang, etc. ); 5. A device and method for measuring refractive index of low transparency liquid (Applicant: Yang Ailing, Zhang Jinliang, etc. ); )

6. Device and method for measuring organic matter maturity of source rocks (Applicant: Yang Ailing, Zhang Jinliang, etc.). ); 7. Method for measuring oil content of cuttings core in oil logging (Applicant: Zheng,,, Wang Xinshun; )

Main technical direction

In his long-term teaching, scientific research and production practice, Professor Zhang Jinliang has completed a lot of scientific research on oil and gas geology and exploration and development, and formed a unique theoretical and technical system of oil and gas geology and exploration and development, which has a certain influence in the petroleum science and technology circles at home and abroad and has made certain contributions to oil field exploration and development. The research team has advanced and applicable interpretation, processing and reservoir description software; It has geological analysis equipment such as polarizing microscope, ultraviolet fluorescence microscope, fluorescence spectrometer and microscopic oil and gas analysis system, as well as geological modeling software, image analysis software, reservoir numerical simulation software and basin simulation software. Petrel-Eclips modeling digital-analog integration technology is introduced and developed. ① Reservoir sedimentary facies and microfacies analysis techniques describe, evaluate and predict the shape, internal structure, physical properties and heterogeneity of oil and gas reservoirs, the structure and causes of reservoir space, and establish corresponding sedimentary models and geological models. On the basis of studying the temporal and spatial distribution and changes of sedimentary system, the sedimentary facies and microfacies are studied by geochemical methods and various geophysical methods (such as logging facies and seismic facies) to improve the exploration and development effect of oil and gas fields. The sedimentary models of storm rock lake, fan delta and terminal fan are established for the first time in China. ② Three-dimensional reservoir geological modeling technology. Guided by geostatistics theory and fine reservoir description technology, the three-dimensional reservoir geological modeling technology comprehensively utilizes geological, logging, logging, oil testing, analysis and testing, production performance and other data to establish three-dimensional models of the study area, such as structural model, sedimentary facies model, porosity model, permeability model, etc., and make multidisciplinary synthesis, three-dimensional quantification and cross-well reservoir visual prediction to objectively and quantitatively characterize reservoir heterogeneity and reservoir spatial continuity. The research results have been widely used in Zhongyuan, Nanyang, Jiangsu and other oilfields. ③ Reservoir numerical simulation technology According to the exploitation characteristics of different types of oil and gas reservoirs, such as conventional oil and gas reservoirs, natural fracture oil and gas reservoirs, condensate gas fields, heavy oil reservoirs and chemical flooding reservoirs, the corresponding visual reservoir numerical simulation technology is adopted to visually see the underground oil, gas and water flows on workstations or microcomputers, and the well location of development adjustment wells and the working system of oil and water wells are determined according to the distribution of remaining oil on the screen. The research results have been widely used in Shengli, Liaohe, Zhongyuan and Nanyang oilfields, and many water flooding development schemes and polymer flooding adjustment schemes have been formulated. The field application in the oilfield has achieved remarkable effects of increasing oil and reducing water, and achieved good economic benefits and social impact, which provides a decision-making basis for efficient development of the oilfield. ④ Sedimentary-diagenetic-reservoir-forming analysis technology, based on core description and analysis, establishes high-resolution sequence stratigraphic framework and short-term cycle stratigraphic correlation, discriminates and finely divides sand body microfacies, comprehensively understands sedimentary characteristics and sedimentary facies in the study area by combining various facies markers, seismic and logging data and paleoclimate research, puts forward corresponding sand control model and stratigraphic exploration model, studies the main controlling factors of oil and gas migration and accumulation, and establishes sedimentary facies, diagenetic facies and oil and gas reservoir-forming. ⑤ Early reservoir description technology In the exploration stage, the reservoir is comprehensively characterized by various geophysical methods through core description and analysis. Through reliable seismic geological calibration, three-dimensional seismic data are interpreted in detail, and the fine structural map of reservoir top and bottom is made. Through the special processing of 3D seismic data in the target area, such as complex analysis, wavelet transform, logging constraint inversion, trace integration, seismic attribute extraction along the layer, fractal dimension processing, neural network oil and gas prediction, etc., various seismic information is extracted. On the basis of comprehensive geological and geophysical information, this paper describes the external geometry and internal structure of the reservoir, forms an effective fine exploration method and establishes the corresponding exploration model. ⑥ Fine reservoir description technology After more than 20 years of oilfield scientific research practice, fine reservoir description technology has been introduced and developed continuously, and it has been continuously innovated and improved in continental reservoir sandstone oilfield. The core of this technology is to study the development units that are difficult to tap potential, establish a fine three-dimensional geological model, focus on revealing the spatial distribution law of remaining oil, and determine the potential tapping measures and improve oil recovery as the ultimate goal. It is a systematic engineering integrating geology, logging, reservoir engineering, numerical simulation and other disciplines. Fine reservoir description technology has been widely used in many oilfields in eastern China, which plays an important role in adjusting and tapping the potential of reservoirs with high water cut, extra-high water cut, fault block and low permeability. ⑦ Inclusion analysis technology This technology has established a set of micro-fluorescence spectrum system of single inclusion excited by pulsed light in the laboratory. Using the optical structure of the microscope itself, it integrates micro-positioning technology, pulsed light excitation technology, weak fluorescence collection technology and spectrum narrowing technology. It is planned to realize the main aromatic hydrocarbons in a single oil inclusion through three-dimensional fluorescence and synchronous fluorescence of the single inclusion, combined with modern geochemical analysis methods such as homogenization temperature of the inclusion, micro Raman micro Fourier transform infrared spectroscopy and gas chromatography-mass spectrometry, and through oil source comparison. Combined with other geological parameters, determine the maturity of organic matter, identify oil sources, determine different sedimentary environments and parent material types, find out the migration direction of oil and gas, and explore the law of oil and gas accumulation.