Huang Wenbiao

Dr. Huang Wenbiao

Lecturer in Geology

Master supervisor

Unconventional Oil and Gas Research Center

School of Geosciences

China University of Petroleum

Address: NO.66, Changjiang West Road, Huandao, Qingdao, 266580, China.

Tel.: +86-130-6137-9289

Email: huangwb@upc.edu.cn

Expertise Areas

•Diagenesis and microstructure of tight reservoirs

•Mechanism and distribution of hydrocarbon accumulation

•Petroleum Geochemistry

Education

2007-09 to 2010-06        Northeast Petroleum University, Daqing, China

   PhD (Mineral Prospecting and Exploration)

2004-09 to 2007-03        Northeast Petroleum University, Daqing, China

   Master (Mineral Prospecting and Exploration)

2000-09 to 2004-06        China University of Petroleum, Dongying, China

   Bachelor (Prospecting Technology and Engineering)

Employment

2015-10 to 2016-10        University of Regina : Regina, Canada

   Visiting Scholar (Department of Geology)

2012-09 to present         China University of Petroleum, Qingdao, China

   Lecturer (Mineral Prospecting and Exploration)

2010-07 to 2012-09       Northeast Petroleum University, Daqing, China

  Lecturer (Mineral Prospecting and Exploration)

Courses Offered

Geology Field Practice

Funding and Projects

Host Scientific Research Projects:

1. Compilation of “Petroleum Geology of China”—Jilin Exploration Area (Source Rocks and Oil and Gas Accumulation), Jilin Oilfield Company of CNPC, 2018-2019;

2. Study on Evaluation System of "Sweet Points" of Tight Conglomerate Oil, Independent Innovation Program of Central Universities, 2018-2020;

3. Study on Evaluation Index System and Evaluation Method of "Sweet Points" of Tight Conglomerate Oil in Huanmahu area, Xinjiang Oilfield Company of CNPC, 2017-2018;

4. Evaluation of Oil and Gas Resources in Suli Temple area, Sunny Right Banner, Inner Mongolia, Xi'an Zhongyou Petroleum Co., Ltd., 2016-2017;

5. Quantitative Characterization of Tight Reservoir Oil Saturation Based on Mechanical Equilibrium Principle, National Natural Science Foundation of China, 2015-2017;

6. Seismic Interpretation and Basin Simulation in Key Scale Area of Resource Evaluation, Jilin Oilfield Company of CNPC, 2014-2015;

7. Geophysical Methods for Evaluating Fracturing and Reconstructive Properties of Shale, Open fund from Key State Laboratories of Sinopec, 2014-2015;

8. Study on Tight Oil Accumulation in Fuyu Reservoir, Southern Songliao Basin, Jilin Oilfield Company of CNPC, 2014-2015;

9. Evaluation of Organic Heterogeneity of Shale by Geophysical Methods, Independent Innovation Program of Central Universities, 2013-2015;

10. Overall Evaluation and Exploration Potential Analysis of Yingtai Fault Depression, Jilin Oilfield Company of CNPC, 2012-2013;

Representative Publications

1. Huang W#, Shuangfang L U, Deng S, et al. (2018) Diagenesis and micro-and nano-scale reservoir spaces evolution of tight sandstones in Quantou4 member of southern Songliao Basin [J]. Journal of China University of Petroleum (Edition of Natural Science), 1: 11-20. (EI)

2. Huang W B#, Hersi O S, Lu S F, et al. (2017) Quantitative modelling of hydrocarbon expulsion and quality grading of tight oil lacustrine source rocks: Case study of Qingshankou 1 member, central depression, Southern Songliao Basin, China[J]. Marine & Petroleum Geology, 84:34-48.(SCI)

3. Huang W#, Lu S, Hersi O S, et al. (2017) Reservoir spaces in tight sandstones: Classification, fractal characters, and heterogeneity[J]. Journal of Natural Gas Science & Engineering, 46: 80-92. (SCI)

4. Huang W#, Lu S, Li J, et al. (2017) Evolution of Micro/Nano Pore-Throat System and Its Storage Capacity in Tight Sandstones[J]. Journal of Nanoscience & Nanotechnology, 17(9):6738-6745.(SCI)

5. Shuangfang L U, Huang W*, Wenhao L I, et al. (2017) Lower limits and grading evaluation criteria of tight oil source rocks of southern Songliao Basin, NE China[J]. Petroleum Exploration & Development, 44(3):505-512. (SCI)

6. Chen H#, Huang W#, Liu C, et al. (2017) Characteristics and Origin of High Porosity in Nanoporous Sandy Conglomerates—A Case from Shahezi Formation of Xujiaweizi Fault Depression[J]. Journal of Nanoscience & Nanotechnology, 17(9):6139-6148.(SCI)

7. Huang W#, Lu S, Osman S H. (2017) Quality grading system for tight sandstone reservoirs in the Quantou 4 Member, southern Songliao Basin, Northeast China[J]. Interpretation, 5(4):1-60.(SCI)

8. Huang W#, Deng S, Lu S, et al. (2015) Diagenetic sequence and hydrocarbon accumulation phases of the Fuyu layer tight reservoir in the southern Songliao Basin [J]. Oil & Gas Geology, 3: 508-516. (EI)

9. Huang W#, Deng S, Lu S, et al. (2014) Shale organic heterogeneity evaluation method and its application to shale oil resource evaluation —a case study from Qingshankou Formation, southern Songliao Basin [J]. Oil & Gas Geology, 35(5): 704-711. (EI)

10. Huang W#, Lu S, Jiang T, et al. (2012) Accumulation Periods of Deep Gas Reservoirs in Changling Fault Depression [J]. Journal of Jilin University (Earth Science Edition), 42(S1): 105-111. (EI)

11. Huang W#, Lu S, Xue H, et al. (2011) Causes Analysis of Deep Natural Gas and Correlation of Gas Soure in Yingtai Fault Depression [J]. Science Technology and Engineering, 11(9): 1944-1949.

12. Huang W#, Lu S, Xue H, et al. (2011) Hydrocarbon Source Rock Condition and Exploration Potential of Deep Layer in Changling Fault Depression [J]. Science Technology and Engineering, 11(14): 3172-3177.

13. Huang W#, Meng Y, Lu S, et al. (2011) Oil and Gas Accumulation History Using Fluid Inclusions and Basin Modeling — Example form the Western Slope of the Yuanyanggou Sub-Sag [J]. Journal of Jilin University (Earth Science Edition), 39(4): 650-655.

14. Huang W#, Lu S, Meng Y, et al. (2009) Prediction of the Secondary Porosity Zone of Fuyu Oil Layer in the West of Daqing Placanticline [J]. ACTA SEDMENTOLOGICA SINICA, 27(3): 419-426.

Awards & Honors

2018-02,     Key technologies and applications of shale oil enrichment conditions and resource potential evaluation in China, Second Prize of Science and Technology Progress of the Ministry of Education, China.

2014-06,    Quantitative characterization technology of magmatic thermal effect and its application in evaluation of volcanic oil and gas resources potential, Second Prize of Provincial and Ministerial Level Scientific and Technological Progress, China.

2011-06,     Identification and evaluation of high quality source rocks in Urxun and Baer depression, Third Prize of Provincial and Ministerial Level Scientific and Technological Progress, China.

Conferences Attended

2017-09, National Academic Conference on Organic Geochemistry, Chongqing, China

2015-06, Academic Conference on Unconventional Hydrocarbon Accumulation and Exploration Evaluation, Qingdao, China

2011-09, Academic Conference on Unconventional Hydrocarbon Accumulation and Exploration Evaluation, Xi’an, China

Others

1. National invention patent, 2018. A standard classification method for tight source rock classification based on expulsion efficiency. ZL201610378524.3

2. National invention patent, 2017. A classification criterion for tight reservoirs based on pore throat structure characteristics. ZL201610378525.8

3. National invention patent, 2015. Calibration method for pore size distribution of tight sandstone using NMR. ZL201510097128.9

4. National invention patent, 2013. An evaluation method for shale oil potential in shale strata. ZL201310224584.6

5. National invention patent, 2013. A prediction method of shale oil content based on LogR-ΔT logging evaluation. ZL201310178925.0

6. National invention patent, 2013. A method for detecting organic porosity of shale. ZL201310144945.6

7. National invention patent, 2012. A method for measuring total porosity of shale. ZL201210476891.9

Last update: September 7, 2018