Name: |
Guorui Feng |
Sex: |
Male |
Birth: |
July 4, 1976 |
Major: |
Mining Engineering |
E-Mail: |
fguorui@163.com |
Tel: |
86 13643697785 |
Present Position: |
Head of the office of Academic Research, Taiyuan University of Technology |
|
Director of the Shanxi Green Mining Engineering Technology Research Center |
EDUCATION
· B.S., Civil Engineering, Taiyuan University of Technology, China, 2002
· M.S., Mining Engineering, Taiyuan University of Technology, China, 2005
· Ph.D., Geotechnical Engineering, Taiyuan University of Technology, China, 2009
PROFESSIONAL EXPERIENCE
· Visiting scholar, West Virginia University, 2015.04-2016.04
· Visiting scholar, Nagasaki University, 2010.11-2011.02
· Dean, College of Mining Engineering, Taiyuan University of Technology, 2016.12-2018.12
· Head, office of Academic Research, Taiyuan University of Technology, 2018.12 to present
· Associate professor, 2009
· Professor, 2014
· Deputy director, China Coal Society Youth Work Committee, 2014 to present
· Executive director, China Energy Society, 2014.04-2017.04.
MAJOR HONORS/FUNDINGS
· National Ten Thousand Outstanding Scientists. 2019.
· Outstanding Young and Mid-aged Experts, 2018.
· National Advanced Individual in Education for Coal Industry, 2018.
· National Hundred, Thousand and Ten Thousand Talent Project, 2017.
· Special Government Allowances of the State Council, 2016.
· Excellent Young Scientists Fund of National Natural Science Foundation of China, 2014.
· New Century Excellent Talent in University, 2012
PUBLICATIONS
[1] Feng G#, Du X*, Zhang Y, et al. “Optical-acoustic-stress” responses in failure progress of cemented gangue-fly ash backfill material under uniaxial compression[J]. Nondestructive Testing and Evaluation, 2019, 34(2):159-168.
[2] Feng G#, Qi T*, Guo Y, et al. Physical and Chemical Characterization of the Ash of Fallen Chinese Willow Leaves: Effects of Calcination Temperature and Aqueous Solution[J]. Combustion Science and Technology, 2019: 1-14.
[3] Feng G#, Ma J*, Zhang X. Magnetic natural composite Fe3O4-chitosan@ bentonite for removal of heavy metals from acid mine drainage[J]. Journal of Colloid and Interface Science, 2019, 538: 132-141
[4] Feng G#, Zhang A, Hu S*, et al. A Method to Accurately Determine the Methane Enrichment Zone of a Longwall Coal Mine[J]. Geofluids, 2019, (3):1-10
[5] Feng G#, Zhang A, Hu S*, et al. A methodology for determining the methane flow space in abandoned mine gobs and its application in methane drainage[J]. Fuel, 2018 , 227: 208-217.
[6] Feng G#, Liao Q, Hu S*. Numerical Simulation of Particulate Matter 2.5 Distribution in a Roadway[J]. Scientific reports, 2018, 8(1): 13220.
[7] Feng G#, Wang P*, Chugh Y. P. Stability of Gate Roads Next to an Irregular Yield Pillar: A Case Study [J]. Rock Mechanics and Rock Engineering, 2018,1-20.
[8] Feng G#, Li Z, Hu S*, et al. Distribution of gob empty space for methane drainage during the longwall mining: A case study[J]. Journal of Natural Gas Science & Engineering, 2018, 60: 112-124
[9] Feng G#, Qi T*, Du X, et al. Acoustic Emission and Ultrasonic Characteristics in the Failure Process of Cemented Waste Concrete-Coal Gangue Backfilling (CWCGB) under Uniaxial Loading[J]. Advances in Civil Engineering, 2018, 8960806
[10] Feng G#, Qi T*, Wang Z, et al. Physical and Chemical Characterization of Chinese Maize Stalk Leaf Ash Calcining Temperature and Aqueous Solution [J]. Bioresources, 2018, 14(1): 977-995
[11] Feng G#, Qi T*, Xu G, et al. Physical chemical characterization of thermally and aqueous solution treated maize stalk stem ash and its potential use in a cementing system[J]. Energy Sources Part A-Recovery Utilization and Environmental Effects,2019
[12] Feng G#, Wang P*, Chugh Y. P. A New Gob-side Entry Layout for Longwall Top Coal Caving[J]. Energies, 2018, 11 (5): 1292.
[13] Feng G#, Wang P*, Zhao J, et al. A Coal Burst Mitigation Strategy for Tailgate during Deep Mining of Inclined Longwall Top Coal Caving Panels at Huafeng Coal Mine[J]. Shock and Vibration, 2018.
[14] Feng G#, Hu S*, Li Z, et al. Distribution of methane enrichment zone in abandoned coal mine and methane drainage by surface vertical boreholes: A case study from China[J]. Journal of Natural Gas Science and Engineering, 2016, 34: 767-778.
[15] Feng G#, Wu Y*, Zhang C, Hu S*, et al. Changes on the low-temperature oxidation characteristics of coal after CO2 adsorption: A case study[J]. Journal of Loss Prevention in the Process Industries, 2017, 49: 536-544。
[16] Feng G*#, Li Z, Guo Y, et al. Mix Ratio Optimization of Cemented Coal Gangue Backfill (CGB) Based on Response Surface Method[J]. Journal of Residuals Science & Technology, 2016, 13(3):175-184.
[17] Feng G#, Li M*, Chen C. On the ill-conditioning of the MFS for irregular boundary data with sufficient regularity[J]. Engineering Analysis with Boundary Elements, 2014, 41: 98-102.
[18] Feng G*#, Qi T, Shi W, et al. A B3LYP and MP2 (full) theoretical investigation on the cooperativity effect between hydrogen-bonding and cation-molecule interactions and thermodynamic property in the 1: 2 (Na+: N-(Hydroxymethyl) acetamide) ternary complex[J]. Journal of Molecular Modeling, 2014, 20(3): 1-12.
[19] Feng G*#, Qi T, Shi W, et al. A B3LYP and MP2 theoretical investigation into the synergetic effect between the ONHO and ONHF anionic hydrogen-bonding interactions inN-(Hydroxymethyl) acetamide complex with F-[J]. Computational and Theoretical Chemistry, 2013, 1014: 68-79.
[20] Ren Y, Feng G*, Wang P, et al. Vertical Stress and Deformation Characteristics of Roadside Backfilling Body in Gob-Side Entry for Thick Coal Seams with Different Pre-Split Angles[J]. Energies, 2019, 12(7):1316
[21] Du X, Feng G*, Zhang Y, et al. Bearing mechanism and stability monitoring of cemented gangue-fly ash backfill column with stirrups in partial backfill engineering[J]. Engineering Structures, 2019, 188: 603-612.
[22] Liao Q#, Feng G*, Fan Y, et al. Experimental Investigations and Field Applications of Chemical Suppressants for Dust Control in Coal Mines[J]. Advances in Materials Science and Engineering, 2018.
[23] Bai J#, Feng G*, Wang Z, et al. Experimental Investigations on the Progressive Failure Characteristics of Sandwiched Coal-Rock System Under Uniaxial Compression[J]. Applied Sciences, 2019.
[24] Li Q#, Feng G*, Guo Y et al. The dosage of superplasticizer in cemented coal waste backfill material based on response surface methodology[J]. Advances in Materials Science and Engineering, 2019, 5328523.
[25] Du X#, Feng G*, Qi T, et al. Failure characteristics of large unconfined cemented gangue backfill structure in partial backfill mining[J]. Construction and Building Materials, 2019,194: 257–265.
[26] Bai J#, Feng G*, Wang S, et al. Vertical Stress and Stability of Interburden over Abandoned Pillar Working before Upward Mining: A Case Study[J]. Royal Society Open Science, 2018, 5(8): 180346.
[27] Guo J#, Feng G*, Wang P, et al. Roof Strata Behavior and Support Resistance Determination for Ultra-Thick Longwall Top Coal Caving Panel: A Case Study of the Tashan Coal Mine[J]. Energies, 2018, 11(5):1041.
[28] Zhang Y#, Feng G*, Zhang M, et al. Residual coal exploitation and its impact on sustainable development of the coal industry in China[J]. Energy Policy, 2016, 96: 534-541.
[29] Hu S#, Feng G*, Ren X, et al. Numerical study of gas–solid two-phase flow in a coal roadway after blasting[J]. Advanced Powder Technology, 2016, 27(4): 1607-1617.
[30] Ren H#*, Feng G. Are soil-adjusted vegetation indices better than soil-unadjusted vegetation indices for above‐ground green biomass estimation in arid and semi-arid grasslands?[J]. Grass and Forage Science, 2015, 70(4): 611-619.
[31] Li Z#, Feng G*, Zhai C. Study on “triangle” water-inrush mode of strong water-guide collapse column[J]. Journal of Central South University, 2016, 23(9): 2402-2409.
[32] Du X#, Feng G*, Guo Y, et al. Failure analyses of unconfined CCWBM body in uniaxial compression based on central pressure variation[J].Waste Management & Research, 2018, 36(2) 159–168.
[33] Guo J#, Feng G*, Qi T, et al. Dynamic Mechanical Behavior of Dry and Water Saturated Igneous Rock with Acoustic Emission Monitoring[J]. Shock and Vibration, 2018, 2018.
[34] Li Z#, Feng G*, Jiang H, et al.The correlation between crushed coal porosity and permeability under various methane pressure gradients: a case study using Jincheng anthracite[J]. Greenhouse Gases-Science and Technology, 2018, 8(3): 493-509.
[35] Zhang Y#, Feng G*, Qi T. Experimental research on internal behaviors of caved rocks under the uniaxial confined compression[J]. Advances in Materials Science and Engineering, 2017.
[36] Qi T#, Feng G*. Resistivity and AE Response Characteristics in the Failure Process of CGB under Uniaxial Loading[J]. Advances in Materials Science and Engineering, 2017.
[37] Li Z#, Feng G*, Luo Y, et al. Multi-tests for pore structure characterization-A case study using lamprophyre[J]. AIP Advances, 2017, 7(8): 085204.
[38] Qi T#, Feng G*, Zhang Y, et al. Effects of Fly Ash Content on Properties of Cement Paste Backfilling[J]. Journal of Residuals Science & Technology, 2015,12(3):133-141.
[39] Qi T#, Feng G*, Li Y, et al. Effects of Fine Gangue on Strength, Resistivity, and Microscopic Properties of Cemented Coal Gangue Backfill for Coal Mining[J]. Shock and Vibration, 2015, 501: 1-12.
[40] Qi T#, Feng G*, Zhang Y, et al. The study on the activity of fly ash in Ca(OH)2 solution[J]. Materials research innovation, 2015, 19(S1): 454-458.
[41] Liu Y#, Feng G*, Xue Y, et al. Small-scale natural disaster risk scenario analysis: a case study from the town of Shuitou, Pingyang County, Wenzhou, China[J]. Natural Hazards,2015, 75(3): 2167-2183.
[42] Feng G #, Wang P*. Stress Environment of Entry Driven along Gob-Side through Numerical Simulation Incorporating Angle of Break[J]. International Journal of Mining Science and Technology. 2019.
[43] Guo Y#, Feng G*. Skeleton curve calculation of reinforced concrete column after electrochemical chloride extraction[J]. Energy Education Science and Technology Part A: Energy Science and Research, 2014, 26(2):8761-8768.
[44] Zhong C #, Feng G*, Liu H, et al. Research on Movement and Deformation Rules of Rock Strata between Coal Seams in Caving Method Upward Mining of Left-Over Coal with Numerical Simulation Method[C] Advanced Materials Research, 2011, 58: 1188-1193.
[45] Feng G#, Wang P*. Stress Environment of Entry Driven along Gob-Side through Numerical Simulation Incorporating Angle of Break[C]. 37th International Conference on Ground Control in Mining, West Virginia University, Morgantown, WV, USA, 2018.
[46] Wang P#, Feng G*. Support strategy for tailgates below gob edge using split-level longwall panel layout for deep inclined coal seams[C]. 37th International Conference on Ground Control in Mining, West Virginia University, Morgantown, WV, USA, 2018.
[47] Feng G#*, Bai J, Luo Y, Yang J. Safe Mining Evaluation of Coal Seam Between Abandoned Upper and Lower Room-and-Pillared mines[C]. 35th International Conference on Ground Control in Mining, West Virginia University, Morgantown, WV, USA, 2016.
[48] Feng J#, Feng G*, Guo Y, Li Z, Guo J, Li D, Jia X. Acoustic emission characteristics of lamprophyre under uniaxial loading[J]. Transit Development in Rock Mechanics: Recognition, Thinking and Innovation, 2014: 119-122, Xi’an, China, 2014.
[49] Feng G *#,Zheng J, Liu H,et al. Research on Movement and Deformation of Rock Strata between Coal Seams in Pillar Upward Mining of Left-Over Coal with Numerical Simulation Method[C]. ACAM2011. 2011,225: 623-627.
[50] Zhong C #, Feng G *, Liu H, et al. Research on Movement and Deformation Rules of Rock Strata between Coal Seams in Caving Method Upward Mining of Left-Over Coal with Numerical Simulation Method[C]. ITMS2011,2011, 58: 1188-1193.
[51] Feng G *#, Zheng J, Ren Y et al. Mechanical Model and Analysis on Movement of Rock Strata between Coal Seams in Pillar Upward Mining of Left-Over Coal[C]. Applied Mechanics and Materials,2011, 58: 393-398.
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