YUAN DI
Ph.D., Associate Professor
College of Engineering
Peking University
No.5, Yiheyuan Road, Haidian, Beijing, 100871 P.R. China
Mobile : +86-13552709129; Tel : +86-10-82529077
Email: diyuan
mech.pku.edu.cn
PROFESSIONAL EXPERIENCE
2004-now: Assistant Professor to Associate Professor, College of Engineering, Peking University.
1998-2004: Assistant Professor, Department of Mechanics and Engineering Science, Peking University.
1996-1998: Postdoctoral Fellow, Department of Mechanics and Engineering Science, Peking University.
EDUCATION
Xi'an Jiaotong University Civil Engineering B.Eng. 1989
Xi'an University of Architecture and Technology Civil Engineering M.E. 1992
Tongji University Civil Engineering Ph.D. 1995
RESEARCH INTERESTS
1. Numerical simulation of multiphase flow in porous media
2. Reservoir Simulation
3. Computational Geomechanics
REPRESENTATIVE RESEARCH PROJECTS
1. Numerical Simulation of Carbon Dioxide Flooding in Tight Oil Reservoirs including Effect of Capillary Pressure on Phase Equilibrium, funded by National Natural Science Foundation of China (51674010), 2017-2020, (PI).
2. Advanced Development of Numerical Simulation Technology for Fractured Vuggy Carbonate Reservoirs, funded by National Science & Technology Major Project of China (2016ZX05014-003-006), 2016-2020, (PI).
3. Development of Numerical Simulator for Multiphase Flow in Multiple Continuum, funded by National Science & Technology Major Project of China (2011ZX05014-005-006HZ), 2011-2014, (PI).
4. Numerical Method of Multiple Continuum for Carbonate Karst Reservoir, funded by National Science & Technology Major Project of China (2008ZX05014-005-006HZ), 2008-2010, (PI).
5. Geologic Carbon Storage with Enhanced Oil Recovery, funded by National Basic Research Program of China (2006CB705800), 2006-2010, (co-PI, with PI Dongxiao Zhang).
6. Study on the Fundmentals of Carbonate Karst Reservoir Development, funded by National Basic Research Program of China (2006CB202400), 2006-2010, (co-PI, with PI Zhijiang Kang).
SELECTED PUBLICATIONS
[1] Huiying Tang, ShihaoWang, Congbin Yin, Yuan Di, Yu-Shu Wu and Yonghong Wang. Fully-Coupled Multi-Physical Simulation with Physics-Based Nonlinearity-Elimination Preconditioned Inexact Newton Method for Enhanced Oil Recovery. Communications in Computational Physics, 2019, 25(1):244-265.
[2] Renjie Shao and Yuan Di. An Integrally Embedded Discrete Fracture Model with a Semi-Analytic Transmissibility Calculation Method. Energies 2018, 11, 3491.
[3] Yuan Zhang, Yuan Di, Yang Shi and Jinghong Hu. Cyclic CH4 Injection for Enhanced Oil Recovery in the Eagle Ford Shale Reservoirs. Energies 2018, 11, 3094.
[4] SONG Shihan, DI Yuan, KANG Zhijiang, CUI Shuyue. Direction Dependency of Relative Permeability for Oil-Water Two Phase Flow in Vugular Porous Medium. Interpore 10th Annual Meeting and Jubilee, held in New Orleans, USA, May 14th-May 17th, 2018.
[5] WU Dawei, DI Yuan, ZHANG Yun, LIU Zhongchun. A Numerical Method of Coupled Resevoir-Geomechanical Problem Using High Resolution for Fluid Flow Domain. Interpore 10th Annual Meeting and Jubilee, held in New Orleans, USA, May 14th-May 17th, 2018.
[6] SHAO Renjie, DI Yuan. Development of Embedded Complex Fracture Model for the Simulation of Fractured Reservoirs. Interpore 10th Annual Meeting and Jubilee, held in New Orleans, USA, May 14th-May 17th, 2018.
[7] Yuan Di, Huiying Tang. Simulation of Multistage Hydraulic Fracturing in Unconventional Reservoirs Using Displacement Discontinuity Method (DDM), Chapter 3 of Hydraulic Fracture Modeling, Edited by Yu-Shu Wu, Elsevier, 2017, pp 41-74.
[8] WU Dawei, DI Yuan, SUN Jianfang. A mixed FEM-FVM method for coupled analysis of fluid flow and rock deformations in reservoirs. Journal of Zhejiang University of Science and Technology, 2018, 30(1):1-7. (in Chinese)
[9] KANG Zhijiang, DI Yuan and CUI Shuyue. Numerical Simulation Technology and Its Application for Paleokarst Carbonate Reservoirs. Qingdao: Press of China University of Petroleum, 2017. (in Chinese)
[10] TANG Huiying, DI Yuan, WU Yu-Shu. The impact of fluid viscosity and injection rate on geometry of the fracture network. Journal of Zhejiang University of Science and Technology, 2017, 29(6):401-408. (in Chinese)
[11] ZHANG Yuan, DI Yuan, ZHANG Yun, ZHANG Dongli. Investigation into effects of nanoporous capillary pressure on well performance of tight oil reservoirs. Journal of Zhejiang University of Science and Technology, 2017, 29(5):328-333. (in Chinese)
[12] Yuan Zhang, Yuan Di, Wei Yu, Kamy Sepehrnoori. SPE-187211-MS. A Comprehensive Model for Investigation of CO2-EOR with Nanopore Confinement in the Bakken Tight Oil Reservoir. SPE Annual Technical Conference and Exhibition, 9-11 October, San Antonio, Texas, USA, 2017.
[13] YIN Youquan, DI Yuan. Arc-Length Continuation Algorithm for Nonlinear Finite Element Equations. Acta Scientiarum Naturalium Universitatis Pekinensis, Vol.53,No.5:793-800, 2017.
[14] SONG Shihan, DI Yuan, LIU Zhongchun, DAI Yafei. Numerical simulation of oil-water two-phase flow in discrete fracture-vug network. Journal of Zhejiang University of Science and Technology, 2017, 29(3):172-177.(in Chinese)
[15] Yuan Zhang, Wei Yu, Kamy Sepehrnoori, Yuan Di. A Comprehensive Numerical Model for Simulating Fluid Transport in Nanopores, Scientific Reports, 2017, 7, 40507.
[16] Yuan Zhang, Hamid R. Lashgari, Kamy Sepehrnoori, Yuan Di. Effect of Capillary Pressure and Salinity on CO2 Solubility in Brine Aquifers, International Journal of Greenhouse Gas Control, 2017, 57: 26-33.
[17] Yuan Zhang, Hamid R. Lashgari, Yuan Di, Kamy Sepehrnoori. Capillary Pressure Effect on Phase Behavior of CO2/Hydrocarbons in Unconventional Reservoirs, Fuel, 2017, 197: 575-582.
[18] Yuan Zhang, Wei Yu, Yuan Di, Kamy Sepehrnoori. Investigation of Nanopore Confinement on Fluid Flow in Tight Reservoirs, Journal of Petroleum Science and Engineering, 2017, 150: 265-271.
[19] Huiying Tang, Yuan Di, Yongbin Zhang and Hangyu Li. Impact of Stress-Dependent Matrix and Fracture Properties on Shale Gas Production. Energies 2017, 10, 996.
[20] DI Yuan, KANG Zhijiang, CUI Shuyue and WU Yu-Shu. A hybrid numerical model for multiple-continuum embedded with discrete fractures and vugs. The Chinese Congress of Theoretical and Applied Mechanics (CCTAM 2017), 13-16 August 2017, Beijing, China. (in Chinese)
[21] ZHANG Yuan and DI Yuan. Simulation study of simulation study of nanopore confinement on well performance of tight oil reservoir with embedded embedded discrete fracture model. The Chinese Congress of Theoretical and Applied Mechanics (CCTAM 2017), 13-16 August 2017, Beijing, China. (in Chinese)
[22] TANG Huiying, ZHANG Liehui, GONG Bin and DI Yuan. Evaluation of well performance using discrete fracture modeling based hydraulic fracturing simulations. The Chinese Congress of Theoretical and Applied Mechanics (CCTAM 2017), 13-16 August 2017, Beijing, China. (in Chinese)
[23] WU Shaolei, DI Yuan, KANG Zhijiang and ZHAO Yanyan. An element-based finite volume method for numerical simulation of multiphase fluid flow in fractured media. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[24] SHI Xin, GONG Bin, DI Yuan and CUI Shuyue. A parallel method for GPUs-based flash calculation in compositional reservoir simulation. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[25] ZHANG Yuan, DI Yuan, ZHANG Yun, ZHANG Dongli. Investigation of nanopore confinement on well performance of tight oil reservoirs. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[26] TANG Huiying, DI Yuan, WU Yu-Shu. The Impact of Treatment Parameters on Hydraulic Fracturing in Naturally Fractured Shale Reservoirs. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[27] SONG Shihan, DI Yuan, LIU Zhongchun, DAI Yafei. Numerical simulation of oil-water two-phase flow in discrete fracture-vug network. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[28] WU Dawei, DI Yuan, SUN Jianfang. A Mixed FEM-FVM Method for Coupled Analysis of Fluid Flow and Rock Deformation. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[29] TANG Huiying, DI Yuan, WU Yu-Shu. The Impact of Fluid Viscosity and Injection Rate on Hydraulic Fracturing in Naturally Fractured Shale Reservoirs. Proceedings of the 14th national conference on fluid flow in porous media, 24-26 August 2017, Hangzhou, China. (in Chinese)
[30] Huiying Tang, Philip H. Winterfeld, Yu-Shu Wu, Zhao-qin Huang, Yuan Di, Zhengfu Pan, Juncheng Zhang. Integrated simulation of multi-stage hydraulic fracturing in unconventional reservoirs. Journal of Natural Gas Science and Engineering, 36:875-892, 2016.
[31] YIN Youquan, DI Yuan. Effect of axial force on the maximum normal stress of beam with longitudinal-transverse bending. Mechanics in Engineering, 2015, 38(5):570-572. (in Chinese)
[32] YIN Youquan, DI Yuan, YAO Zaixing. Arc-length Continuation Algorithm for Strain Softening Analysis of Geomaterial Structure. 12th National Symposium on Numerical and Analytical Methods in Geomechanics. Lanzhou, 12th August 2016, pp.243-250. (in Chinese)
[33] Yuan Zhang, Hamid R. Lashgari, Yuan Di, Kamy Sepehrnoori. Capillary Pressure Effect on Hydrocarbon Phase Behavior in Unconventional Reservoirs. Paper SPE 180235 presented at SPE Low Perm Symposium, 5-6 May, Denver, Colorado, USA, 2016.
[34] DI Yuan, KANG Zhi-jiang, DAI Ya-fei, WU Yu-Shu. Representative elementary volume of the multiple-continuum model for complex porous media. Engineering Mechanics, Vol.32, No.12: 33-39, 2015(in Chinese).
[35] ZHONG Hengsen,DI Yuan,ZHANG Kaiqiang. Research on the Pollution Elimination Efficiency of Different Probes in Formation Testing. WELL LOGGING TECHNOLOGY, 2015, 39(5):567-572. (in Chinese)
[36] Di Yuan, Zhang Yuan, Wu Yu-Shu. Phase equilibrium calculation of CO2-hydrocarbons -water system based on Gibbs free energy minimization. Acta Petrolei Sinica, 2015, 36(5):593-599.(in Chinese)
[37] Yin Youquan, Li Ping’en, Di Yuan. Instability and Jumping Phenomenon of Rock Structure. Chinese Journal of Rock Mechanics and Engineering, 2015, 34(5):945-952.(in Chinese)
[38] Yuan Di, Wu Yu-Shu and Binshan Ju. Model Formulation for Compositional Simulation of CO2 Flooding in Fractured Petroleum Reservoirs[J]. Journal of Southwest Petroleum University(Science & Technology Edition), 2015, 37(2):93-100.(in Chinese)
[39] Miao Zhang and Yuan Di. Internal Force Analysis And Design For Large Reinforced Concrete Clarifier[J]. Special Structures, Vol.31, No.6:46-49, 2014.(in Chinese)
[40] Wu, Yu-Shu, Jianfang Li, Didier Ding, Cong Wang, and Yuan Di. A Generalized Framework Model for Simulation of Gas Production in Unconventional Gas Reservoirs. SPE Journal, Vol.19, No.5, 2014.
[41] YIN Youquan, DI Yuan. On the Instability of Engineering Rock-Like Materials. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014,Vol.50,No.6:991-997. (in Chinese)
[42] KANG Zhijian,DI Yuan,ZHAO Yanyan,HUANG Lin. Flow Characteristics of the Cave Fluids in Fractured Vuggy Oil Reservoirs. Petroleum Geology and Oilfield Development in Daqing, Vol.33,No.3:82-85, 2014. (in Chinese)
[43] Yin Youquan, Li Ping’en, Di Yuan. Instability of Shaft Excavation and Mechanism of Rockburst. Chinese Journal of Theoretical and Applied Mechanics, Vol.46,No.3:398-408, 2014(in Chinese)
[44] YIN Youquan, DI Yuan. On the Plastic Potential Theory of Elasto-plastic Constitutive Relation for Geomaterials. Acta Scientiarum Naturalium Universitatis Pekinensis, Vol.50,No.2:201-206, 2014.
[45] DI Yuan, HUANG Lin, WU Yu-shu, KANG Zhijiang. A Method to Determine the Size Limit between Dissolution Pores and Vugs in Triple Medium. Journal of Basic Science and Engineering, Vol.21, No.4: 692-701, 2013 (in Chinese)
[46] DI Yuan, WU Yu-Shu, LI Ning, LI Jianfang. The recent progress on numerical model for gas-water phases in shale gas reservoirs. Advance challenges on fluid flow in potous media, Proceedings of the 12th national conference on fluid flow in porous media, ed. Yao Jun, Press of China University of Petroleum. Qing Dao, 2013, pp. 288-294 (in Chinese)
[47] DAI Yafei, DI Yuan, WU Yu-shu, KANG Zhijiang. VOF simulation of oil-water two phase flow in vuggy regions for the naturally fractured-vuggy reservoirs. Advance challenges on fluid flow in potous media, Proceedings of the 12th national conference on fluid flow in porous media, ed. Yao Jun, Press of China University of Petroleum. Qing Dao, 2013, pp. 101-106 (in Chinese)
[48] HUANG Lin, DI Yuan, KANG Zhijiang, WU Yu-shu. Flow characteristics analysis for vugs-in-series model of fractured-vuggy carbonate reservoirs. Advance challenges on fluid flow in potous media, Proceedings of the 12th national conference on fluid flow in porous media, ed. Yao Jun, Press of China University of Petroleum. Qing Dao, 2013, pp. 160-165 (in Chinese)
[49] Yuan Di, Lang Pen, Yu-Shu Wu, Zhijiang Kang. Numerical Simulation of Multiphase Flow in Fractured Vuggy Porous Medium Using Finite Volume Method. Chinese Journal of Computational Mechanics 2013, Vol.30, Supplement: 144-149, 2013. (in Chinese)
[50] Yu-Shu Wu, Jianfang Li, Cong Wang, and Yuan Di. A Generalized Framework Model for Simulation of Gas Production in Unconventional Gas Reservoirs. SPE 163609. The 21st SPE Reservoir Simulation Symposium, 18–20 February 2013, Woodlands, Texas, USA.
[51] Yuan Di, Lang Pen, Yu-Shu Wu, Zhijiang Kang. Numerical Simulation of Multiphase Flow in Fractured Vuggy Porous Medium Using Finite Volume Method. Conference of Chinese Computational Mechanics, 7-11 November 2012, Chongqing, China. (in Chinese)
[52] Yuan Di and Zifeng Yuan. Stress Analysis of an Inclined Borehole in Bedded Formation. Chinese Journal of Underground Space and Engineering 2012, Vol.8, No.5:981-988, 996. (in Chinese)
[53] Yuan DI, Honghuo CHEN and Zhenshi HU. Finite element analysis of a steel-tube torch tower under the action of wind load. Special Structures, 2012, Vol.29,No.5:56-59. (in Chinese)
[54] Yu-Shu Wu, Yuan Di, Zhijiang Kang and Perapon Fakcharoenphol, 2011. A Multiple-Continuum Model for Simulating Single-Phase and Multiphase Flow in Naturally Fractured Vuggy Reservoirs. Journal of Petroleum Science and Engineering 78(1), 13-22.
[55] Yu-Shu Wu, Bitao Lai, Jennifer L. Miskimins, Perapon Fakcharoenphol and Yuan Di, 2011. Analysis of Multiphase Non-Darcy Flow in Porous Media. Transport in Porous Media 88, 205-223.
[56] Yuan Di, Yu-Shu Wu, Binshan Ju, Jishun Qin and Xinmin Song. A Practical Compositional Method for Simulation of CO2 Flooding in Porous and Fractured Petroleum Reservoirs. SPE 145096. The Asia Pacific Oil & Gas Conference and Exhibition(APOGCE), Jakarta, Indonesia, 20–22 September 2011.
[57] DI Yuan, WU Yu-Shu, JU binshan, SONG Xinmin. Computational Models for Multiphase flows of multicomponent mixtures for CO2 Flooding in Fractured Reservoirs. Conference on Resources Engineering, F-34~F-39. NCKU, Tainan, Taiwan, July 21-22, 2011. (in Chinese)
[58] Wei Zhang, Yuan DI and Yu-Shu Wu. Study on Assisted History-matching Method using Ensemble Kalman Filter. Journal of Daqing Petroleum Institute 2009, Vol.33,No.5: 74-78. (in Chinese)
[59] Yu-Shu Wu, Zhijiang Kang, Yuan Di, Thanh Nguyen and Perapon Fakcharoenphol. A Multiple-Continuum Model for Simulating Single-Phase and Multiphase Flow in Naturally Fractured Vuggy Reservoirs. PROCEEDINGS, TOUGH Symposium 2009, Lawrence Berkeley National Laboratory, Berkeley, California, September 14-16, 2009.
[60] Yu-Shu Wu, Bitao Lai, and Jennifer L. Miskimins, Di Yuan. Simulation of Multiphase Non-Darcy Flow in Porous and Fractured Media. SPE 122612, presentation at the 2009 SPE Annual Technical Conference and Exhibition, New Orleans, Louisiana, USA, 4–7 October 2009.
[61] Wu YS, Rutqvist J, Karasaki K, Lei Q, Xiong W, Yuan J, Liu M and Di Y. A Mathematical Model for Rock Deformation’s Effect on Flow in Porous and Fractured Reservoirs. The 42nd US Rock Mechanics Symposium and 2nd U.S.-Canada Rock Mechanics Symposium, San Francisco, June 29-July 2, 2008.
[62] Y. Di, J. Yang and T. Sato. Seismic Performance of a River Dike Improved by Sand Compaction Piles. Journal of Performance of Constructed Facilities, ASCE 2008; 22(6):381-390.
[63] DI Yuan, TANG Xiaowei. An finite element - finite volume hybrid method for large deformation analysis of porous media. Chinese Journal of Computational Mechanics 2008, Vol.25,No.4: 483-487,493,2008. (in Chinese)
[64] Xie Qiang, Tang Hesheng, Di Yuan. SVD-Unscented Kalman Filter for Nonlinear Structural System Identification. Chinese Journal of Applied Mechanics, Vol.25, No.1: 57-61,2008. (in Chinese)
[65] Yuan Di, Jun Yang and Tadanobu Sato. An operator-split ALE model for large deformation analysis of geomaterials. International Journal of Analytical Numerical Methods in Geomechanics 2007; 31(12): 1375-1399.
[66] Yuan Di, Xiaowei Tang. Numerical simulation of large deformation dynamic problem of two-phase media. ENGINEERING MECHANICS 2007, Vol.24, No.12: 47-52. (in Chinese)
[67] Yuan DI, Pu CHENG, Huizhi DONG. An explicit-implicit staggered method for dynamic analysis of two-phase coupled problem. Proceedings of the Fourth Cross-Strait Conference on Structural and Geotechnical Engineering, pp.325-330, 24-26 April 2007, Hangzhou, China. (in Chinese)
[68] Xiaowei Tang, Yuan Di, Sumio Sawada, Tadanobu Sato. 3-D Nonlinear Analysis of Soil-pile Interaction in Liquefiable Soil using Adaptive Mesh Refinement. The 4th International Conference on Earthquake Engineering, October 12-13, 2006. Taipei, Taiwan. (in Chinese)
[69] Yuan Di, Tadanobu Sato, Mingwu Yuan. Computational Modelling of Penetration in Porous Soils Using Arbitrary Lagrangian-Eulerian Finite Element Method. The 2nd World Forum of Chinese Scholars in Geotechnical Engineering,GEO-WCS, August, 2005,Nanjing, China.
[70] Yuan Di and Tadanobu Sato, Numerical Simulation of Lateral Displacement Between Non-liquefiable Ground and The Liquefied Subsoil Layer, (CD-ROM), Proceedings of 17th ASCE Engineering Mechanics Conference, University of Delaware, Newark, DE, June 13-16. 2004, 10 pages.
[71] Yuan Di and Tadanobu Sato, Computational Modeling of Large Deformation of Saturated Soils Using An ALE Finite Element Method, Annuals of Disas. Prev. Res. Inst., Kyoto Univ., No. 47 C, March 2004, pp171-182.
[72] Yuan Di and Tadanobu Sato, A practical numerical method for large strain liquefaction analysis of saturated soils, Soil Dynamics and Earthquake Engineering, 2004, Vol. 24, pp. 251-260.
[73] Yuan Di and Tadanobu Sato, Arbitrary Lagrangian-Eulerian Formulation for Large Deformation Analysis of Saturated Soils, Proceedings of The 11th International Conference on Soil Dynamics & Earthquake Engineering (11th ICSDEE) & The 3rd International Conference on Earthquake Geotechnical Engineering (3rd ICEGE), University of California, Berkeley, January 7th - 9th, 2004, pp. 110-117.
[74] Yuan Di and Tadanobu Sato, Liquefaction analysis of saturated soils taking into account variation in porosity and permeability with large deformation, Computers and Geotechnics, Vol.30, No.7: 623-635, 2003.
[75] Yuan Di and Tadanobu Sato, Remapping scheme in ALE method for liquefaction simulation, (CD-ROM), Proceedings of 16th ASCE Engineering Mechanics Conference, University of Washington, Seattle, Washington, July 16-18, 2003, 12 pages.
[76] Yuan Di, Tadanobu Sato and Yong Moon, A new simulation method for liquefaction and induced ground flow, 2nd Canadian Specialty Conference on Computer Applications in Geotechnique, Winnipeg, April 2002. pp. 197-204.
[77] Yuan Di, Yong Moon and Tadanobu Sato, Numerical simulation of seismic response of site overlying on liquefiable soil layer, KAIST-Kyoto University Joint Seminar on Earthquake Engineering, Daejeon, Korea, Feb. 2002. pp. 47-52.
[78] Xiaowei Tang, Yuan Di and Tadanobu Sato, Dynamic analysis of saturated porous medium by 3D FEM-FDM coupled method considering large deformation, KAIST-Kyoto University Joint Seminar on Earthquake Engineering, Daejeon, Korea, Feb. 2002. pp. 83-88.
[79] Yuan Di and Tadanobu Sato, A practical numerical method for large deformation dynamic response problems in saturated soil. Proceedings of the Thirty-sixth Japan National Conference on Geotechnical Engineering, Tokushima, June 2001. No.691.
[80] Yuan Di and Tadanobu Sato, FEM-FDM coupled method for saturated soil analysis considering large deformation. Proceedings of the 26th JSCE Earthquake Engineering Symposium, Sapporo, August 2001. pp. 193-196.
[81] Yuan Di and Tadanobu Sato, Large deformation dynamic analysis of porous medium using FEM-FDM coupled method. Advances in Computational Engineering & Sciences (Atluri, S.N., Nishioka, T. and Kikuchi, M., Eds.), Chapter 12 Multiphysics & Multibody Dynamic, Tech Science Press, 2001, 6 pages.
[82] Yuan Di, Mingwu Yuan, Ultimate load analysis of reinforced concrete silo shell roof, Engineering Mechanics, Vol.18, No.6: 54-60, 2001(in Chinese).
[83] Yuan Di, Mingwu Yuan, The data model of tall building structure computer aided design system, Journal of Computer Aided Design & Computer Graphics, Vol.13, No.2: 151-157, 2001(in Chinese).
[84] Yuan Di, A corrective method of flat region occurring in DTM constructed from contours, Journal of Computer Aided Design & Computer Graphics, Vol.12, No.8: 566-570, 2000(in Chinese).
[85] DI Yuan, YUAN Mingwu. The Dot-Matrix-Indication Method and the Vector-Matrix -Indication Method for Group-Together of Shear-Wall Nodes In The CAD System of Tall Building. Journal of Computer Aided Design & Computer Graphics, Vol.11,No.6:504-507,1999(in Chinese)
[86] Xia Jianyun, Di Yuan, Research and Implementation for Constructing Digital Terrain Model Using Discrete Points and Edges , Journal of Guizhou University of Technology, Vol.28, No.4: 17-21, 1999(in Chinese)
[87] Di Yuan. Study of Sliding Base-Isolated Structures. Theories and Practices of Structural Engineering, pp93-101, Chinese Seismological Press, 1998
[88] Di Yuan, Yuan Mingwu. Development of a CAD Program ASD for Tall Building Reinforced Concrete Structure. Engineering Mechanics, 1998(supplement): 623-627(in Chinese)
[89] Di Yuan, Yuan Mingwu. Research on the Design of Rubber Bearing in Base-Isolated Buildings. Chinese Journal of Computational Mechanics, Vol.14, Special Issue: 525-528, 1997(in Chinese)
[90] Di Yuan, Yuan Mingwu, Xiao Jianzhuang. Simplifying of Dynamic Response Analysis of Base Isolation Multiply-Structure. Engineering Mechanics, 1998(supplement): 623-627(in Chinese)
[91] Di Yuan, Wang Qingmin, Feng Dingguo. Non-linear Seismic Response Analysis of Sliding-Type Base Isolation System. Journal of Xi'an University of Architecture and Technology, Vol.28, No.2:162-166, 1996 (in Chinese)
[92] Di Yuan, Zhu Bolong, Study on Interstorey Earthquake Shear Force Distributions of Base Isolation Structures, Journal of Tongji University, Vol.24, No.1: 1-5, 1996(in Chinese)
[93] Di Yuan. Study of Sliding-Type Base Isolation, Proceedings of the 2th National Conference on Structural control and Vibration Absorb, Feb. 1992, Wuhan, China. (in Chinese)
TEACHING EXPERIENCE
1. 2008—now: “Numerical Simulation”, “Geomechanics”, “Numerical Simulation of Multiphase Flow in Porous Media” and “The Physics of Flow through Porous Media”.
2. 2000—2008: “Fundamental of Structural Design”, “Reinforced Concrete Structures ” and “Soil Mechanics”.