Xinpu Shen | Petroleum Engineering | Best Researcher Award Published on 18/08/202518/08/2025 by World Top Scientists Prof. Xinpu Shen | Petroleum Engineering | Best Researcher Award Professor at China University of Petroleum-Beijing, China Prof. Xinpu Shen is a distinguished researcher and educator in the field of geomechanics and petroleum engineering, with extensive experience spanning academia and industry. His career highlights include pioneering work in numerical modeling for hydraulic fracturing, wellbore stability, multiphase flow, and casing deformation, which have significantly advanced reservoir engineering practices. He has held senior advisory roles in leading global energy companies, contributing to innovative solutions for complex engineering challenges, while also serving as a professor at top universities where he has taught and supervised students in mechanics, finite element methods, and related subjects. Prof. Shen has successfully led several nationally funded research projects, showcasing his ability to bridge theoretical advances with practical applications. Recognized internationally for his contributions, including being named a Simulia Champion by Dassault Systems, he continues to impact both industry and academia through his research, mentorship, and commitment to advancing geomechanics in energy engineering. Professional Profile Google Scholar | Scopus Profile Education Prof. Xinpu Shen has a strong academic foundation in engineering and mechanics, beginning with a bachelor’s degree in mechanical engineering from North China University of Technology, where he built a solid grounding in applied mechanics and engineering design. He pursued a master’s degree in solid mechanics at Northeastern University, further enhancing his expertise in the analysis of materials and structural behavior. His academic journey culminated with a doctorate in solid mechanics from Tsinghua University, one of China’s most prestigious institutions, where he specialized in advanced theories of mechanical behavior and numerical modeling. This educational background equipped him with a deep understanding of both fundamental and applied mechanics, enabling him to bridge theoretical insights with practical engineering applications. His progression through increasingly advanced studies reflects a continuous commitment to mastering his field, laying the intellectual foundation for his later contributions in petroleum engineering, geomechanics, and computational mechanics research. Experience Prof. Shen has accumulated extensive professional experience across academia and industry, with nearly three decades dedicated to advancing geomechanics and petroleum engineering. He served as a professor and associate professor at leading universities, where he taught core subjects including mechanics of materials, damage mechanics, plasticity theory, and finite element methods, nurturing future engineers and researchers. Beyond teaching, he has coordinated several nationally funded research projects, demonstrating strong leadership in managing complex scientific initiatives. His industrial experience is equally distinguished, with a significant tenure as a senior technical advisor at Halliburton, where he developed innovative numerical solutions for hydraulic fracturing, reservoir stimulation, and wellbore integrity. He also led research teams in geomechanics within international consulting and engineering companies, contributing to the design and optimization of large-scale energy projects. This unique combination of academic and industrial expertise positions him as a rare professional capable of bridging fundamental science with real-world engineering challenges. Research Focus Prof. Shen’s research is centered on geomechanics within the context of petroleum engineering, particularly the development of advanced numerical and theoretical models to address complex subsurface engineering problems. His work covers a wide spectrum of topics, including hydraulic fracturing mechanisms, multiphase flow modeling, wellbore stability analysis, casing deformation prediction, and fracture network development under high-pressure water flooding. He has also contributed significantly to damage mechanics and finite element modeling, applying these approaches to analyze material failure and structural integrity in extreme environments. His research extends to developing in-house software and innovative computational techniques that improve efficiency and accuracy in field applications. By bridging theoretical mechanics with applied petroleum engineering, his work not only advances scientific understanding but also offers practical solutions for optimizing drilling, production, and reservoir management. His focus reflects a strong commitment to addressing industry challenges while simultaneously expanding the frontiers of geomechanics research. Award and Honor Prof. Shen’s outstanding contributions to geomechanics and petroleum engineering have been recognized with honors at both national and international levels. A highlight of his career is his recognition as a Simulia Champion by Dassault Systèmes, a global leader in simulation and modeling technologies, reflecting his innovative application of advanced computational methods to complex engineering challenges. This honor underscores his impact on integrating cutting-edge numerical tools into real-world problem-solving, bridging academia, research, and industry applications. In addition to formal awards, his career achievements are reflected in his successful coordination of nationally funded research projects, which showcase both his leadership and his ability to generate impactful solutions of societal and industrial relevance. His recognition by leading organizations positions him among the foremost experts in his field, while his dual role as a researcher and educator amplifies the long-term impact of his work by influencing future generations of engineers and researchers. Publications Top Notes Title: Damage model for jointed rock mass and its application to tunnellingAuthors: G. Swoboda, X. P. Shen, L. RosasYear: 1998Citations: 93 Title: Optimizing multistage hydraulic fracturing design based on three-dimensional (3D) continuum damage mechanicsAuthors: X. Shen, W. B. Standifird, S. EvansYear: 2017Citations: 30 Title: Constitutive theory of plasticity coupled with orthotropic damage for geomaterialsAuthors: X. Shen, Z. Mroz, B. XuYear: 2001Citations: 27 Title: Numerical analysis of casing failure under non-uniform loading in subsalt wells in paradox basinAuthors: X. ShenYear: 2011Citations: 25 Title: Predictive model for water absorption in sublayers using a machine learning methodAuthors: W. Liu, W. D. Liu, J. Gu, X. ShenYear: 2019Citations: 21 Title: Trajectory optimization for offshore wells and numerical prediction of casing failure due to production-induced compactionAuthors: X. Shen, M. Bai, W. Standifird, R. MitchellYear: 2012Citations: 21 Title: Drilling and Completion in Petroleum EngineeringAuthors: X. Shen, M. Bai, W. StandifirdYear: 2012Citations: 21 Title: Stress and deformation characteristics of completion and testing tubing string with expansion joints for ultra-deep HTHP gas wellsAuthors: X. Yang, X. Shen, X. Cui, K. Wang, G. Shen, Z. Wang, T. QinYear: 2020Citations: 20 Title: A calculation method for the allowable fracturing injection pressure of preventing casing deformationAuthors: X. Shen, P. ZhangYear: 2019Citations: 20 Title: Optimized perforation tunnel geometry, density and orientation to control sand productionAuthors: J. Zhang, W. B. Standifird, X. ShenYear: 2007Citations: 20 Title: A plasticity-based damage model for concreteAuthors: X. Shen, L. Yang, F. ZhuYear: 2004Citations: 20 Title: Research progress of ODS FeCrAl alloys – a review of composition designAuthors: X. Wang, X. ShenYear: 2023Citations: 17 Title: The Characteristics of Elasto-Brittle-Plastic Softening Constitutive Theory and Its Numerical CalculationAuthors: X. Shen, Z. Cen, B. XuYear: 1995Citations: 15 Title: DEA-161 Joint Industry Project to Develop an Improved Methodology for Wellbore Stability Prediction: Deepwater Gulf of Mexico Viosca Knoll 989 Field AreaAuthors: X. P. ShenYear: 2009Citations: 14 Title: Analysis of progressive interface failure under monotonic loadingAuthors: Z. Mroz, X. ShenYear: 1999Citations: 14 Conclusion Prof. Xinpu Shen’s publication record reflects a strong blend of theoretical development and practical application in geomechanics and petroleum engineering. His most-cited works demonstrate lasting influence in areas such as damage modeling, hydraulic fracturing design, wellbore stability, casing deformation, and advanced constitutive theories. The balance between high-impact journal papers, patents, books, and industry-oriented studies highlights his ability to contribute to both scientific advancement and real-world engineering solutions. His collaborative research with international and national partners further illustrates his versatility and reach in addressing complex challenges across academia and industry. Overall, his body of work positions him as a leading researcher whose contributions have significantly shaped the understanding and practice of geomechanics, making him a strong candidate for recognition through prestigious research awards.
Prof. Xinpu Shen is a distinguished researcher and educator in the field of geomechanics and petroleum engineering, with extensive experience spanning academia and industry. His career highlights include pioneering work in numerical modeling for hydraulic fracturing, wellbore stability, multiphase flow, and casing deformation, which have significantly advanced reservoir engineering practices. He has held senior advisory roles in leading global energy companies, contributing to innovative solutions for complex engineering challenges, while also serving as a professor at top universities where he has taught and supervised students in mechanics, finite element methods, and related subjects. Prof. Shen has successfully led several nationally funded research projects, showcasing his ability to bridge theoretical advances with practical applications. Recognized internationally for his contributions, including being named a Simulia Champion by Dassault Systems, he continues to impact both industry and academia through his research, mentorship, and commitment to advancing geomechanics in energy engineering. Professional Profile Google Scholar | Scopus Profile Education Prof. Xinpu Shen has a strong academic foundation in engineering and mechanics, beginning with a bachelor’s degree in mechanical engineering from North China University of Technology, where he built a solid grounding in applied mechanics and engineering design. He pursued a master’s degree in solid mechanics at Northeastern University, further enhancing his expertise in the analysis of materials and structural behavior. His academic journey culminated with a doctorate in solid mechanics from Tsinghua University, one of China’s most prestigious institutions, where he specialized in advanced theories of mechanical behavior and numerical modeling. This educational background equipped him with a deep understanding of both fundamental and applied mechanics, enabling him to bridge theoretical insights with practical engineering applications. His progression through increasingly advanced studies reflects a continuous commitment to mastering his field, laying the intellectual foundation for his later contributions in petroleum engineering, geomechanics, and computational mechanics research. Experience Prof. Shen has accumulated extensive professional experience across academia and industry, with nearly three decades dedicated to advancing geomechanics and petroleum engineering. He served as a professor and associate professor at leading universities, where he taught core subjects including mechanics of materials, damage mechanics, plasticity theory, and finite element methods, nurturing future engineers and researchers. Beyond teaching, he has coordinated several nationally funded research projects, demonstrating strong leadership in managing complex scientific initiatives. His industrial experience is equally distinguished, with a significant tenure as a senior technical advisor at Halliburton, where he developed innovative numerical solutions for hydraulic fracturing, reservoir stimulation, and wellbore integrity. He also led research teams in geomechanics within international consulting and engineering companies, contributing to the design and optimization of large-scale energy projects. This unique combination of academic and industrial expertise positions him as a rare professional capable of bridging fundamental science with real-world engineering challenges. Research Focus Prof. Shen’s research is centered on geomechanics within the context of petroleum engineering, particularly the development of advanced numerical and theoretical models to address complex subsurface engineering problems. His work covers a wide spectrum of topics, including hydraulic fracturing mechanisms, multiphase flow modeling, wellbore stability analysis, casing deformation prediction, and fracture network development under high-pressure water flooding. He has also contributed significantly to damage mechanics and finite element modeling, applying these approaches to analyze material failure and structural integrity in extreme environments. His research extends to developing in-house software and innovative computational techniques that improve efficiency and accuracy in field applications. By bridging theoretical mechanics with applied petroleum engineering, his work not only advances scientific understanding but also offers practical solutions for optimizing drilling, production, and reservoir management. His focus reflects a strong commitment to addressing industry challenges while simultaneously expanding the frontiers of geomechanics research. Award and Honor Prof. Shen’s outstanding contributions to geomechanics and petroleum engineering have been recognized with honors at both national and international levels. A highlight of his career is his recognition as a Simulia Champion by Dassault Systèmes, a global leader in simulation and modeling technologies, reflecting his innovative application of advanced computational methods to complex engineering challenges. This honor underscores his impact on integrating cutting-edge numerical tools into real-world problem-solving, bridging academia, research, and industry applications. In addition to formal awards, his career achievements are reflected in his successful coordination of nationally funded research projects, which showcase both his leadership and his ability to generate impactful solutions of societal and industrial relevance. His recognition by leading organizations positions him among the foremost experts in his field, while his dual role as a researcher and educator amplifies the long-term impact of his work by influencing future generations of engineers and researchers. Publications Top Notes Title: Damage model for jointed rock mass and its application to tunnellingAuthors: G. Swoboda, X. P. Shen, L. RosasYear: 1998Citations: 93 Title: Optimizing multistage hydraulic fracturing design based on three-dimensional (3D) continuum damage mechanicsAuthors: X. Shen, W. B. Standifird, S. EvansYear: 2017Citations: 30 Title: Constitutive theory of plasticity coupled with orthotropic damage for geomaterialsAuthors: X. Shen, Z. Mroz, B. XuYear: 2001Citations: 27 Title: Numerical analysis of casing failure under non-uniform loading in subsalt wells in paradox basinAuthors: X. ShenYear: 2011Citations: 25 Title: Predictive model for water absorption in sublayers using a machine learning methodAuthors: W. Liu, W. D. Liu, J. Gu, X. ShenYear: 2019Citations: 21 Title: Trajectory optimization for offshore wells and numerical prediction of casing failure due to production-induced compactionAuthors: X. Shen, M. Bai, W. Standifird, R. MitchellYear: 2012Citations: 21 Title: Drilling and Completion in Petroleum EngineeringAuthors: X. Shen, M. Bai, W. StandifirdYear: 2012Citations: 21 Title: Stress and deformation characteristics of completion and testing tubing string with expansion joints for ultra-deep HTHP gas wellsAuthors: X. Yang, X. Shen, X. Cui, K. Wang, G. Shen, Z. Wang, T. QinYear: 2020Citations: 20 Title: A calculation method for the allowable fracturing injection pressure of preventing casing deformationAuthors: X. Shen, P. ZhangYear: 2019Citations: 20 Title: Optimized perforation tunnel geometry, density and orientation to control sand productionAuthors: J. Zhang, W. B. Standifird, X. ShenYear: 2007Citations: 20 Title: A plasticity-based damage model for concreteAuthors: X. Shen, L. Yang, F. ZhuYear: 2004Citations: 20 Title: Research progress of ODS FeCrAl alloys – a review of composition designAuthors: X. Wang, X. ShenYear: 2023Citations: 17 Title: The Characteristics of Elasto-Brittle-Plastic Softening Constitutive Theory and Its Numerical CalculationAuthors: X. Shen, Z. Cen, B. XuYear: 1995Citations: 15 Title: DEA-161 Joint Industry Project to Develop an Improved Methodology for Wellbore Stability Prediction: Deepwater Gulf of Mexico Viosca Knoll 989 Field AreaAuthors: X. P. ShenYear: 2009Citations: 14 Title: Analysis of progressive interface failure under monotonic loadingAuthors: Z. Mroz, X. ShenYear: 1999Citations: 14 Conclusion Prof. Xinpu Shen’s publication record reflects a strong blend of theoretical development and practical application in geomechanics and petroleum engineering. His most-cited works demonstrate lasting influence in areas such as damage modeling, hydraulic fracturing design, wellbore stability, casing deformation, and advanced constitutive theories. The balance between high-impact journal papers, patents, books, and industry-oriented studies highlights his ability to contribute to both scientific advancement and real-world engineering solutions. His collaborative research with international and national partners further illustrates his versatility and reach in addressing complex challenges across academia and industry. Overall, his body of work positions him as a leading researcher whose contributions have significantly shaped the understanding and practice of geomechanics, making him a strong candidate for recognition through prestigious research awards.