Hem Bahadur Motra | Rock Mechanics | Applied Engineering Award

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Dr. Hem Bahadur Motra | Rock Mechanics | Applied Engineering Award

Lecturer, Christian Albrecht University of Kiel, Germany

Dr. Hem Bahadur Motra is a distinguished geomechanics expert and academic leader with a German nationality and South Asian roots. He currently serves as the Head of the Geomechanics Experimental Laboratory at Christian-Albrechts-Universität zu Kiel and holds lecturing positions at both Kiel University and the University of Applied Sciences Kiel. His interdisciplinary expertise spans rock mechanics, structural engineering, and geotechnical testing. Renowned for his international collaborations and practical research applications, Dr. Motra has been affiliated with premier institutions across Europe, Asia, and North America. His scientific work integrates multiscale experimental modeling, anisotropic behavior of rocks, and geotechnical system responses under complex stress conditions. Beyond academia, he consults for engineering firms in Germany, Nepal, and the U.S., translating complex research into applied solutions. Dr. Motra is a forward-thinking researcher committed to developing sustainable subsurface engineering practices through innovation, data integration, and high-fidelity experimental validation.

Professional Profile

Scopus

Education

Dr. Hem Bahadur Motra has pursued a progressive academic trajectory in civil engineering, specializing in geomechanics and structural engineering. He earned his Doctorate in Engineering (Dr.-Ing.) from Bauhaus-Universität Weimar with the highest distinction, focusing on quality assessment of structural experimental models. His Master’s degree in Civil Engineering with a focus on Geotechnics and Infrastructure was awarded by Gottfried Wilhelm Leibniz Universität Hannover, with excellent academic performance. He completed his Bachelor’s degree in Civil Engineering at Tribhuvan University, Nepal, graduating with distinction. Dr. Motra is currently finalizing his Habilitation at Christian-Albrechts-Universität zu Kiel, focusing on the multiscale and multipurpose integration of rock physics and geomechanics. His education is enriched by fellowships and scholarships from prestigious organizations, including DAAD and national academic institutions. His academic foundation blends strong analytical theory with a practical, problem-solving approach, making him a leader in both scientific inquiry and real-world application.

Experience

Dr. Motra brings extensive professional and academic experience across universities, research institutes, and engineering consultancies. He leads the Geomechanics Experimental Laboratory at Christian-Albrechts-Universität zu Kiel, where he also teaches courses in marine and terrestrial geotechnics. He lectures at the University of Applied Sciences Kiel in civil engineering, and formerly contributed to the Bauhaus-Universität Weimar as a research assistant. Internationally, he has completed multiple research stays across Europe, North America, and Asia, working with leading experts in rock physics, shale hydrocarbon exploration, and underground construction. Additionally, he co-founded Geocom International Pvt. Ltd. in Nepal, focusing on geotechnical investigation, tunneling, and subsoil surveys. His consulting experience includes collaborations with Babendererde Engineers (Germany), Engineering and Testing Service Inc. (USA), and Kastamandap Associate Pvt Ltd (Nepal). His work integrates research, teaching, consulting, and experimentation—making him an applied engineering professional with global influence and technical depth.

Research Focus

Dr. Hem Bahadur Motra’s research bridges the gap between theoretical rock mechanics and applied geotechnical engineering. His central focus is on the multiscale behavior of anisotropic rocks under true-triaxial and thermal stress environments. He investigates micromechanical properties of kerogen-rich formations, deformation in high-rank coals, and the behavior of shale under varying lithological and stress conditions. His approach emphasizes experimental validation using advanced triaxial apparatus, with applications in deep tunneling, underground energy storage, and hydrocarbon recovery. Dr. Motra also explores quality control techniques for structural experimental models and integrates numerical modeling to simulate real-world geotechnical behavior. His work has strong implications in sustainable infrastructure design, underground construction, and the geotechnical challenges of climate-resilient development. By combining laboratory precision, field knowledge, and modeling expertise, Dr. Motra contributes to safer and more efficient engineering solutions in both marine and terrestrial environments.

Publication Top Notes

Title: Elastic properties of anisotropic rocks using a stepwise loading framework in a true triaxial testing apparatus
Journal: Geoenergy Science and Engineering
Authors: Hem Bahadur Motra et al.
Summary: This study investigates the elastic response of anisotropic rocks under multiaxial loading. A custom true-triaxial apparatus was used to capture stiffness variations and directional dependency in rock specimens. Results help improve geomechanical models for underground construction and energy extraction.

Title: Influence of lithological contrast on elastic anisotropy of shales under true-triaxial stress and thermal conditions
Journal: International Journal of Rock Mechanics and Mining Sciences
Authors: Hem Bahadur Motra et al.
Summary: This paper examines how lithological heterogeneity affects shale behavior under combined stress and temperature conditions. Findings aid in optimizing hydraulic fracturing and subsurface fluid flow simulations.

Title: Elastic anisotropy and deformation characteristics of Pennsylvania anthracite
Journal: International Journal of Coal Geology
Authors: Hem Bahadur Motra et al.
Summary: Focuses on deformation and elastic responses of high-rank coals. The study provides insight into coal seam stability and gas extraction efficiency, with implications for mine safety.

Title: Micromechanical variation of organic matter (kerogen type I) under controlled thermal maturity progression
Journal: Journal of Rock Mechanics and Geotechnical Engineering
Authors: Hem Bahadur Motra et al.
Summary: Analyzes the microstructural and mechanical evolution of kerogen under simulated thermal aging. Results assist in understanding source rock maturation and improving petroleum system models.

Conclusion

Dr. Motra exemplifies the spirit of applied engineering through his blend of academic excellence, international collaboration, and field-relevant innovation. His contributions directly address challenges in geotechnical and subsurface engineering, making his candidacy highly suitable and compelling for the Research for Applied Engineering Award.

Majed Almubarak | Geomechanics | Best Researcher Award

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Mr Majed Almubarak | Geomechanics | Best Researcher Award

PhD Student, Massachusetts Institute of Technology, United States

Majed AlMubarak is a dedicated PhD candidate in Petroleum Engineering at Texas A&M University, where he maintains a perfect GPA of 4.0. With a rich academic background that includes a Master’s degree from MIT and a Bachelor’s degree from Texas A&M, Majed has consistently demonstrated excellence in his studies. He has significant experience in both industry and research, having worked as a reservoir engineer at Saudi Aramco and contributed to various high-impact research projects. Majed is passionate about advancing energy technologies and sustainable practices within the petroleum industry.

Profile

Google Scholar

Strengths for the Award

  1. Academic Excellence:
    • Majed has demonstrated exceptional academic performance throughout his educational journey, achieving a 4.0 GPA in his PhD program and a 4.9 GPA in his Master’s degree at MIT. His summa cum laude distinction during his undergraduate studies further showcases his commitment to excellence.
  2. Diverse Research Experience:
    • His extensive research background spans multiple prestigious institutions, including Texas A&M University and MIT. He has participated in various impactful projects related to petroleum engineering, rock mechanics, and geothermal systems, indicating a breadth of knowledge and adaptability in different research environments.
  3. Innovative Contributions:
    • Majed’s research on CO2 injection challenges, electro-hydraulic fracturing, and the development of novel fracturing fluids demonstrates his capacity for innovation in addressing complex industry challenges. His work on smart underground space exploration also reflects a forward-thinking approach to integrating technology and research.
  4. Publication Record:
    • With multiple published works and citations in prominent journals and conferences, Majed has established himself as a thought leader in his field. His involvement in various projects that contribute to the understanding of fluid dynamics and rock interactions enhances his visibility and credibility as a researcher.
  5. Industry Experience:
    • His practical experience as a reservoir engineer at Saudi Aramco equips him with a strong understanding of real-world applications, enhancing his research’s relevance and applicability to the petroleum industry.

Areas for Improvement

  1. Networking and Collaboration:
    • While Majed has a strong foundation, increasing his engagement in interdisciplinary collaborations could enrich his research perspectives and lead to novel findings. Actively participating in more workshops and conferences can enhance his professional network.
  2. Broader Impact of Research:
    • Focusing on how his research can be translated into broader societal benefits, such as environmental sustainability and energy efficiency, could enhance the impact of his work and appeal to a wider audience.
  3. Leadership Roles:
    • Taking on leadership roles in research projects or student organizations could further develop his management and mentorship skills, positioning him as a leader in the academic community.

Education

Majed AlMubarak is currently pursuing a PhD in Petroleum Engineering at Texas A&M University, expected to graduate in 2026 with a 4.0 GPA. He holds a Master of Science in Civil and Environmental Engineering from MIT, where he achieved an impressive GPA of 4.9. Majed also earned his Bachelor of Science in Petroleum Engineering from Texas A&M University in 2019, graduating summa cum laude with a GPA of 3.91. His educational journey reflects a strong foundation in engineering principles, enhanced by rigorous coursework and research experiences that have shaped his expertise in geomechanics and reservoir engineering.

Experience

Majed AlMubarak has gained valuable industry experience as a Reservoir Engineer at Saudi Aramco’s EXPEC Advanced Research Center. During his tenure from 2019 to 2020, he led projects focusing on CO2 enhanced oil recovery and experimental work addressing CO2 injection challenges. His hands-on approach involved utilizing advanced monitoring techniques and conducting laboratory experiments to improve recovery efficiency. In addition to his industry experience, Majed has served as a Graduate Research Assistant at Texas A&M University and MIT, where he engaged in significant research projects, including acid fracturing geomechanics and electro-hydraulic fracturing for geothermal systems. His diverse experience positions him as a well-rounded professional in the field of petroleum engineering.

Awards and Honors

Majed AlMubarak has received numerous accolades throughout his academic career, underscoring his dedication and excellence in engineering. He was a finalist in the Best Young Professional SPE Endogenous Contest in 2020 and received the Distinguished Student Award from the Dwight Look College of Engineering in 2019. His commitment to research was recognized when he secured first place in the SPE Petroleum Engineering Student Paper Contest in 2018. Furthermore, Majed has consistently achieved academic excellence, earning a place on the President’s List and the Dean’s List from 2015 to 2019. His undergraduate studies were fully sponsored by Saudi Aramco Oil Company, reflecting his potential and the value he brings to the engineering community.

Research Focus

Majed AlMubarak’s research focuses on advancing the understanding of geomechanics and reservoir engineering within the petroleum sector. His current projects at Texas A&M University involve evaluating acid fracturing geomechanics in carbonate rocks and assessing fracture conductivity in the Austin Chalk Formation. He explores innovative solutions for CO2 enhanced oil recovery and examines the efficiency of matrix acid stimulation techniques. His previous work at MIT concentrated on electro-hydraulic fracturing and the effects of various parameters on rock testing, further enriching his expertise. Majed is dedicated to addressing challenges in the energy industry, particularly in improving recovery techniques and promoting sustainable practices through advanced engineering solutions.

Publication Top Notes

  • Investigation of acid-induced emulsion and asphaltene precipitation in low permeability carbonate reservoirs.
  • A collective clay stabilizers review.
  • Insights on potential formation damage mechanisms associated with hydraulic fracturing.
  • Recent advances in waterless fracturing fluids: A review.
  • Chelating agent for uniform filter cake removal in horizontal and multilateral wells: laboratory analysis and formation damage diagnosis.
  • Influence of zirconium crosslinker chemical structure and polymer choice on the performance of crosslinked fracturing fluids.
  • Zirconium crosslinkers: Understanding performance variations in crosslinked fracturing fluids.
  • Enhancing foam stability through a combination of surfactant and nanoparticles.
  • A study on the adsorption behavior of different surfactants in carbonate using different techniques.
  • Turning the most abundant form of trash worldwide into effective corrosion inhibitors for applications in the oil and gas industry.

Conclusion

Majed AlMubarak is a highly qualified candidate for the Best Researcher Award, showcasing exceptional academic achievements, a diverse research portfolio, and significant contributions to the field of petroleum engineering. His strengths in innovation, publication, and industry experience solidify his position as a leading researcher. By focusing on enhancing his networking, broadening the societal impact of his research, and developing leadership skills, Majed can further elevate his profile and influence in the academic and professional communities. His potential for continued excellence makes him a deserving candidate for this prestigious recognition.