Qiang Yao | hydraulic engineering | Best Researcher Award

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Dr. Qiang Yao | hydraulic engineering | Best Researcher Award

Sichuan University | China

AUTHOR PROFILE

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CURRENT POSITION 🌟

Dr. Qiang Yao currently holds the position of Associate Professor in the College of Water Resources and Hydropower Engineering at Sichuan University, a role he has occupied since September 2019. In addition to his academic duties, he is engaged in leading significant research projects related to water conservancy and hydropower engineering.

EARLY ACADEMIC PURSUITS 🎓

Dr. Yao’s academic foundation was laid at Sichuan University, where he pursued his undergraduate degree in Water Resources and Hydropower Engineering, graduating in June 2010. His exceptional academic performance continued as he embarked on a Ph.D. in Hydraulic Structure Engineering at the same institution, completing it in June 2015. His doctoral research focused on key topics in water engineering, setting the stage for his future contributions to the field.

PROFESSIONAL ENDEAVORS 💼

Dr. Yao’s professional trajectory includes his role as a Lecturer at Sichuan University’s College of Water Resources and Hydropower Engineering from July 2015 to August 2019. Since then, he has been serving as an Associate Professor, where he continues to contribute to both teaching and research. Over the years, Dr. Yao has built a strong reputation in his field, participating in and leading numerous national research projects, particularly in areas related to seismic risk, landslides, and debris flows.

CONTRIBUTIONS AND RESEARCH FOCUS  ON hydraulic engineering 🔬

Dr. Yao’s research primarily revolves around hydraulic engineering, seismic disaster mechanisms, and blasting vibration comfort. One of his significant research contributions is the development of an energy absorption-based method to evaluate the comfort levels during blasting vibrations. His work also includes the study of landslide dams and the disaster chain effects in narrow-steep gully systems. Dr. Yao’s research has greatly contributed to understanding the disaster risks in strong earthquake zones and provided innovative solutions for mitigating these risks. His projects include national-level research on debris flow mechanisms in earthquake-prone areas and the feasibility of landslide dam developments.

IMPACT AND INFLUENCE 🌍

Dr. Yao’s work has had a profound impact on both academic and practical aspects of water resource engineering. His leadership in large-scale national research projects, such as the Ministry of Science and Technology’s Key R&D Program sub-projects, has advanced the understanding of disaster mitigation in water engineering. His research findings have been influential in shaping policies and practices in flood and landslide risk assessment. Furthermore, his academic contributions have also benefited the local community through the development of improved methods for managing disaster risks in seismic zones.

ACADEMIC CITES 📚

Dr. Yao’s research has been published in several well-respected journals, reflecting his academic stature. Notable publications include articles in Construction and Building Materials, Journal of Vibration and Control, and Frontiers in Earth Science, among others. His work on the infrared identification method for rock grain gradation, the comfort evaluation of blasting vibration, and debris flow discrimination in earthquake areas has garnered significant academic attention and citations. These publications underscore the importance of his work in both theoretical and practical applications in engineering and disaster risk management.

LEGACY AND FUTURE CONTRIBUTIONS 🏅

Dr. Yao has made a lasting impact on the field of hydraulic and water resource engineering. His pioneering work in disaster risk management and seismic engineering will continue to influence future research and practical applications in these areas. As he advances in his academic career, Dr. Yao is likely to continue contributing to the development of new methodologies for risk assessment and disaster mitigation, particularly in regions prone to seismic activity. His ongoing research projects, particularly in energy absorption methods and landslide dams, are expected to provide vital solutions to water engineering challenges in disaster-prone regions.

IMPACT ON THE COMMUNITY 🌐

Dr. Yao’s research and academic contributions extend beyond just his immediate field, impacting broader communities in China and beyond. By collaborating with various government agencies and participating in key national research initiatives, Dr. Yao has helped improve the resilience of communities vulnerable to natural disasters. His work provides innovative solutions that help safeguard both lives and infrastructure in high-risk regions, ensuring the sustainability of water and hydropower systems.

NOTABLE PUBLICATIONS  📑

A study on the stability of dangerous rock mass under blasting vibration considering size effect
    • Author(s): Xinggen Chen; Xinyu Qu; Hongtao Li; Cheng Li; Gongda Lu; Qiang Yao
    • Journal: Bulletin of Engineering Geology and the Environment
    • Year: 2025
Vision based nighttime pavement cracks pixel level detection by integrating infrared visible fusion and deep learning
    • Author(s): Mengnan Shi; Hongtao Li; Qiang Yao; Jun Zeng; Junmu Wang
    • Journal: Construction and Building Materials
    • Year: 2024
A New Method for the Compaction Quality Inspection of High Rockfill Dams Based on 3D Laser Scanning Technology
    • Author(s): Qiang Yao; Yu Wu; Jun He; Shunchao Qi; HongTao Li
    • Journal: Structural Control and Health Monitoring
    • Year: 2024
A study on the Stability of Dangerous Rock Mass under Blasting Vibration Considering Size Effect (Preprint)
    • Author(s): Xinggen Chen; Xinyu Qu; Hongtao Li; Xiekang Wang; Cheng Li; Gongda Lu; Qiang Yao
    • Journal: Preprint
    • Year: 2023
Experimental study of erodible bed scoured by the debris flow in the narrow-steep gully
    • Author(s): Yu Wu; Jiejie Ji; Shunchao Qi; Xiekang Wang; Dong Li; Hongtao Li; Xingguo Yang; Qiang Yao
    • Journal: Scientific Reports
    • Year: 2023

Mudassir Ali Khan | Geotechnical engineering | Excellence in Research

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Dr. Mudassir Ali Khan | Geotechnical engineering | Excellence in Research

Integral University Lucknow, India

Author Profiles

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🧑‍🏫 Early Academic Pursuits

Dr. Mudassir Ali Khan embarked on his academic journey in the field of Civil Engineering at Aligarh Muslim University (AMU), India. His undergraduate education in Civil Engineering (2012-2016) laid the foundation for his specialization in Geotechnical Engineering, with his final-year project focusing on the design of foundations for hospital buildings. His academic journey continued with a Master in Technology in Civil Engineering (Geotechnical Engineering) from ZHCET, AMU, where he focused on the finite element analysis of underground openings. This work sparked his interest in advanced geotechnical analysis and modelling, setting the stage for his PhD.

🔬 Professional Endeavors

Dr. Khan’s professional journey is marked by a deep commitment to both research and teaching. His role as a Teaching Assistant at Universiti Teknologi PETRONAS, Malaysia (Oct 2019 – Dec 2023), allowed him to mentor and instruct students in Civil Engineering labs, particularly in Geotechnical, Highway, and Hydraulics Engineering, further enhancing his pedagogical skills. During this time, he supervised a final-year project on the impact of debris flow on pipelines, honing his research and analytical skills. Currently, as an Assistant Professor at Integral University, Lucknow (Sept 2024 – Present), he continues to inspire students while furthering his research expertise.

💡 Contributions and Research Focus

Dr. Khan’s research is centered around key challenges in Geotechnical Engineering, with particular emphasis on the physical and numerical modelling of complex problems. His research interests include soil stabilization, tunneling in soft soils, excavation dynamics, landslide impact modelling, and dynamic modelling of structures using Finite Element Methods (FEM). His PhD thesis, titled “The Impact Model of Channelized Debris Flow on Exposed Pipeline Through Experimental and Numerical Analyses,” underscores his deep dive into hazard modelling, a critical area in civil engineering. His scholarly works have contributed to the advancement of modelling techniques used in geotechnical problems, earning him recognition in the academic community.

🌟 Impact and Influence

Dr. Khan’s research has significantly impacted both academic circles and practical engineering applications. With over 15 indexed articles published in reputable journals, including book chapters and a book on geotechnical engineering, his work is widely cited. His accomplishments have earned him awards, such as the Gold Medal in the Research Article Writing Competition from ILMU Berhad, Malaysia, in 2024, which further bolstered his reputation in the field. His ability to translate complex engineering challenges into practical, impactful solutions positions him as a leading figure in his domain.

📑 Academic Cites and Publications

Dr. Khan has an impressive portfolio of over 15 indexed articles, two book chapters, and a full-length book published in top-tier journals. His research work on debris flow, soil stability, and tunnel liner modelling has been widely acknowledged in the academic world, as seen in his extensive citations. His role as a reviewer for journals such as Physics Chemistry of Earth and Geotechnica highlights his expertise and influence within the geotechnical engineering community. This body of work showcases his contributions to advancing both theoretical and applied research in his field.

🛠️ Technical Skills and Expertise

Dr. Khan has developed a broad skill set in both physical and numerical modelling of geotechnical issues. His proficiency with advanced modelling tools, particularly in tunnel liner analysis, soil stability, and debris flow impact, positions him at the forefront of applied geotechnical research. Through his research and projects, he has mastered techniques in soil stabilization, dynamic structure modelling (using FEM), and excavation in soft soil conditions. His technical expertise is not just theoretical but is applied in a variety of real-world problems, solidifying his reputation as a problem solver in the field.

🎓 Teaching Experience

With a strong foundation in teaching, Dr. Khan has actively contributed to the academic development of students both in Malaysia and India. As a Teaching Assistant at UTP Malaysia and later as an Assistant Professor at Integral University, he has taught a variety of civil engineering courses, including Geotechnical Engineering, Environmental Microbiology, and Sustainability. He has also conducted practical sessions for Geotechnical and Structural Engineering labs, preparing students to meet the challenges of the engineering profession. Through his teaching experience, he continues to inspire the next generation of engineers, emphasizing both theoretical knowledge and practical application.

🌱 Legacy and Future Contributions

Dr. Khan’s journey is one of continuous growth and contribution. His ongoing research on debris flow and tunneling in soft soils holds promise for addressing some of the most pressing challenges in geotechnical engineering. As an academic, he aims to push the boundaries of knowledge, particularly in soil stabilization techniques and dynamic modelling. His legacy is not only in the impact of his research but also in the students he mentors, shaping future leaders in engineering. As he continues to develop innovative solutions and share his knowledge, Dr. Khan is poised to make lasting contributions to the advancement of geotechnical engineering worldwide.

🏆 Awards and Fellowships

Dr. Khan’s dedication to his research and teaching has been recognized through various prestigious awards and fellowships. These include the Graduate Assistant fellowship from PETRONAS for his PhD, the GATE fellowship from UGC India during his Master’s program, and the Gold Medal in the SEMERAK International Research article competition in 2024. These accolades underline his exceptional academic achievements and his commitment to excellence in research and education.

 

📖 Top Noted Publications

Dynamic Response of Dilute to Viscous Channelized Debris Flow on Pipeline Crossing
    • Authors: Mudassir Ali Khan, Zahiraniza Mustaffa, Indra Sati Hamonangan Harahap
    • Journal: Natural Hazards
    • Year: 2024
Feasibility of Bituminous Stabilizer in the Stabilization of Problematic Soil: An Overview on the Non-Traditional Soil Additive
    • Authors: Ahmad, A.; Sutanto, M.H.; Ahmad, N.R.; Khan, M.A.; Wahab, A.; Sapar, N.I.F.; Hashir, M.
    • Journal: AIP Conference Proceedings
    • Year: 2023
Dynamic Response of Dilute to Viscous Channelized Debris Flow on Pipeline Crossing (Preprint)
    • Authors: Mudassir Ali Khan, Zahiraniza Mustaffa, Indra Sati Hamonangan Harahap
    • Journal: Preprint (not specified in the citation)
    • Year: 2023
Assessment of Physical Vulnerability and Uncertainties for Debris Flow Hazard: A Review concerning Climate Change
  • Authors: Khan, M.A.; Mustaffa, Z.; Harahap, I.S.H.; Ibrahim, M.B.; Al-Atroush, M.E.
  • Journal: Land
  • Year: 2022
Static and Dynamic Analysis of the Shielded Tunnel in Alluvium Soil with 2D FEM Model
    • Authors: Mudassir Ali Khan, Md. Rehan Sadique, Indrasati Hamonangan Harahap, Mohammad Zaid, M. Masroor Alam
    • Journal: Transportation Infrastructure Geotechnology
    • Year: 2022
Macroscale assessment of low-velocity impact on hybrid composite laminates,Makroskalige Bewertung des Einflusses niedriger Aufprallgeschwindigkeit auf hybride Verbundlaminate
    • Authors: Azeem, M.; Ya, H.H.; Alam, M.A.; Sultan, T.H.; Ali, M.; Sattar, M.; Ahmad, T.; Hatami, H.; Sadique, M.R.; Mokhtar, A.A. et al.
    • Journal: Materialwissenschaft und Werkstofftechnik
    • Year: 2021