Yingqi LIU | Bridge Engineering | Best Researcher Award

Assist Prof Dr. Yingqi LIU | Bridge Engineering | Best Researcher Award

Assistant of Department Head | Wuhan University of Technology  | China

Short Biography 🌟

Selby Liu Yingqi is a dedicated researcher and educator in the field of Structural Engineering, specializing in resilient seismic design and modular construction. With a robust academic background from HKU and WHUT, he has excelled in both research and practical applications of engineering principles.

Profile:

ORCID

Education 📚

Selby Liu Yingqi earned his PhD in Structural Engineering from The University of Hong Kong (HKU), where he was recognized for his outstanding contributions as a Teaching Assistant and achievements in academic competitions. Prior to his doctoral studies, he completed both his Master’s and Bachelor’s degrees in Road & Railway Engineering and Road & Bridge Engineering respectively at Wuhan University of Technology (WHUT).

Experience 💼

Selby Liu Yingqi’s professional journey includes roles as Assistant Professor at WHUT and Honorary Research Associate Professor at HKU. His research has spanned various projects such as the Long-term Behavior of Modular Integrated Construction (MiC) and Resilient Seismic Design for Precast Segmental Bridge Columns.

Research Interests 🌐

His research interests primarily focus on resilient seismic design, modular construction techniques, and the application of intelligent technologies in bridge engineering, aiming to enhance structural resilience and sustainability.

Awards 🏆

Selby Liu Yingqi has been recognized with multiple awards throughout his academic career, including the Outstanding Teaching Assistant Award and the 2nd Runner-up in the Three Minute Thesis (3MT) competition at HKU.

Publications 📄

  • Resilience-Based Design for Next-Generation Bridge Design and Construction Workshop, Structures (SCI), 2021
  • Seismic Assessment of Existing Bridges in Regions of Low to Moderate Seismicity, CIC project, HKU
  • Long-term Behavior of MiC Concrete Buildings, Modular Integrated Construction Laboratory (MiCLab), HKU
  • Study on the Structural Force of Primary Lining in Shallow Buried Bias Tunnel based on Back Analysis Method, Master Thesis, WHUT
  • Integrated Application of Intelligent Operation and Maintenance Technology for Hong Kong-Zhuhai-Macao Bridge, Shenzhen Research Institute of HKU

 

 

Dr. Ahmad Mubarak - Engineering - Young Scientist Award

University of DUNDEE - Palestine

Professional Profiles

Google Scholar

Early Academic Pursuits

Ahmad Ghassan Fua’ad Mubarak's academic journey is rooted in a solid foundation in civil engineering, with a focus on earthquake geotechnical engineering. Born on September 6, 1992, in Nablus, Palestine, Mubarak demonstrated academic excellence early on, achieving a Tawjihi certificate in 2010 with an impressive rate of 94.00 (Excellent) from Qadre Touqan High School. This achievement set the stage for his future endeavors in higher education and research.

In 2010, Mubarak enrolled at An-Najah University in Nablus, where he pursued a Bachelor of Science degree in Civil Engineering. His academic performance was commendable, graduating in 2014 with a GPA of 3.20 out of 4.0, earning the distinction of "Very Good." His major in Civil Engineering, with a minor in Structural and Construction Engineering, provided him with a robust technical background essential for his future research and professional activities.

Professional Endeavors

Mubarak's professional career began with significant roles in the field of civil engineering, culminating in his current position as a Lead Structural Engineer at Sawaftah & Mubarak – Architects and Engineers in Palestine, starting in August 2023. In this role, Mubarak is responsible for modeling, analyzing, and designing structural systems, as well as preparing detailed structural drawings and design reports in compliance with municipal standards. His leadership extends to supervising junior engineers within the Engineering and Estimation department, ensuring the delivery of high-quality engineering solutions.

In addition to his engineering responsibilities, Mubarak has developed and presented two specialized engineering courses to his peers. These courses focus on equipping young engineers with the latest skills and knowledge in analyzing and designing deep foundations and applying seismic analyses to tall structures according to ASCE standards. His role as a private lecturer underscores his commitment to advancing the field through education and mentorship.

Contributions and Research Focus On Engineering

Mubarak's contributions to civil engineering are highlighted by his research focus on earthquake geotechnical engineering. His academic journey at the University of Dundee, Scotland, was particularly distinguished. He completed his Ph.D. in Civil Engineering in 2023 with a subspeciality in Earthquake Geotechnical Engineering, graduating with distinction. His doctoral thesis, titled "Numerical Simulation of Large Tunnel Systems under Seismic Loading Conditions: CERN Infrastructure as a Case Study," earned him the prestigious Angus Fulton Post Graduate Prize for the best research thesis submitted for a higher degree in Civil Engineering.

Prior to his Ph.D., Mubarak completed a Master of Science in Geotechnical Engineering and Soil Dynamics at the University of Dundee in 2018, also with distinction. His master's thesis, "Numerical Study of Seismic Structure-soil-structure Interaction (SSSI) between Adjacent Blocks of Structures," showcased his expertise in numerical simulations and seismic analysis, contributing valuable insights to the field of geotechnical engineering.

Accolades and Recognition In Engineering

Mubarak's academic and professional achievements have garnered significant recognition. The Angus Fulton Post Graduate Prize, awarded for his outstanding Ph.D. thesis, is a testament to his excellence in research and his contributions to the field of civil engineering. This accolade highlights his ability to conduct high-quality, impactful research that addresses critical challenges in earthquake geotechnical engineering.

Impact and Influence

Ahmad Mubarak's impact extends beyond his research contributions. His role as a Lead Structural Engineer and private lecturer has positioned him as a key figure in the local engineering community in Palestine. By developing and delivering specialized courses, he has played a crucial role in advancing the knowledge and skills of young engineers, fostering a culture of continuous learning and professional development.

His expertise in seismic analysis and deep foundations has also influenced the engineering practices within his consultancy, ensuring that projects are designed and executed to withstand seismic events, thereby enhancing the safety and resilience of infrastructure in seismic-prone areas.

Legacy and Future Contributions For Engineering

Ahmad Mubarak's legacy is characterized by his dedication to advancing the field of civil engineering through both research and practice. His contributions to earthquake geotechnical engineering and his commitment to education and mentorship have left a lasting impact on the engineering community.

Looking ahead, Mubarak is poised to continue his influential work in civil engineering. His ongoing professional activities and potential future research endeavors are expected to further enhance our understanding of seismic impacts on infrastructure and contribute to the development of innovative engineering solutions. As he continues to mentor young engineers and lead in the field, his legacy will be defined by a commitment to excellence, innovation, and the advancement of engineering knowledge.

Notable Publications

Influence of modelling approach for reinforced concrete underground structures, with application to the CMS cavern at CERN 2024

PRELIMINARY STUDY FOR SEISMIC ASSESSMENT OF THE UN-DERGROUND FACILITIES AT POINT 5 OF THE LARGE HADRON COLLIDER (LHC) AT CERN 2023

Numerical simulation of large tunnel systems under seismic loading conditions: CERN infrastructure as a case study 2023

Structure-soil-structure interaction in changing urban areas 2019

Tu Anh – Civil Engineering – Best Researcher Award

Tu Anh - University of Transport and Communications - Vietnam

Professional Profiles
Early Academic Pursuits

Tu Anh Do commenced his academic journey with a Bachelor's degree in Civil Engineering from the University of Transport and Communications (UTC), Hanoi, Vietnam, graduating in June 2002. This initial phase laid the groundwork for his subsequent academic achievements.

Professional Endeavors

Tu Anh Do's professional journey reflects a commitment to both teaching and research. Starting as a Lecturer at the Faculty of Civil Engineering, UTC, Hanoi, Vietnam, from 2002 to 2008, he transitioned to an international platform as a Teaching and Research Assistant at the University of Florida, United States, from 2008 to 2013. Following this, he held the position of Postdoctoral Associate at the University of Florida in 2013-2014. Returning to his roots, Tu Anh Do continued his service at the Faculty of Civil Engineering, UTC, Hanoi, Vietnam, from 2014 to 2018. Currently, he holds the esteemed position of Associate Professor at the Faculty of Civil Engineering, UTC, Hanoi, Vietnam, since 2018.

Contributions and Research Focus

Tu Anh Do's research prowess spans diverse projects and topics in civil engineering. Notable projects include the development of software for analyzing bridge decks using finite element methods, a pilot project for the maximum heat of mass concrete, and the optimal selection of sensor locations for dynamic monitoring of bridges. His recent projects delve into the thermal behavior of high-strength concrete structures, evaluating the impact of temperature variation on cracking risk in concrete bridges using Artificial Intelligence, and the strength and temperature sensitivity of high-performance concrete containing nano-silica for bridge construction. Tu Anh Do has made significant contributions to the field, with a focus on early-age concrete elements, convective heat transfer coefficients, and the effects of electro-osmosis on lubrication of cement paste-based material.

Accolades and Recognitio

Tu Anh Do's academic journey is adorned with prestigious honors and awards. Notably, he received the Vietnam Fund for Support of Technical Creativeness grant, the Minister of Education and Training grant, and the Japan KUMAGAI GUMI Scholarship for his outstanding undergraduate studies. His excellence has been consistently acknowledged, with awards such as the ASTM International Committee on Publications 2014 Award for Outstanding Article in the Journal of Testing and Evaluation and the Minister of Education and Training grant for excellent performances in teaching and research during the years 2018-2020.

Impact and Influence

Tu Anh Do's impact transcends borders and disciplines. His extensive research contributions, spanning from the United States to Vietnam, demonstrate a global influence. By engaging in projects that address critical aspects of civil engineering, he contributes not only to academic knowledge but also to the practical implementation of innovative solutions in infrastructure and construction.

Legacy and Future Contributions

Tu Anh Do's legacy is characterized by a harmonious blend of teaching, research, and impactful projects. His commitment to exploring new frontiers in civil engineering, particularly in the thermal behavior of concrete structures, positions him as a thought leader in the field. As he continues his academic journey, Tu Anh Do is poised to leave a lasting legacy of innovation, excellence, and positive influence on the future of civil engineering.

Notable Publications

Cited by

All Since 2018
Citations 345 315
h-index 11 11
i10-index 13 13