Tantao Liu – Thermodynamics of Turbomachinery – Best Researcher Award 

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Dr. Tantao Liu began his academic journey with a strong focus on engineering and thermodynamics. From September 2008 to July 2012, he pursued an undergraduate degree in aircraft power engineering at the School of Energy, Harbin Institute of Technology. His early research focused on the influence of local roughness on the flow field of axial compressors, laying a solid foundation for his future contributions to turbomachinery and thermodynamics.

💼 Professional Endeavors

Dr. Liu continued his academic pursuits by enrolling in a PhD program in power engineering and engineering thermophysics at the School of Power and Energy, Northwestern Polytechnical University, in September 2019. His doctoral research centers on enhanced prediction of the flow field in turbomachinery using data assimilation, machine learning, data mining, and modeling of turbomachinery characteristics. His work integrates computational methods with experimental approaches to improve efficiency and reliability in turbomachinery systems.

🔬 Contributions and Research Focus

Dr. Tantao Liu's research has significantly advanced the thermodynamics of turbomachinery, particularly in improving predictive models for flow fields. By integrating data assimilation, machine learning, and data mining, he has developed innovative methodologies for optimizing the performance and efficiency of turbomachinery components. His research contributes to both theoretical advancements and practical applications in aerospace and energy systems. His expertise in computational modeling has provided insights into the impact of local roughness on compressor aerodynamics, leading to improved designs and enhanced performance.

🌍 Impact and Influence

Dr. Liu’s impact extends beyond academic research, as his work in the thermodynamics of turbomachinery has practical applications in the aerospace and power industries. His achievements in robotic competitions and his contributions to embedded systems demonstrate his versatility as an engineer. He has earned numerous awards at the national, provincial, and school levels, highlighting his excellence in innovation and problem-solving. His recognition at the First Conference on Advanced Test Simulation, Data Mining, Testing, and Analysis Technology for Aircraft Engines further establishes his influence in the field.

🏆Academic Cites

Dr. Liu's contributions to thermodynamics of turbomachinery have been recognized through academic citations and scholarly references. His research in predictive modeling, flow field optimization, and turbomachinery efficiency has been acknowledged in engineering and computational research communities. His work provides a critical foundation for future studies on improving turbomachinery performance through advanced data-driven techniques.

🌟 Legacy and Future Contributions

Dr. Tantao Liu’s legacy in power engineering and turbomachinery research continues to grow as he refines predictive models and explores new frontiers in computational thermodynamics. His work promises to enhance the efficiency and reliability of aircraft engines and energy systems, benefiting industries reliant on high-performance turbomachinery. As he progresses in his career, his innovative approach to machine learning and data mining will continue shaping the future of engineering thermophysics.

📝Thermodynamics of Turbomachinery

Dr. Liu’s pioneering research in thermodynamics of turbomachinery has led to breakthroughs in flow field prediction and optimization. His integration of machine learning and data assimilation techniques in thermodynamics of turbomachinery has set new standards for predictive accuracy. The future of thermodynamics of turbomachinery is poised for further advancements through his continued research and academic contributions.

Notable Publication

Experimental Data-Driven Flow Field Prediction for Compressor Cascade Based on Deep Learning and ℓ1 Regularization

Authors: T. Liu (Tantao), L. Gao (Limin), R. Li (Ruiyu)

Journal: Journal of Thermal Science

Year: 2024

Citations: 3

Aida Rabadanova – Superconductivity – Best Researcher Award 

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Mrs. Aida Rabadanova - Superconductivity - Best Researcher Award 

Dagestan State University - Russia 

Author Profile

Scopus

Orcid

🎓 Early Academic Pursuits

Mrs. Aida Rabadanova embarked on her academic journey with a deep passion for physics, focusing on advanced materials and their applications. She earned her Master's degree in Physics in 2018, laying the groundwork for her specialization in superconducting materials, nanomaterials, and hybrid structures. Her commitment to research excellence was evident early on, as she received the Best Scientific Work in the Field of Natural Sciences award (Diploma of I Degree, 2018), recognizing her outstanding contributions to fundamental physics.

💼 Professional Endeavors

Currently serving as a Lecturer in the Department of General Physics and a Research Associate, Mrs. Rabadanova has dedicated her career to advancing knowledge in superconductivity and material science. Her role extends beyond teaching, as she actively engages in pioneering research projects. She has received prestigious recognitions, including the Government of the Russian Federation Scholarship (2021) for her work in modernization and technological development. Through her efforts, she has contributed significantly to the growth of scientific research at her institution, mentoring students and fostering innovation in experimental physics.

🔬 Contributions and Research Focus

Mrs. Rabadanova's research focuses on superconducting materials, nanomaterials, and hybrid structures, with an emphasis on production technology. One of her major contributions is her work on the relationship between electrical resistance and differential relative volume changes in high-temperature superconductors (HTSC) above and below the superconducting transition temperature, a project funded by the Russian Foundation for Basic Research (2020–2022). Her studies have been instrumental in understanding the fundamental properties of superconducting materials, paving the way for advancements in energy transmission, quantum computing, and material synthesis.

🌍 Impact and Influence

As a leading researcher in the field of superconductivity, Mrs. Rabadanova has significantly influenced both academia and industry. Her contributions have been widely recognized, earning her multiple accolades, including "The Best Young Scientist of the Year 2021" in the "Natural Sciences" category in the Republic of Dagestan. Additionally, she received a Certificate of Merit in 2021 for her dedication to scientific innovation and student mentorship. Her research findings have helped shape the understanding of superconducting phenomena, influencing material development and technological applications worldwide.

🏆Academic Cites

Mrs. Rabadanova's work has been well-received in the scientific community, with her publications frequently cited in physics and materials science journals. Her research on superconductivity has provided valuable insights into the behavior of high-temperature superconductors, earning recognition from peers and experts in the field. As a recipient of the Personal Scholarship of the Head of the Republic of Dagestan for Young Scientists (2023), she continues to establish herself as a leading figure in materials physics.

🌟 Legacy and Future Contributions

With a promising career ahead, Mrs. Aida Rabadanova is poised to make lasting contributions to the field of superconductivity. Her ongoing research and dedication to mentoring young scientists ensure that her impact will extend beyond her current achievements. By continuing to explore novel materials and hybrid structures, she aims to drive technological advancements that will revolutionize energy storage, transportation, and electronics. Her legacy as a pioneer in superconducting materials will inspire future generations of physicists and researchers.

📝Notable Publication

📝Investigation of the impact of pulsed plasma on nanostructured YBCO materials

Authors: Gadzhimagomedov, S.Kh., Rabadanova, A.E., Rabadanov, M.Kh., Emirov, R.M., Faradzhev, Sh.P.

Journal: Applied Physics

Year: 2023

Citations: 0

📝YBCO nanostructured ceramics: Relationship between doping level and temperature coefficient of electrical resistance

Authors: Gadzhimagomedov, S.K., Palchaev, D.K., Murlieva, Z.K., Emirov, R.M., Rabadanova, A.E.

Journal: Journal of Physics and Chemistry of Solids

Year: 2022

Citations: 5

📝Modification of the surface of nanostructured Bi₀.₉₅La₀.₀₅FeO₃ ceramic by plasma

Authors: Gadzhimagomedov, S.K., Alikhanov, N.M.-R., Rabadanova, A.E., Saypulaev, P.M., Ilyichev, M.V.

Journal: Journal of Physics: Conference Series

Year: 2022

Citations: 0

📝Superconducting YBCO ceramics after exposure to a plasma flow to a mixture of argon and oxygen

Authors: Kh Gadzhimagomedov, S., Palchaev, D.K., Kh Gadzhiev, M., Emirov, R.M., Rabadanova, A.E.

Journal: Journal of Physics: Conference Series

Year: 2021

Citations: 2

📝Structure and dielectric properties of Bi₁₋ₓLaₓFeO₃ nanostructured ceramics

Authors: Rabadanova, A.E., Gadzhimagomedov, S.K., Alikhanov, N.M.R., Faradzhev, S.P., Saipulaev, P.M.

Journal: Ferroelectrics

Year: 2021

Citations: 1

📝Changes in the surface structure of nanostructured ceramics YBa₂Cu₃O₇₋ᵧ after exposure to a plasma stream

Authors: Gadzhimagomedov, S.Kh., Palchaev, D.K., Murlieva, J.Kh., Rabadanova, A.E., Saypulaev, P.M.

Journal: Journal of Physics: Conference Series

Year: 2020

Citations: 1