Dr. Peng Wang | Computational Modeling | Best Researcher Award

Published on by Chemistry Awards

Dr. Peng Wang | Computational Modeling | Best Researcher Award

Dr. Peng Wang | Computational Modeling | Lecturer at School of Mining and Coal Engineering, Inner Mongolia University of Science and Technology, China

Peng Wang is a Lecturer at the School of Mining and Coal Engineering, Inner Mongolia University of Science and Technology. His research primarily focuses on mine safety, coal spontaneous combustion mechanisms, and numerical simulation techniques. With a strong academic background, he has led innovative studies on coal gangue heap oxidation and spontaneous combustion hazard zones, contributing significantly to the field of mining safety. Over the past three years, he has published 9 academic papers as first or corresponding author, with 7 indexed in SCI/EI journals. He has successfully led two research projects, including the prestigious Inner Mongolia Autonomous Region Doctoral Research Innovation Grant. Additionally, he has played a key role as a technical lead in three industry projects. His contributions to coal safety and emergency management were recognized in 2024 when he was awarded the First Prize for Outstanding Paper at the Safety and Emergency Management Talent Development Conference.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Peng Wang is a highly qualified candidate for the “Best Researcher Award” due to his significant contributions to coal spontaneous combustion mechanisms and mine safety. With over 15 research publications, including 7 SCI/EI-indexed papers as the first or corresponding author, he has demonstrated strong research expertise. He has successfully led two research projects, including the Inner Mongolia Autonomous Region Doctoral Research Innovation Grant, and has been a technical lead in three major projects. His interdisciplinary work, combining numerical simulation and experimental analysis, provides groundbreaking insights into fire prevention in mining. His contributions have been recognized with the First Prize for Outstanding Paper at the Safety and Emergency Management Talent Development Conference (2024). Considering Peng Wang’s research impact, publications, awards, and leadership in industry collaborations, he is a highly suitable candidate for the “Best Researcher Award” in the field of Mine Safety and Coal Combustion Prevention.

🎓Education:

Peng Wang holds a strong academic background in mining and coal engineering. He completed his doctoral studies in mine safety, focusing on the spontaneous combustion of coal gangue heaps and numerical simulations for risk mitigation. His research has been instrumental in developing new strategies for preventing coal-related hazards in dry and windy mining regions. His Ph.D. research was supported by the Inner Mongolia Autonomous Region Doctoral Research Innovation Grant, highlighting its significance in industrial safety applications. He pursued his graduate and undergraduate studies in mining engineering, equipping himself with deep technical expertise in coal combustion mechanisms and mineral-reagent interactions. His educational journey has laid a robust foundation for his research contributions in spontaneous combustion safety, mine ventilation, and fire prevention strategies. Through continuous academic pursuits, he has built a strong profile in applied mining safety and innovative coal research.

🏢Work Experience:

Peng Wang has extensive experience in the field of mining safety and coal combustion research. As a Lecturer at Inner Mongolia University of Science and Technology, he has been actively involved in both academic and industry projects. Over the years, he has led two major research projects, including one funded by the Inner Mongolia Autonomous Region. Additionally, he has contributed as a technical lead to three large-scale industry projects focused on mine safety and fire prevention. His expertise extends to numerical simulation methods, allowing him to model coal oxidation processes and spontaneous combustion risks effectively. His contributions as a member of the China Coal Society further demonstrate his active engagement in scientific communities. With a strong research output of 15 journal papers and participation in key national projects, he continues to advance the safety protocols and preventive measures in coal mining operations.

🏅Awards: 

Peng Wang has received several prestigious recognitions for his outstanding contributions to mining safety and coal spontaneous combustion research. In 2024, he was awarded the First Prize for Outstanding Paper at the Safety and Emergency Management Talent Development Conference for his significant work on coal gangue spontaneous combustion mechanisms. His research excellence was also acknowledged through the Inner Mongolia Autonomous Region Doctoral Research Innovation Grant, which supported his pioneering studies in mine fire prevention. As a major contributor to the National Natural Science Foundation of China, he has played a crucial role in advancing coal safety research at the national level. Additionally, he has served as a technical lead in three large-scale industry projects, focusing on risk mitigation in coal mining operations. His active membership in the China Coal Society further highlights his professional engagement in developing innovative strategies for fire prevention and mine safety improvements.

🔬Research Focus:

Peng Wang specializes in mine safety, with a strong emphasis on preventing coal spontaneous combustion and improving fire mitigation strategies. His research has led to groundbreaking studies on the oxidation and air seepage properties of coal gangue heaps, crucial for determining spontaneous combustion hazard zones. By integrating numerical simulation techniques, he has developed models that predict and control combustion risks in coal mines. His interdisciplinary approach combines thermodynamics, fluid mechanics, and chemistry to enhance the understanding of coal oxidation dynamics. His findings offer theoretical and practical solutions for mining operations in dry and windy regions, ensuring improved safety measures. With a strong commitment to industrial application, his work has influenced national policies on coal safety, and his collaborations with the National Natural Science Foundation of China have strengthened research advancements in the field. His studies continue to play a vital role in reducing environmental hazards and ensuring mine worker safety.

Publication Top Notes:

A study on the thermal behavior of coal gangue mountains under airflow influence based on MD and CFD simulations

New Insights into the Depressive Mechanism of Sodium Silicate on Bastnaesite, Parisite, and Fluorite: Experimental and DFT Study

Study on the air permeability characteristics of coal gangue dump slope gangue particles

Study on the variability of oxygen adsorption behavior in coal gangue based on pore size structure

Analysis of failure mode and deformation evolution characteristics of slopes under the influence of highwall mining

Experimental study and molecular simulation of spontaneous combustion of coal gangue by oxidation under different water contents

Study on adsorption-diffusion-seepage behavior of oxygen in coal gangue under the coupling of temperature and pressure

Study on the Law of Repeated Mining Strata Movement and Surface Subsidence in Close Distance Coal Seam

Synergistic Adsorption and Molecular Arrangement of Mixed Surfactants at the Air/Water Interface

DFT Calculation of BHA and SHA and Its Flotation Performance on Bastnaesite

Flotation effect and quantum chemical calculation of octyl hydroxamic acid and sodium silicate on bastnaesite and fluorite

Depression behavior and mechanism of sodium silicate on bastnaesite and parisite flotation

DFT calculation of octyl hydroxamic acid and oleic acid and their flotation performance comparison on bastnasite and fluorite

Mechanism of sodium sulfide on flotation of cyanide-depressed pyrite

Mohamed Fahmy | Computational Modeling | Best Researcher Award

Published on by Chemistry Awards

Prof Dr. Mohamed Fahmy | Computational Modeling | Best Researcher Award

Professor at Umm Al-Qura University, Saudi Arabia

Dr. Mohamed Abdelsabour Fahmy Selim is a distinguished professor in Applied Mathematics, currently serving at Adham University College, Umm Al-Qura University in Makkah, Saudi Arabia. With a rich academic background and extensive experience in both teaching and research, Dr. Selim specializes in scientific computing, applied mathematics, and boundary element methods. His career spans multiple institutions across Egypt, Libya, and Saudi Arabia, showcasing his commitment to advancing mathematical sciences through innovative research and pedagogical excellence.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Selim’s scholarly contributions are well-recognized in the academic community, as reflected in his robust author metrics. His work has been widely cited, indicating a significant impact on the field of applied mathematics. Key metrics include a high h-index, indicating the number of his publications that have been cited at least that many times, and an impressive number of total citations. His profiles on ResearchGate, Scopus, and ORCID provide further insights into his research impact and academic standing.

  • Citations: 1,301
  • Documents: 75
  • h-index: 24

Education

Dr. Selim holds a B.Sc. in Mathematics from South Valley University (1996), an M.Sc. in Applied Mathematics from the same institution (2001), and a Ph.D. in Applied Mathematics from Al-Azhar University (2008). His academic journey underscores a deep commitment to understanding and solving complex mathematical problems, with his theses focusing on mechanics of deformable bodies and thermoelastic media.

Research Focus

Dr. Selim’s research primarily revolves around applied mathematics with a focus on scientific computing. His expertise includes boundary element methods (BEM), thermoelasticity, piezoelectric materials, and functionally graded materials. He explores mathematical modeling and computational techniques to solve problems in mechanics, heat transfer, and material sciences. His work often involves developing new algorithms and models to address challenges in these areas.

Professional Journey

Dr. Selim’s professional journey includes roles at several prestigious institutions. He began his academic career as a lecturer in Libya and progressively advanced to assistant and associate professor positions. He has held significant roles in Egypt and Saudi Arabia, including his current position as a full professor at Adham University College. His journey reflects a steady rise in academic rank and responsibility, coupled with a strong record of research and teaching.

Honors & Awards

Throughout his career, Dr. Selim has received numerous honors and awards for his contributions to the field of applied mathematics and scientific research. These recognitions reflect his impact on the academic community and his commitment to excellence in both research and teaching. Specific awards include certifications as a trainer from prominent institutions and recognition for his contributions to scientific conferences.

Publications Noted & Contributions

Dr. Selim has authored and co-authored numerous publications in leading journals and presented his work at various international conferences. His notable publications include research on dual reciprocity boundary element methods, generalized thermoelastic problems, and novel computational models for piezoelectric materials. His contributions have advanced the understanding and application of mathematical models in solving complex engineering and scientific problems.

“A boundary element analysis of quasi-potential inviscid incompressible flow in multiply connected airfoil wing”

  • Journal: Journal of Umm Al-Qura University for Engineering and Architecture
  • Publication Date: May 7, 2024
  • DOI: 10.1007/s43995-024-00063-3
  • Contributors: Mohamed Abdelsabour Fahmy, Mohammed Hassan M. Alzubaidi

“BEM Modeling for Stress Sensitivity of Nonlocal Thermo-Elasto-Plastic Damage Problems”

“Fractional Temperature-Dependent BEM for Laser Ultrasonic Thermoelastic Propagation Problems of Smart Nanomaterials”

  • Journal: Fractal and Fractional
  • Publication Date: July 11, 2023
  • DOI: 10.3390/fractalfract7070536
  • Part of ISSN: 2504-3110
  • Contributor: Mohamed Abdelsabour Fahmy

“Optimization of tank engine crank shaft material properties”

  • Journal: Mechanics Based Design of Structures and Machines
  • Publication Date: June 3, 2023
  • DOI: 10.1080/15397734.2021.1916754
  • Part of ISSN: 1539-7734, 1539-7742
  • Contributors: Abdel-Salam G. Abdel-Salam, Ayesha Sohail, Lubna Sherin, Qurat Ul Ain Azim, Ayesha Faisal, Mohamed Abdelsabour Fahmy, Zhiwu Li

“Generalized Heat Equation with the Caputo–Fabrizio Fractional Derivative for a Nonsimple Thermoelastic Cylinder with Temperature-Dependent Properties”

  • Journal: Physical Mesomechanics
  • Publication Date: April 2023
  • DOI: 10.1134/s1029959923020108
  • Part of ISSN: 1029-9599, 1990-5424
  • Contributors: A. E. Abouelregal, A. H. Sofiyev, H. M. Sedighi, Mohamed Abdelsabour Fahmy

Research Timeline

Dr. Selim’s research timeline illustrates his evolution as a scholar. Starting with his early work on mechanics of deformable bodies, he has progressively focused on more advanced topics such as thermoelasticity and functionally graded materials. His research timeline includes major milestones such as completing his Ph.D., publishing significant papers, and presenting at international conferences, showcasing his ongoing commitment to advancing the field.

Collaborations and Projects

Dr. Selim has collaborated with researchers from various institutions and participated in multiple projects aimed at solving real-world problems using mathematical modeling and computational techniques. His collaborations often involve interdisciplinary work, leveraging expertise from different fields to address complex scientific and engineering challenges. These projects highlight his ability to work effectively in diverse research environments and contribute to innovative solutions.

Conclusion

Dr. Mohamed Fahmy Selim is a highly esteemed researcher in applied mathematics, with a proven track record of impactful research and innovative contributions. His high citation metrics, diverse research topics, and recognition through awards underscore his significant contributions to the field.

However, there is room for growth, particularly in integrating interdisciplinary approaches, exploring new research areas, and enhancing dissemination and mentorship efforts. By addressing these areas for improvement, Dr. Selim could further amplify his impact and continue to advance the field of applied mathematics and scientific computing.