Chenglong He | Impact Dynamics | Technology Integration Award

Posted on 11/12/202411/12/2024 by ScienceFather

Chenglong He | Impact Dynamics | Technology Integration Award

Prof. Chenglong He, North University of China, China.

Chenglong He is a researcher at the North University of China, specializing in impact dynamics. His work focuses on dynamic damage mechanisms, crack propagation, and the effects of blasting on surrounding rocks. Chenglong holds a Ph.D. in Mechanics from the Beijing Institute of Technology and has contributed extensively to rock mechanics research. His expertise includes using advanced experimental methods and developing computational models to understand and mitigate rock failure under dynamic stress conditions. He has published several influential papers on rock blasting, crack propagation, and stress wave interactions.

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Education and Experience

Education

Ph.D. in Mechanics, Beijing Institute of Technology (2013-2018)
Master in Mechanics, Beijing Institute of Technology (2012-2013)
B.S. in Ammunition Engineering and Explosion Technology, North University of China (2008-2012)

Experience

Research on dynamic damage mechanisms of deep surrounding rock under explosion stress waves
Studying failure mechanisms of surrounding rock under multi-point explosion aggregation
Investigating crack propagation and failure around a horseshoe tunnel during nearby blasting

Suitability For The Award

Prof. Chenglong He is an outstanding candidate for the Technology Integration Award for his pioneering work in rock mechanics and blasting engineering. He developed an intelligent blasting design program using C++, GPS data, and geographic imaging, enhancing precision and safety in operations. By integrating advanced experimental techniques and CAE tools like LS-DYNA and Abaqus, Chenglong delivers innovative solutions for dynamic rock failure analysis, bridging theory and practice with significant industrial applications.

Professional Development

Chenglong He has enhanced his professional skills through hands-on research in the field of rock mechanics, particularly focusing on the dynamic responses of deep rock under stress and blasting. He has developed advanced computational tools for blasting design and conducted comprehensive experiments to understand rock fracture mechanics. He regularly participates in international collaborations and workshops on geotechnical engineering, contributing to the global knowledge base on rock failure mechanisms. His work is instrumental in improving mining and demolition safety practices through cutting-edge research and technological advancements.

Research Focus

Chenglong He’s research primarily addresses impact dynamics, focusing on the failure mechanisms of rocks subjected to blast loading. He analyzes how in-situ stress and blast waves affect crack propagation in surrounding rock, with applications in mining and tunneling. His studies on multi-hole blasting and the effects of confining pressure help optimize blasting design for improved safety and efficiency. He also works on the development of specialized programs for intelligent blasting design, contributing to the advancement of geo-engineering practices. His research is essential for understanding rock behavior under extreme conditions and enhancing engineering practices.

Awards and Honors

Recognition for advancements in blasting design and rock fracture mechanics
Excellence in research in the field of dynamic rock mechanics

Publications Top Notes

“Dynamic Mechanical Characteristics of Horseshoe Tunnel Subjected to Blasting and Confining Pressure” 2023 | Applied Sciences | DOI: 10.3390/app13158911 | Cited by: 7
“Experimental and Numerical Investigation of Ballistic Resistance of Polyurea-Coated Aluminum Plates under Projectile Impacts” 2023 | Crystals | DOI: 10.3390/cryst13071039 | Cited by: 4
“Experimental Study of Crack Propagation and Failure Around a Horseshoe Tunnel During Nearby Blasting” 2021 | International Journal of Rock Mechanics and Mining Sciences | DOI: 10.1016/j.ijrmms.2021.104628 | Cited by: 19
“Investigation of Stress Wave Interaction and Fragmentation in Granite During Multihole Blastings” 2020 | IEEE Access | DOI: 10.1109/ACCESS.2020.3030253 | Cited by: 16
“Experimental and Numerical Investigations of Dynamic Failure Process in Rock Under Blast Loading” 2019 | Tunnelling and Underground Space Technology | DOI: 10.1016/j.tust.2018.08.047 | Cited by: 21
“Dynamic Crack Propagation of Granite Subjected to Biaxial Confining Pressure and Blast Loading” 2018 | Latin American Journal of Solids and Structures | DOI: 10.1590/1679-78254463 | Cited by: 11
“Laboratory Study of Dynamic Mechanical Characteristic of Granite Subjected to Confining Pressure and Cyclic Blast Loading” 2018 | Latin American Journal of Solids and Structures | DOI: 10.1590/1679-78254424 | Cited by: 9
“Laboratory Study on the Dynamic Response of Rock Under Blast Loading with Active Confining Pressure” 2018 | International Journal of Rock Mechanics and Mining Sciences | DOI: 10.1016/j.ijrmms.2018.01.011 | Cited by: 24

Berna Aksoy | Hydraulics | Best Researcher Award

Posted on 13/11/202413/11/2024 by ScienceFather

Berna Aksoy | Hydraulics | Best Researcher Award

Dr. Berna Aksoy, Zonguldak Bülent Ecevit University, Turkey.

Dr. Berna Aksoy is a faculty member at the Department of Civil Engineering at Zonguldak Bülent Ecevit University, specializing in Hydraulics. She holds a Bachelor’s degree in Civil Engineering, a Master’s degree in Civil Engineering from Bülent Ecevit University, and a Ph.D. in Civil Engineering from the same institution. Her research focuses on hydraulics, hydrology, water resources, and coastal engineering. Dr. Aksoy has published several articles in prestigious journals and presented her findings at international conferences. Her work contributes significantly to the fields of water resource management and coastal science.

Publication profile

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Education and Experience

Atatürk Anadolu High School – 2003
Mehmet ÇelikeL High School – 1996
Bülent Ecevit University – BSc in Civil Engineering (1998-2004)
Bülent Ecevit University – MSc in Civil Engineering (2003-2007)
Bülent Ecevit University – Ph.D. in Civil Engineering (2012-2018)
Zonguldak Bülent Ecevit University – Faculty Member, Hydraulics Specialist (Current)

Suitability For The Award

Dr. Berna Aksoy is a highly qualified candidate for the Best Researcher Award based on her extensive academic background, significant contributions to research in hydrology, water resources, and coastal sciences, and her active involvement in impactful studies.

Professional Development

Dr. Aksoy has actively contributed to the field of hydraulics and water resources management through her research and publications. Her work, including the analysis of coastal erosion and water quality, reflects her expertise in hydrology and engineering. Dr. Aksoy’s professional development extends beyond academia, with significant involvement in national and international conferences where she presents her research on water systems, hydraulics, and coastal conservation. She continuously expands her knowledge through collaborations and has contributed to the development of effective hydraulic parameters for risk analysis in river systems.

Research Focus

Dr. Aksoy’s research focuses on Hydraulics, Hydrology, Coastal Engineering, and Water Resources Management. She has explored the effects of bed materials on river roughness and hydraulic potential, as well as the temporal analysis of coastal erosion in Turkey. Her studies on water quality in Filyos Stream using artificial neural networks contribute to understanding the impacts of seasonal changes and human activities on water systems. Additionally, Dr. Aksoy investigates flood risks and hydraulic parameters in river systems to enhance water management practices and disaster preparedness.

Awards and Honors

International Publication on Coastal Erosion – Journal of Coastal Conservation (2014)
Principal Component Analysis on Hydrological Data – Fresenius Environmental Bulletin (2009)
Research Contributions on Water Quality by Artificial Neural Network – Türkiye Su Bilimi ve Yönetimi Dergisi (2023)
Hydraulic Risk Analysis and Flooding Area Studies – International Black Sea Coastline Countries Symposium

Publications

Temporal analysis of coastal erosion in Turkey: a case study Karasu coastal region (Journal of Coastal Conservation, 2014)
Afet ve acil durumlarında su ihtiyacının belirlenmesi ve yönetimi (Natural Hazards and Disaster Management, 2018)
Mevsimsel değişikliğin Filyos Çayı su kalitesine etkisinin yapay sinir ağı ile belirlenmesi (Fen Bilimleri Enstitüsü, 2018)
Principal component analysis of the annual precipitation of West Black Sea hydrological basin in Turkey (Fresenius Environmental Bulletin, 2009)
Filyos Nehri’ndeki Askıda Katı Madde Miktarının Yapay Sinir Ağları İle Belirlenmesi (SETSCI-Conference Proceedings, 2019)
Effect of Bed Material on Roughness and Hydraulic Potential in Filyos River (Water, 2024)

Xiaoluan Sun | structural engineering | Best Researcher Award

Posted on 18/10/202418/10/2024 by ScienceFather

Xiaoluan Sun | structural engineering | Best Researcher Award

Mr. Xiaoluan Sun, Nanjing Tech University,China.

Sun Xiaoluan is an Associate Professor and National Level Registered Structural Engineer, specializing in wood structures and structural engineering. His work focuses on teaching, research, and the promotion of wood structure technology. He has contributed to several national and local standards, as well as educational materials, particularly in seismic-resistant technologies for buildings. Sun has received numerous awards for his achievements in architectural design and construction innovation, including provincial and national recognitions. He is an active member of professional organizations such as the Architectural Society of China and the Bamboo and Wood Structure Committee of Jiangsu Province.

Publication profile

Scopus

Education and Experience

Ph.D. in Structural Engineering
Associate Professor in Structural Engineering
National Level Registered Structural Engineer since 2011
Extensive experience in wood structure research and design
Editor of teaching materials and national standards for wood structures

Suitability for The Award

Dr. Sun Xiaoluan is an exemplary candidate for the Best Researcher Awards due to his extensive contributions to the field of structural engineering, particularly in the domain of wood structures. His dedication to advancing knowledge through teaching, research, and technology promotion sets him apart as a leader in his field.

Professional Development ()

Sun Xiaoluan is an accomplished researcher and educator in the field of wood structure engineering. He has played a key role in editing essential educational resources and standards that have advanced the field. His expertise in large-span wood structure systems and seismic-resistant technology has contributed to several construction innovations. Sun Xiaoluan’s research has made a profound impact on the architectural community, promoting sustainable building practices and improving the structural resilience of buildings. He continues to lead projects and serve as a mentor, significantly shaping the future of structural engineering.

Research Focus

Sun Xiaoluan’s research is primarily centered on the performance and design of large-span wood structures. His work explores new systems for large-span wood mesh shells and advances the design theory of wood structures. Additionally, his research contributes to the development of sustainable construction techniques, emphasizing structural durability and safety, especially in areas prone to seismic activity. His innovative approach promotes the use of wood in modern architecture while ensuring that structures meet rigorous engineering standards.

Awards and Honors ()

Second Prize, Ministry of Education Higher Education Scientific Research Outstanding Achievement Award
First Prize, Jiangsu Provincial Scientific and Technological Progress Award
Second Prize, Jiangsu Provincial Construction Science and Technology Award
First Prize, Jilin Provincial Outstanding Architectural Design Award
First Prize, National Green Building Innovation Award
Gold Medal, Architectural Design Award, Architectural Society of China

Publication

Analysis of Seismic Responses and Vibration Serviceability in a High-Rise Timber–Concrete Hybrid Building – 0 citations (2024)
Research on axial slip stiffness of the multi-bolted joint with slotted-in steel plate in reticulated timber shells – 2 citations (2021)
Rotational behavior and modeling of bolted glulam beam-to-column connections with slotted-in steel plate – 7 citations (2020)
Nonlinear finite element analysis of stability of K6-type single layer spherical timber latticed shell – 5 citations (2020)
Experimental investigation on mechanical performance of K6 single-layer reticulated glulam shells – 7 citations (2017)
Mechanical performance of single-layer reticulated glulam shells with semi-rigid prefabricated planted-bar joints – 4 citations (2017)
Behavior of Glulam Columns Reinforced by Near-Surface-Mounted CFRP Laminates under Eccentric Compression Loading – 19 citations (2016)
Experimental investigation on eccentric compression performance of semi-rigid joints in reticulated timber shells – 0 citations (2016)

Ivana Vasovic Maksimovic | Structural Integrity | Best Researcher Award

Posted on 09/10/202410/10/2024 by ScienceFather

Ivana Vasovic Maksimovic | Structural Integrity | Best Researcher Award

Dr. Ivana Vasovic Maksimovic, University of Belgrade , Serbia.

Dr. Ivana Vasovic Maksimovic is a distinguished mechanical engineer based in Belgrade, Serbia. With a PhD from the University of Belgrade, she specializes in structural integrity, welding technologies, and fatigue life estimation. Dr. Maksimovic has held various research positions at renowned institutions, including the Innovation Center at the University of Belgrade and Lola Institute Ltd. She actively participates in international projects and contributes to advancements in engineering through her numerous publications. Her dedication to enhancing industrial safety and performance has made her a prominent figure in her field.

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Education

- PhD, Mechanical Engineering, University of Belgrade, Serbia (2009–2015)
- MSc in Mechanical Engineering, University of Belgrade, Serbia (2001–2008)
- International Welding Engineer (IWE), Institute Gosa, Serbia (2014–2015)
- International Welding Inspector (IWI-C), Institute Gosa, Serbia (2016)

Experience

- Scientific Director, Lola Institute Ltd, Belgrade, Serbia (2019–present)
- Research Associate, Lola Institute Ltd, Belgrade, Serbia (2018–2019)
- Research Associate, Innovation Center, University of Belgrade, Serbia (2016–2018)
- Research Associate, Institute Gosa, Belgrade, Serbia (2015–2016)
- Research Assistant, Institute Gosa, Belgrade, Serbia (2009–2015)
- Research Trainee, Institute Gosa, Belgrade, Serbia (2008–2009)

Suitability for The Award

Dr. Ivana Vasovic Maksimovic, PhD, is a highly qualified candidate for the Best Researcher Award, distinguished by her exceptional contributions to the field of Mechanical Engineering, particularly in welding technologies, structural integrity, and fatigue analysis of materials. Her academic journey, beginning with her Master’s degree at the Faculty of Mechanical Engineering, University of Belgrade, has evolved into a successful research career, encompassing roles as a research trainee, assistant, associate, and scientific director. Ivana’s leadership in various research projects, both nationally and internationally, alongside her extensive publication record, underscores her influence and commitment to advancing the field.

Professional Development ()

Dr. Ivana Vasovic Maksimovic is committed to continuous professional development, evident in her involvement in numerous international projects aimed at advancing welding technologies and risk management in industry. She has participated in the ERASMUS+ PreVEnT project, focusing on predictive maintenance solutions for manufacturing. As a member of various professional societies, including the Serbian Welding Society and ESIS, she stays abreast of industry advancements. Her extensive publication record showcases her dedication to sharing knowledge and contributing to the scientific community. Dr. Maksimovic also plays a vital role in mentoring young engineers and promoting educational initiatives in her field.

Research Focus

Dr. Ivana Vasovic Maksimovic’s research focuses on structural integrity, fatigue life estimation, and welding technologies. She specializes in analyzing and optimizing the performance of mechanical components under various load conditions, employing advanced computational methods and experimental techniques. Her work significantly contributes to enhancing the safety and efficiency of engineering applications, particularly in the energy and aerospace sectors. Dr. Maksimovic’s commitment to innovation is reflected in her active participation in international research collaborations and her role in various national projects, aiming to address contemporary engineering challenges and improve industrial practices.

Awards and Honors ()

Best Researcher Award, Lola Institute Ltd, Serbia
Member, Serbian Welding Society
Member, European Structural Integrity Society (ESIS)
Contributor to National Projects on Engineering Innovations

Publication Top Notes

EFFICIENT COMPUTATION METHOD FOR TOTAL FATIGUE LIFE OF AIRCRAFT STRUCTURAL COMPONENTS (2023) – Cited by: N/A
Strength Analysis of Helicopter Tail Rotor Blades Made from Composite Materials (2023) – Cited by: N/A
Numerical and Experimental Study on Loading Behavior of Facade Sandwich Panels (2023) – Cited by: N/A
Residual Fatigue Life Analysis of Aircraft Structural Elements (2023) – Cited by: N/A
TOTAL FATIGUE LIFE ESTIMATION OF AIRCRAFT STRUCTURAL COMPONENTS USING STRAIN ENERGY DENSITY METHOD (2022) – Cited by: N/A
Buckling and postbuckling behavior of shell type structures under thermo mechanical loads (2021) – Cited by: N/A
Stability and Initial Failure Analysis of Layered Composite Structures (2021) – Cited by: N/A
Strength analysis of sendwich construction (2022) – Cited by: N/A
Strength Analysis of Vertical Tail Construction of Tactical Unmanned Aerial Vehicle Made from Composite Materials (2021) – Cited by: N/A

Conclusion

Dr. Ivana Vasovic Maksimovic’s comprehensive research portfolio and commitment to advancing mechanical engineering make her a strong candidate for the Best Researcher Award. Her innovative contributions to welding technologies and fatigue analysis, along with her collaborative spirit and leadership in national and international projects, highlight her potential to drive impactful advancements in engineering practices. Recognizing her achievements would not only honor her contributions but also inspire future generations of researchers in the field.

Pedram Ayyobi | Finite Element | Best Researcher Award

Posted on 04/10/202404/10/2024 by ScienceFather

Pedram Ayyobi | Finite Element | Best Researcher Award

Mr. Pedram Ayyobi, University of coimbra , Portugal.

Dr. Pedram Ayyobi is a skilled civil engineer specializing in Earthquake Engineering with a Master’s degree from Amirkabir University of Technology (2014). Currently pursuing a Ph.D. at the University of Coimbra, he focuses on building performance, structural engineering, and seismic strengthening. With expertise in finite element simulations and material behavior, Pedram contributes to advancements in civil infrastructure through cutting-edge research. His work spans multiple fields, including vibroelasticity, heat transfer, and passive structural control. Pedram has authored several journal and conference papers, making significant strides in civil engineering and materials science.

Publication profile

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Education & Experience:

Ph.D. (Ongoing) – Universidade de Coimbra (2023-Present)
Research focus: Building performance (acoustics & thermal)
Master’s in Earthquake Engineering – Amirkabir University of Technology (2014)
Thesis: “Evaluation of TMD systems in steel structures including soil-structure interaction”
Bachelor’s in Civil Engineering – University of Guilan (2011)
Researcher – Universidade do Minho (2021-2023)
Projects: Structural reinforcement and strengthening using CFRP laminates

Suitability for Best Researcher Award

Pedram Ayyobi is an outstanding candidate for the Best Researcher Award, demonstrating exceptional dedication and contributions to the field of Civil Engineering, particularly in Earthquake Engineering. Currently conducting research at the University of Coimbra, Pedram combines his academic excellence with practical applications to advance the understanding of building performance, specifically in acoustics and thermal efficiency. His qualifications are rooted in a Master’s degree from Amirkabir University of Technology, where his thesis on Tuned Mass Damper (TMD) systems significantly contributed to understanding seismic responses in steel structures.

Professional Development ()

Pedram Ayyobi has continuously expanded his expertise in the field of civil engineering through active research and practical applications. His experience includes working on advanced structural performance solutions, seismic vulnerability, and vibroelasticity. Pedram leverages finite element simulation and practical knowledge of construction materials to address challenges in passive structural control and soil-structure interaction. His involvement in various research fellowships, including those at Universidade de Coimbra and Minho, has strengthened his ability to innovate in the areas of structural engineering and building performance. With multiple publications and project contributions, Pedram is a forward-thinking researcher in the civil engineering community.

Research Focus

Pedram Ayyobi’s research primarily revolves around the performance of civil structures, focusing on seismic strengthening, passive structural control, and soil-structure interaction. His expertise in finite element simulation allows him to assess the behavior of various construction materials under stress, particularly in relation to viber elasticity and heat transfer. Pedram is passionate about improving building performance, including acoustics and thermal regulation. His work with carbon fiber reinforced polymer (CFRP) laminates further contributes to the development of advanced reinforcement techniques for structures. This research directly impacts the sustainability and resilience of civil engineering projects.

Awards and Honors ()

Full Master’s Degree Grant – Amirkabir University of Technology (2012)
Partial Bachelor’s Degree Grant – University of Guilan (2007)

Publication Top Notes

“Numerical Assessment of the Effect of CFRP Anchorages on the Flexural and Shear Strengthening Performance of RC Beams” (2024) [Cited by: 0]
“Modelling the behavior of RC beams simultaneously strengthened for flexural and shear with CFRP systems” (2023) [Cited by: 0]
“Parametric and numerical Finite Element simulation of wind turbine blades subjected to thermal residual stresses” (2023) [Cited by: 0]
“Bond behaviour of a stick shape CFRP reinforcement applied according to the NSM-ETS strengthening techniques” (2023) [Cited by: 0]
“Effects of nonlinear soil–structure interaction on the seismic response of structure-TMD systems subjected to near-field earthquakes” (2017) [Cited by: 20]
“Genetic algorithm design of a soil–structure–damper system” (2015) [Cited by: 15]
“Performance of steel structures with tuned mass dampers, including soil structure interaction” (2015) [Cited by: 0]

Conclusion

Pedram Ayyobi’s robust academic background, innovative research contributions, and active engagement in high-impact projects position him as an exemplary candidate for the Best Researcher Award. His ongoing work at the University of Coimbra exemplifies his commitment to enhancing building performance and structural safety in the face of seismic challenges. Pedram’s ability to integrate theory with practical applications, coupled with his collaborative spirit, not only enriches the academic community but also holds significant promise for advancing the field of civil engineering. His dedication and results-driven approach are key factors that make him an outstanding choice for this prestigious recognition.

Saad Al-Haidari | Mechanical Engineering | Best Researcher Award

Posted on 25/09/202425/09/2024 by ScienceFather

Saad Al-Haidari | Mechanical Engineering | Best Researcher Award

Dr. Saad Raad Mujid , Al mustansiriyah university, Iraq.

Saad Raad Mujid is a skilled mechanical engineer specializing in thermal power engineering. He holds a Bachelor’s degree from the University of Mustansiriyah and is currently pursuing advanced studies in thermal dynamics. With expertise in computational fluid dynamics (CFD) and practical experience in industrial projects, he excels in design and manufacturing applications. Saad has successfully completed multiple safety and engineering courses, enhancing his knowledge in forced and natural heat convection. Proficient in various engineering software, he is committed to continuous learning and professional development, making significant contributions to the field of mechanical engineering.

Publication Profile

Orcid

Scopus

Suitability For The Award

Saad Raad Mujid is a commendable candidate for the Best Researcher Award, given his robust educational background in mechanical engineering and thermal power engineering, complemented by extensive hands-on experience in the field. Graduating from the College of Engineering at the University of Mustansiriyah in Baghdad, Saad has developed a solid foundation in engineering principles, which he has effectively applied in various research and industrial settings. His commitment to advancing knowledge in thermal power and fluid dynamics positions him as a valuable contributor to the engineering community.

Education and Experience

Bachelor’s Degree in Mechanical Engineering
University of Mustansiriyah, Baghdad, Graduation Year: 2019/2020
Master’s Degree in Thermal Power Engineering
University of Mustansiriyah, Baghdad
Research Assistant
Focused on thermal power, thermofluids, heat transfer, CFD, and hydraulic engineering
Course: Study of Forced Heat Convection from Staggered Pin Fins Array
University of Mustansiriyah, Duration: 6 months
Course: Study of Natural Heat Convection from Staggered Pin Fins Array
University of Mustansiriyah, Duration: 6 months
Course: General Industry Safety and Health
Osha Foundation, Basra, Duration: 30 hours
Course: Well Logging and Safety
Osha Foundation, Basra
Work Experience
- 15 months with Hyundai Company on the Karbala refinery project
- 10 months with Samsung Company
- 5 months with JV Companies
- Course: HSC
  Maysan Oil Company, Duration: 3 weeks

Professional Development

Saad Raad Mujid actively seeks professional development opportunities to enhance his skills and knowledge in mechanical engineering. He has completed courses in industry safety, heat convection studies, and well logging, which have equipped him with practical insights and enhanced his engineering capabilities. With hands-on experience at Hyundai and Samsung, he is well-versed in real-world applications of engineering principles. Saad continually strives to stay updated with the latest technologies, making him a valuable asset in any engineering environment.

Research Focus

Saad’s research focus lies in thermal power engineering, particularly in the study of heat transfer and fluid dynamics. He explores the principles of forced and natural convection, utilizing computational fluid dynamics (CFD) for innovative solutions in thermal applications. His hands-on experience with various engineering projects enables him to bridge the gap between theoretical concepts and practical implementations. Saad aims to contribute to advancements in energy efficiency and thermal management, making a meaningful impact in the field of mechanical engineering.

Awards and Honors

Certificate of Completion: Study of Forced Heat Convection
Certificate of Completion: Study of Natural Heat Convection
Certificate: General Industry Safety and Health
Certificate: Well Logging and Safety
Recognized for Outstanding Performance at Hyundai Company
Recognized for Commitment to Safety at Osha Foundation

Publications

Analysis of thermohydraulic flow and enhancement heat performance in 3D dimple tube based on varying geometrical configurations – Cited by 1 document, 2024
Evaluation of hydraulic thermal flow and heat performance augmentation in a 3D tube fitted with varying concavity dimple turbulator configurations – Cited by 0 documents, 2024

Conclusion

In conclusion, Saad Raad Mujid’s strong academic qualifications, practical experience, and commitment to safety and collaborative research make him a highly suitable candidate for the Best Researcher Award. Recognizing his contributions would not only honor his dedication but also inspire continued excellence in the field of mechanical and thermal engineering.

Prof. Chenglong He, North University of China, China.

Publication profile

Education and Experience

Education

Experience

Suitability For The Award

Professional Development

Research Focus

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Publications Top Notes

Dr. Berna Aksoy, Zonguldak Bülent Ecevit University, Turkey.

Publication profile

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications

Mr. Xiaoluan Sun, Nanjing Tech University,China.

Publication profile

Education and Experience

Suitability for The Award

Publication

Dr. Ivana Vasovic Maksimovic, University of Belgrade , Serbia.

Publication profile

Education

Experience

Suitability for The Award

Publication Top Notes

Conclusion

Mr. Pedram Ayyobi, University of coimbra , Portugal.

Publication profile

Education & Experience:

Suitability for Best Researcher Award

Conclusion

Dr. Saad Raad Mujid , Al mustansiriyah university, Iraq.

Suitability For The Award

Professional Development

Research Focus

Conclusion

Awards and Honors