Fazel Pourmirzaei Deylami | Electrical Engineering | Best Researcher Award

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๐ŸŒŸDr. Fazel Pourmirzaei Deylami, Electrical Engineering, Best Researcher Award๐Ÿ†

Doctorate at Shahrood University of Technology, Iran

Fazel Pourmirzaei Deylami, born on March 1, 1993, in Astaneh Ashrafieh, Guilan, Iran, is an accomplished electrical engineer specializing in electrical machines and power electronics. He holds a B.Sc. degree from the University of Guilan and an M.Sc. degree from the Shahrood University of Technology, both in Electrical Engineering. Currently pursuing his Ph.D. at Shahrood University of Technology, Fazel’s career spans academia and industry, with notable roles at AMPER Innovation Factory and MAPNA Generator Engineering and Manufacturing Co. (PARS).

Author Metrics

Google Scholar Profile

Fazel has established a strong presence in academia, evidenced by his publications in reputable journals and conferences. He serves as a reviewer for prominent journals such as IEEE Transactions on Magnetics and IET Electric Power Applications. Additionally, he edits for the Global Journal of Energy Technology Research Updates, further contributing to the scholarly community.

Fazel Pourmirzaei Deylami has received 14 citations, resulting in an h-index of 2 and an i10-index of 0. This suggests that while Fazel’s work has been cited, the number of citations is relatively low, and there are no publications with at least 10 citations. As Fazel continues to publish and engage in research activities, these metrics may evolve, reflecting the impact and influence of his contributions within the scholarly community.

Education

Fazel’s educational journey includes a B.Sc. in Electrical Engineering from the University of Guilan, an M.Sc. from Shahrood University of Technology, and ongoing Ph.D. studies in Electrical Engineering (Power Engineering) at the same institution. His academic achievements are highlighted by consistently high GPAs and thesis work focusing on advanced topics in electrical machines and power electronics.

Research Focus

Fazel’s research interests encompass various aspects of electrical engineering, including the design, modeling, and optimization of electrical machines. He is particularly passionate about renewable power generation and transportation electrification, with a focus on wind energy conversion and electric vehicles. His expertise extends to electrostatic machinery, demonstrating a diverse range of interests within the field.

Professional Journey

Fazel’s professional journey has been marked by significant contributions to the industry and academia. He has worked as a research and innovation expert at AMPER Innovation Factory, focusing on electromechanical subsystems in the automotive industry. Currently, he serves as an R&D member at MAPNA Generator Engineering and Manufacturing Co., specializing in electromagnetic design and analysis of electrical motors and generators.

Honors & Awards

Throughout his career, Fazel has received recognition for his academic and professional achievements. While specific honors and awards are not mentioned in the provided information, his consistent academic performance and contributions to the field likely merit acknowledgment from his peers and institutions.

Publications Noted & Contributions

Fazel’s publications in esteemed journals and conferences underscore his research contributions. Notable works include papers on the design and modeling of various electrical machines, as well as studies on renewable energy systems and electrostatic machinery. His research outputs contribute to advancing knowledge in the field of electrical engineering.

“Impact of the Stator Coil Pitch on Acoustic Noise and Vibration of Squirrel Cage Induction Motors”

  • Authors: M Rahmani, A Darabi, FP Deylami
  • Published in: IEEE Transactions on Energy Conversion
  • This study investigates the impact of the stator coil pitch on the acoustic noise and vibration levels of squirrel cage induction motors, providing insights into optimizing motor designs for reduced noise and vibration.

“Steady-state performance analysis for optimal operation determination of doubly fed induction motors”

  • Authors: F Pourmirzaei Deylami, A Darabi
  • Published in: The Journal of Engineering
  • The research focuses on analyzing the steady-state performance of doubly fed induction motors to determine optimal operation conditions, contributing to the efficient utilization of these motors in various applications.

“Dynamic-transient modeling and performance evaluation of a multilayer variable-capacitance energy conversion system”

  • Authors: F Pourmirzaei Deylami, A Darabi
  • Published in: International Transactions on Electrical Energy Systems
  • This study presents dynamic-transient modeling and performance evaluation of a multilayer variable-capacitance energy conversion system, offering insights into its dynamic behavior and performance characteristics.

“Dual Independent Rotor Axial Flux Induction Motor for Electric Vehicle Applications”

  • Authors: A Hesari, A Darabi, F Pourmirzaei Deylami
  • Published in: IET Electrical Systems in Transportation
  • The publication introduces a dual independent rotor axial flux induction motor designed for electric vehicle applications, highlighting its potential for improving vehicle performance and efficiency.

“Modeling and Characterization of a Synchronous Variable-Capacitance Electrostatic Motor”

  • Author: FP Deylami
  • Published at: Shahrood University of Technology
  • This work focuses on modeling and characterizing a synchronous variable-capacitance electrostatic motor, potentially contributing to the advancement of electrostatic motor technology.

Research Timeline

Fazel’s research journey has evolved over time, from his early academic pursuits during his B.Sc. and M.Sc. studies to his current Ph.D. research focusing on hybrid-excitation axial-flux generators for wind energy conversion. Alongside his academic endeavors, he has gained practical experience through industry roles, allowing him to apply theoretical knowledge to real-world challenges.

Collaborations and Projects

Fazel’s involvement in industry and academia has likely facilitated collaborations with professionals and researchers across various projects. His experience at AMPER Innovation Factory and MAPNA Generator Engineering and Manufacturing Co. indicates his participation in diverse projects related to electromechanical systems and electrical machinery development. These collaborations have likely enriched his professional experience and contributed to his growth as an engineer and researcher.

Varun Singhal | Mechanical Engineering | Best Researcher Award

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๐ŸŒŸDr. Varun Singhal, Mechanical Engineering, Best Researcher Award๐Ÿ†

  • ย Doctorate at GLA University, India

Varun Singhal is a highly skilled materials scientist and engineer with extensive experience in both academia and industry. He holds a Ph.D. and M.Tech. from Thapar Institute of Engineering and Technology, specializing in materials science. Varun has a strong background in research, teaching, and industrial testing, with expertise in areas such as metal matrix composites, nanoparticle synthesis, and wear properties of materials. He is known for his dedication, versatility, and commitment to advancing knowledge in materials science and engineering.

Author Metrics:

Varun Singhal’s author metrics indicate his impact and productivity in the academic realm. He has accumulated a total of 64 citations across 15 documents, suggesting that his research has been widely cited and referenced by other scholars. The h-index, which is a measure of both the productivity and citation impact of a researcher’s publications, is 4. This indicates that Varun has published at least four papers that have each been cited four times or more.

Scopus Profile

ORCID Profile

These metrics reflect Varun’s contribution to the field of materials science and engineering, as evidenced by the significant number of citations his work has received. His research output demonstrates his expertise and influence within the academic community, further validating his position as a respected scholar in his field.

Education:

Varun Singhal completed his Ph.D. and M.Tech. degrees from Thapar Institute of Engineering and Technology, specializing in materials science. He has also qualified the Graduate Aptitude Test in Engineering (GATE), showcasing his academic excellence and dedication to continuous learning in his field.

Research Focus:

Varun’s research focuses on various aspects of materials science, including the synthesis, characterization, and performance evaluation of advanced materials. His work encompasses areas such as metal matrix composites, nanoparticle synthesis, wear properties of materials, and optimization of synthesis parameters. Through his research, Varun aims to contribute to the development of innovative materials with enhanced properties for industrial and academic applications.

Professional Journey:

Varun Singhal has embarked on a dynamic professional journey that spans academia, industry, and research. He has served as a Teaching Associate and Assistant Professor, imparting knowledge in material science, engineering mechanics, and non-destructive testing. Additionally, Varun has gained valuable industry experience as a testing and failure analyst, contributing to the development and optimization of manufacturing processes.

Honors & Awards:

Throughout his career, Varun Singhal has received recognition for his outstanding contributions to the field of materials science. He has won awards for his research publications, presentations, and academic achievements. These honors underscore Varun’s dedication, expertise, and commitment to excellence in his field.

Publications Noted & Contributions:

Varun has published numerous research papers in reputable scientific journals and presented his findings at conferences. His research contributions encompass a wide range of topics, including dry sliding wear behavior of composites, synthesis of nanoparticles, and characterization of materials. Varun’s publications have significantly advanced the understanding of materials science and engineering and have implications for various industrial applications.

Role of ilmenite particles on high temperature wear behavior and coefficient of friction of LM30 aluminium alloy composites

Journal: Materials Chemistry and Physics

Date: March 2024

Contributors: Varun Singhal; Daksh Shelly; Atul Babbar; Rahul Gupta; Suraj Choudhary; O.P. Pandey; Seul-Yi Lee; Soo-Jin Park

DOI: 10.1016/j.matchemphys.2024.129218

Thermal performance and economic sustainability of flat plate solar collectors using MgO and ZnO nanofluids: A comparative analysis

Journal: Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy

Date: March 2024

Contributors: Suraj Choudhary; Vikash Kumar; Varun Singhal

DOI: 10.1177/09576509231207154

Optimization of friction stir processing parameters for improving structural and mechanical properties in in situ AA5083-H111/Alโ€“Fe composites

Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science

Date: December 6, 2023

Contributors: Varun Singhal; Vivek Kumar Jain; Ravi Shankar Raman; Dinesh Patharia; Vikas Mittal; Subhash Mishra; Hitesh Kumar

DOI: 10.1177/09544062231211672

Microstructural, Mechanical and Wear Characteristics of Industrial Waste (Brass Slag) Reinforced LM30 Alloy-Based Composite

Authors: Sharma, M.; Singhal, V.; Gupta,

A.; Pandey, O.P.; Dwivedi, V.K.

Published in: Silicon, 2024, Volume 16, Issue 1, Pages 133โ€“146

Summary: This study investigates the microstructural, mechanical, and wear characteristics of an LM30 alloy-based composite reinforced with industrial waste, specifically brass slag. The authors, including Varun Singhal, examine the effects of incorporating brass slag into the alloy matrix on the material’s properties. They analyze the microstructure of the composite, assess its mechanical strength, and evaluate its wear resistance. The findings shed light on the potential use of industrial waste materials as reinforcements in alloy composites, offering insights into sustainable material development strategies.

Preparation of Graphitic Carbon Nitride (g-C3N4) for Novel Dielectric and Photocatalytic Dye Removal Applications

Authors: Gupta, A.; Jaidka, S.; Rajagopalan, P.; Singhal, V.; Pandey, O.P.

Published in: Physica Scripta, 2023, Volume 98, Issue 9

Summary: This article focuses on the preparation of graphitic carbon nitride (g-C3N4) for potential applications in dielectric materials and photocatalytic dye removal. The authors, including Varun Singhal, explore the synthesis of g-C3N4 and investigate its properties relevant to dielectric applications and photocatalytic degradation of dyes. The study aims to contribute to the development of novel materials with applications in areas such as electronics and environmental remediation.

Research Timeline:

Varun’s research journey has been characterized by continuous exploration, innovation, and discovery. Starting from his doctoral and master’s studies, he has delved into various research projects, addressing critical challenges in materials science. Over the years, Varun has made significant progress in advancing knowledge and pushing the boundaries of materials engineering through his research endeavors.

Collaborations and Projects:

Varun Singhal has actively collaborated with colleagues, peers, and industry partners on various research projects and initiatives. These collaborations have facilitated knowledge exchange, interdisciplinary research, and the translation of research findings into practical applications. Varun’s involvement in collaborative projects underscores his commitment to fostering partnerships and driving innovation in materials science and engineering.