Uttam Acharya | Mechanical Engineering | Best Researcher Award

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🌟Assist Prof Dr. Uttam Acharya, Mechanical Engineering, Best Researcher Award🏆

 Assistant Professor at Amity University Kolkata, India

Dr. Uttam Acharya is a dedicated and versatile professional with a strong background in Mechanical Engineering. Known for his integrity, diligence, and teamwork, Uttam excels under pressure and is committed to continuous growth. His passion lies in the field of materials science and manufacturing processes, where he has made significant contributions through his research and academic endeavors. Uttam’s career is marked by a relentless pursuit of excellence and a commitment to pushing the boundaries of knowledge in his field.

Author Metrics:

Dr. Uttam Acharya is a researcher affiliated with Amity University Kolkata, India. His unique identification number in the Scopus database is 57204654683. Scopus is a comprehensive database of scholarly literature, and each author is assigned a unique identifier to distinguish their work and track their publications, citations, and other metrics.

Orcid Profile

Scopus Profile

Google Scholar Profile

According to Scopus, Dr. Acharya’s research has been cited a total of 198 times across 24 documents indexed in the database. The h-index, a measure of both the productivity and citation impact of a researcher’s publications, is 9 for Dr. Acharya. This means that he has published 9 papers that have each been cited at least 9 times.

Education:

Dr. Acharya holds a Ph.D. in Mechanical Engineering from NIT Agartala, specializing in joining of metals and composite materials. His M.Tech focused on Materials & Manufacturing Technology from NIT Silchar, further solidifying his expertise in the field. Uttam’s educational journey reflects his dedication to advancing his knowledge and skills in mechanical engineering, laying a strong foundation for his research and professional career.

Research Focus:

Uttam’s research interests span a wide range of topics within mechanical engineering, including joining of metals, composite materials, manufacturing processes, material science, and non-traditional machining. His work primarily revolves around improving the mechanical properties and performance of materials, with a focus on innovative techniques such as friction stir welding and additive manufacturing.

Professional Journey:

Dr. Acharya has garnered valuable experience as an Assistant Professor at Amity School of Engineering and Technology Kolkata, where he has been actively involved in teaching, research, and academic leadership. Prior to this, he served as a contractual Assistant Professor at the National Institute of Technology Silchar. Throughout his career, Uttam has demonstrated a strong commitment to academic excellence and has mentored numerous students in their research endeavors.

Honors & Awards:

Uttam’s contributions to the field of mechanical engineering have been recognized with prestigious awards such as the “Young Scientist Award” at the International Scientist Awards on Engineering, Science, and Medicine. His dedication and achievements have earned him accolades within the academic community, highlighting his impact and leadership in the field.

Publications Top Noted & Contributions:

Dr. Acharya has authored a significant number of peer-reviewed publications in esteemed journals and conference proceedings, focusing on topics ranging from friction stir welding to additive manufacturing. His research contributions have advanced the understanding of materials behavior and processing techniques, contributing to the body of knowledge in mechanical engineering.

“Determination of best tool geometry for friction stir welding of AA 6061-T6 using hybrid PCA-TOPSIS optimization method”

  • Authors: A. Banik, A. Saha, JD. Barma, U. Acharya, SC. Saha
  • Published in: Measurement, 2021
  • Summary: This paper likely discusses the optimization of tool geometry for friction stir welding of AA 6061-T6 aluminum alloy using a hybrid approach involving Principal Component Analysis (PCA) and Technique for Order Preference by Similarity to Ideal Solution (TOPSIS) method.

“Torque and force perspectives on particle size and its effect on the mechanical property of friction stir welded AA6092/17.5 SiCp-T6 composite joints”

  • Authors: U. Acharya, BS. Roy, SC. Saha
  • Published in: Journal of Manufacturing Processes, 2019
  • Summary: This paper explores the relationship between torque, force, particle size, and mechanical properties in friction stir welded joints of AA6092/17.5 SiCp-T6 composite.

“Effect of tool rotational speed on the particle distribution in friction stir welding of AA6092/17.5 SiCp-T6 composite plates and its consequences on the mechanical property”

  • Authors: U. Acharya, BS. Roy, SC. Saha
  • Published in: Defence Technology, 2020
  • Summary: This paper investigates how tool rotational speed affects particle distribution in friction stir welding of AA6092/17.5 SiCp-T6 composite plates and its impact on mechanical properties.

“On the role of tool tilt angle on friction stir welding of aluminum matrix composites”

  • Authors: U. Acharya, BS. Roy, SC. Saha
  • Published in: Silicon, 2021
  • Summary: This paper likely discusses the influence of tool tilt angle on the FSW process of aluminum matrix composites.

“Effect of traverse speed on microstructure and mechanical properties of friction-stir-welded third-generation Al–Li alloy”

  • Authors: SCS. Sanjeev Kumar, U. Acharya, D. Sethi, T. Medhi, B. (Authors’ last name not provided in the citation)
  • Published in: Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020
  • Summary: This paper explores the impact of traverse speed on microstructure and mechanical properties of friction-stir-welded third-generation Al–Li alloy.

Research Timeline:

Dr. Acharya’s research journey is characterized by a continuous pursuit of knowledge and innovation. Starting from his educational pursuits, Uttam has seamlessly transitioned into a successful academic and researcher, consistently pushing the boundaries of knowledge in mechanical engineering. His research timeline showcases a progressive trajectory, with each publication and contribution contributing to the advancement of his field.

Indra jeet singh | Mechanical Engineering | Best Researcher Award

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🌟Dr. Indra jeet singh, Mechanical Engineering, Best Researcher Award 🏆

 Doctorate at Delhi Technological University, Department of Mechanical Engineering, India

Professional Profiles:

Orcid Profile

Bio Summary: Indrajeet Singh is a dedicated professional currently enrolled in a Ph.D. program in Mechanical Engineering at Delhi Technological University, where he collaborates with Dr. Qasim Murtaza and Dr. Paras Kumar on ongoing research. With a solid academic foundation, including a Master’s degree in Automobile Engineering from Galgotias University and a Bachelor’s degree in Mechanical Engineering from GBIT Meerut, UP, Indrajeet has demonstrated academic excellence throughout his educational journey. He has also actively contributed to the academic community as a Teaching Assistant at Delhi Technological University since December 2018, aiming to nurture the growth of young minds and promote a scientific temperament.

Education:

Ph.D. in Mechanical Engineering

Delhi Technological University, Pursuing (Enrollment: 2018)

Research under Dr. Qasim Murtaza and Dr. Paras Kumar

M. Tech in Automobile Engineering

Galgotias University, 2018

CGPA: 8.68

B. Tech in Mechanical Engineering

GBIT Meerut, UP, U.P.T.U, 2014

Percentage: 62.86%

XII / Intermediate in Science (PCM)

Government Inter College, Etah, UP, UP Board, 2006

Percentage: 72.8%

X / High School in Science

Etah Public School, Etah, UP, UP Board, 2004

Percentage: 67.6%

Research Focus:

Specialization: Mechanical Engineering

Professional Journey:

Currently working as a Teaching Assistant (TA) at Delhi Technological University since December 2018.

Contributing to the growth of young learners and the country’s scientific temperament.

Research Timeline:

Ph.D. Enrollment: December 2018 (Ongoing)

Publications Top Noted & Contributions:

Title: An overview of cold metal transfer welding of similar materials

Publication Venue: International Journal on Interactive Design and Manufacturing (IJIDeM)

Date of Publication: January 24, 2024

Type: Journal Article

DOI: 10.1007/s12008-023-01719-5

Source: Crossref

Peer Review:

Review Activity: Materials Science & Engineering (1)

Record Last Modified: January 29, 2024, 3:15:41 PM

 

Ahmed Rezk | Mechanical Engineering | Excellence in Research

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🌟 Dr. Ahmed Rezk, Mechanical Engineering, Excellence in Research 🏆

Doctorate at Aston University, United Kingdom

Professional Profiles:

Bio Summary:

Ahmed Rezk is a distinguished Senior Lecturer (Associate Professor) specializing in thermal-fluid sciences. With a strong academic background and a commitment to sustainable solutions, he holds a Ph.D. in Mechanical Engineering and serves as a Program Director for MSc Future Vehicle Technologies at Aston University, Birmingham. Ahmed is recognized for his impactful contributions to research in sustainable cooling and heating, thermal energy storage, and thermal water treatment.

Experience:

Senior Lecturer at Aston University, Birmingham

  • Leads research on sustainable cooling and heating, and thermal energy storage technologies
  • Program director of MSc Future Vehicle Technologies
  • Member of the College Curriculum Development Committee

Lecturer at Aston University, Birmingham

  • Principle investigator of sustainable cooling and heating and thermal energy storage
  • Mechanical Engineering Admission tutor and First Year tutor

Research Fellow at the School of Computing and Engineering, University of Huddersfield

  • Managed research on turbocharger electrification, including engine modeling and 3D CFD turbine modeling
  • Advised the group’s PhD researchers

Assistant Professor at Alexandria University, Egypt

  • Led, taught, and assessed Thermal-Fluid Sciences for different year groups

Teaching Assistant at the School of Mechanical Engineering, University of Birmingham, UK

  • Teaching Assistant at Alexandria University, Egypt

Membership and International Recognition:

Senior Fellow of Higher Education Academy (SFHEA)

Chartered Engineer (CEng)

Member of the Institute of Mechanical Engineers (MI-MechE)

Member of Academic Assessment Committee (AAC-IMechE)

Member of Sustainable Innovation in Refrigeration and Air Conditioning and Heating Group (SIRACH)

Education:

PGCert in L&T for higher education

Ph.D. in Mechanical Engineering, Aston University, UK

MSc in Mechanical Engineering, University of Birmingham, UK

BSc in Mechanical Engineering, Alexandria University, Egypt

Research Focus:

Ahmed’s research concentrates on sustainable cooling and heating technologies, thermal energy storage, and thermal water treatment. His work encompasses areas such as adsorption refrigeration, energy-powered systems, and the integration of innovative materials for enhanced heat transfer.

Professional Journey:

Senior Lecturer (Associate Professor), Aston University, Birmingham

Lecturer (Assistant Professor), Aston University, Birmingham

Research Fellow, School of Computing and Engineering, University of Huddersfield

Assistant Professor, Mechanical Engineering, Alexandria University, Egypt

Teaching Assistant, School of Mechanical Engineering, University of Birmingham, UK

Honors & Awards:

Fully funded Ph.D. scholarship, University of Birmingham

Guest Keen and Nettlefolds Scholarship award for best publication in the college (£1,000)

Publications Top Noted & Contributions:

Ahmed Rezk has made significant contributions to the field, with numerous journal papers and conference presentations. Notable publications include research on ionic liquid/graphene composites, techno-economic optimization of organic Rankine cycle configurations, and investigations into various adsorption systems for cooling and water desalination.

Preparation and assessment of ionic liquid and few-layered graphene composites to enhance heat and mass transfer in adsorption cooling and desalination systems

    • Authors: H Banda, TH Rupam, A Rezk, Z Visak, J Hammerton, Q Yuan, BB Saha
    • Journal: International Journal of Heat and Mass Transfer
    • Year: 2024
    • Summary: This publication explores the preparation and evaluation of composites involving ionic liquid and few-layered graphene. The focus is on enhancing heat and mass transfer in adsorption cooling and desalination systems, contributing to advancements in sustainable energy technologies.

Productivity and Thermal Performance Enhancements of Hollow Fiber Water Gap Membrane Distillation Modules Using Helical Fiber Configuration: 3D Computational Fluid Dynamics …

    • Authors: MO Elbessomy, MB Elsheniti, SM Elsherbiny, A Rezk, OA Elsamni
    • Journal: Membranes
    • Year: 2023
    • Summary: This work investigates enhancements in productivity and thermal performance of hollow fiber water gap membrane distillation modules. The study utilizes a helical fiber configuration and employs 3D Computational Fluid Dynamics for a comprehensive analysis.

Intensifies the sorption capacity and thermal performance of adsorption systems for cooling and heat storage

    • Author: A Rezk
    • Institution: Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
    • Year: 2023
    • Summary: This publication, authored by Ahmed Rezk, focuses on intensifying the sorption capacity and thermal performance of adsorption systems. The study contributes to the understanding and improvement of cooling and heat storage technologies.

Investigation of the Mechanical and Tribological Behavior of Epoxy-Based Hybrid Composite

    • Authors: T Albahkali, A Fouly, IA Alnaser, MB Elsheniti, A Rezk, HS Abdo
    • Journal: Polymers
    • Year: 2023
    • Summary: This research delves into the investigation of the mechanical and tribological behavior of an epoxy-based hybrid composite. The study explores the properties and performance of the composite material, contributing to advancements in materials science.

Multi-objective optimisation of MOF-801 adsorbent packed into copper foamed bed for cooling and water desalination systems

    • Authors: M Rezk, MB Elsheniti, A Rezk, OA Elsamni
    • Journal: Applied Thermal Engineering
    • Year: 2023
    • Summary: The publication focuses on the multi-objective optimization of MOF-801 adsorbent packed into a copper foamed bed. The study aims to enhance the efficiency of cooling and water desalination systems, addressing multiple objectives in the optimization process.

Author Metrics:

Citations: 734

Documents: 35

h-index: 12

Research Timeline:

2015-2019: Investigated the potential use of graphene to intensify the heat transfer performance of adsorption systems.

2020-2022: Led projects on solar-driven precoolers for post-harvesting food preservation and off-grid modular cold rooms in Ethiopia.

2023: Secured grants for projects such as CoolRun Malawi and sustainable modular desiccant food dryers in collaboration with the University of Cape Coast, Ghana.