Ivo Draganov | Numerical modeling | Best Researcher Award

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Mr. Ivo Draganov | Numerical modeling | Best Researcher Award

Assistant Professor at University of Ruse, Bulgaria

Summary:

Dr. Ivo Draganov is an accomplished mechanical engineer and academic with over 15 years of experience in both industry and academia. Currently an Assistant Professor at the University of Ruse “Angel Kanchev,” he combines his extensive knowledge of solid mechanics and structural analysis with a passion for teaching and advancing mechanical engineering research. Dr. Draganov’s expertise in the finite element method and his industrial experience contribute to his reputation as a leading specialist in applied mechanics in Bulgaria.

Professional Profile:

👩‍🎓Education:

Dr. Ivo Draganov earned his Ph.D. in Solid Mechanics from the University of Ruse “Angel Kanchev” in 2005, with his research focusing on the Application of Finite Element Method for Investigation of Stress and Strain State in Helical Bodies. He also holds a Master of Science degree in Mechanical Engineering from the same institution (2001), where he specialized in the finite element method, dynamics of machinery, and structural analysis. His master’s thesis focused on the Calculation of Bus Suspension by the Finite Element Method.

🏢 Professional Experience:

Since 2008, Dr. Draganov has been serving as an Assistant Professor at the University of Ruse “Angel Kanchev” in Bulgaria, where he teaches courses in Applied Mechanics, Mechanics of Materials, Finite Element Method, and Applied Theory of Elasticity and Plasticity. Prior to his academic role, he gained substantial experience in industry at Sparky AD in Ruse, Bulgaria, where he held various positions including Department Manager of Industrial Outsourcing, Outsourcing Coordinator, and Designer-Technologist. His responsibilities ranged from managing subcontractor activities and coordinating outsourcing efforts to preparing technological documentation and introducing new technological solutions for production.

Research Interests:

Dr. Draganov’s primary research interests lie in solid mechanics, particularly the application of the finite element method (FEM) for analyzing stress, strain, and structural behavior in complex materials and mechanical systems. His work includes investigating stress distributions and optimizing mechanical components using FEM, as well as exploring applied theory in elasticity and plasticity.

Author Metrics:

Dr. Draganov has authored and co-authored several research papers and technical reports in solid mechanics, primarily focused on FEM applications and structural optimization. His publications contribute to advancements in stress analysis methodologies and the development of practical solutions for mechanical design. Specific author metrics and publication details can be provided upon request.

Top Noted Publication:

Multi-Criteria Calibration of a Thermo-Mechanical Model of Steel Plate Welding in Vacuum

  • Journal: Journal of Manufacturing and Materials Processing
  • Date: 2024-10-05
  • DOI: 10.3390/jmmp8050225
  • Contributors: Ivo Draganov, Venko Vitliemov, Yuliyan Angelov, Stiliyana Mileva, Nikolay Ferdinandov, Danail Gospodinov, Rossen Radev
  • Description: This study presents a calibrated thermo-mechanical model for steel plate welding under vacuum conditions, using a multi-criteria approach to enhance prediction accuracy and application reliability.

Finite Element Modeling and Verification of the Plunge Stage in Friction Stir Welding

  • Journal: Materials Science Forum
  • Date: 2023-08-28
  • DOI: 10.4028/p-x4FWYY
  • Contributors: Ivo Draganov, Danail Gospodinov, Rossen Radev, Nikolay Ferdinandov
  • Description: This paper explores finite element modeling of the plunge stage in friction stir welding, providing insights into the thermal and mechanical behaviors during the initial welding process.

Comparison of Two Numerical Models for Friction Stir Welding

  • Journal: Defect and Diffusion Forum
  • Date: 2022-05-27
  • DOI: 10.4028/p-xbmg1c
  • Contributors: Ivo Draganov, Nikolay Ferdinandov
  • Description: This study compares two numerical models for friction stir welding, evaluating their efficacy in simulating temperature distribution and material flow during the welding process.

Finite Element Modeling of Laser Aluminum Marking

  • Journal: Journal of Physics: Conference Series
  • Date: 2021
  • DOI: 10.1088/1742-6596/1859/1/012017
  • Contributors: Lazov, L., Angelov, N., Draganov, I., Atanasov, A., Lengerov, A., Teirumnieks, E., Balchev, I.
  • Description: This conference paper focuses on the finite element modeling of laser marking on aluminum surfaces, with an emphasis on optimizing marking quality through controlled parameters.

Conclusion:

Dr. Ivo Draganov’s research achievements and academic contributions make him a strong candidate for the Best Researcher Award. His expertise in finite element modeling, particularly in welding and material behavior, addresses key challenges in mechanical engineering and has significant implications for industrial processes. His unique combination of industry experience and academic leadership adds further value to his contributions, positioning him as an influential researcher in applied mechanics. By continuing to expand his research scope and increase his international visibility, Dr. Draganov can enhance his standing as a leading expert in his field, making him a highly deserving candidate for this award.

 

 

Ritwik Maiti | Mechanical Engineering | Best Researcher Award

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Dr. Ritwik Maiti | Mechanical Engineering | Best Researcher Award

Assistant Professor at Birla Institute of Technology Mesra, India

Summary:

Dr. Ritwik Maiti is an accomplished researcher in the field of fluid dynamics and granular flow, with a particular emphasis on the behavior of granular materials in various contexts such as silos, open channels, and underground cavities. His work has contributed significantly to understanding the flow of granular media in natural and industrial processes. Dr. Maiti has held prestigious research positions at the National University of Singapore and the University of Sheffield, where he worked on projects ranging from wind-tunnel tests to flow modeling in porous media. He is currently contributing to the academic and research community at Birla Institute of Technology Mesra, where he continues his innovative research on granular flows and their interactions with fluid dynamics.

Professional Profile:

👩‍🎓Education:

Dr. Ritwik Maiti is an Assistant Professor in the Department of Mechanical Engineering at Birla Institute of Technology, Mesra, Ranchi. He earned his Ph.D. in Mechanical Engineering from the Indian Institute of Technology Kharagpur (2011–2017), where his research focused on the dynamics of dense granular flows through silos, closed channels, and open channels. Dr. Maiti holds a Master of Engineering (M.E.) in Heat Power Engineering from Jadavpur University, Kolkata (2009–2011), and a Bachelor of Technology (B.Tech) in Mechanical Engineering from Kalyani Government Engineering College, West Bengal (2008).

🏢 Professional Experience:

Dr. Maiti has extensive research experience in both mechanical and civil engineering. From 2018 to 2021, he was a Research Fellow with the Fluid Mechanics Research Group at the National University of Singapore, where he worked on projects related to wind-tree interaction and the minimization of granular mixture segregation. Prior to this, he was a Research Associate at the University of Sheffield (2017–2018), where he focused on modeling flow through porous granular media as part of the Geotechnical Engineering Research Group. His professional expertise includes the design and development of experimental fluid flow facilities and the handling of advanced equipment such as high-speed cameras, particle image velocimetry, and particle analyzers.

Research Interests:

Dr. Maiti’s research interests lie at the intersection of fluid mechanics and granular flow. His areas of focus include:

  • Experimental Fluid Dynamics
  • Granular Flow Dynamics
  • Geophysical Flows and Avalanches
  • Granular Mixing and Segregation
  • Fluid-Structure Interaction
  • Impact Crater Analysis
  • Underground Cavity Collapse
  • Multiphase Flows
  • Discrete Element Model (DEM)
  • Computational Fluid Dynamics (CFD) and CFD-DEM Coupling

He is also skilled in high-speed photography, image processing, and the use of software such as Matlab, Autocad, and LIGGGHTS for simulation and analysis.

Author Metrics:

Dr. Maiti has published numerous articles in international journals and conferences, including:

  • 10 publications in top-tier journals such as Physics of Fluids, Powder Technology, and AIChE Journal.
  • Contributions to leading conferences such as the International Conference on Fluid Mechanics and Fluid Power and the International Conference on Multiphase Flow.
  • A book chapter published by Springer in 2017.
  • Several research papers currently under review in journals like Powder Technology and Ocean Engineering.

Dr. Maiti’s research on granular dynamics has garnered significant attention in his field, contributing valuable insights into both theoretical models and practical applications.

Top Noted Publication:

Experiments on Eccentric Granular Discharge from a Quasi-Two-Dimensional Silo

  • Authors: R. Maiti, G. Das, P.K. Das
  • Journal: Powder Technology
  • Volume: 301
  • Pages: 1054-1066
  • Year: 2016
  • Citations: 35
  • Summary: This study presents experimental investigations on granular discharge from a quasi-two-dimensional silo with an eccentric outlet. The paper discusses the flow behavior, discharge rates, and the formation of patterns in the granular material as it exits the silo. The experiments provide a detailed understanding of the flow field dynamics during eccentric discharge.

Granular Drainage from a Quasi-2D Rectangular Silo through Two Orifices Symmetrically and Asymmetrically Placed at the Bottom

  • Authors: R. Maiti, G. Das, P.K. Das
  • Journal: Physics of Fluids
  • Volume: 29 (10)
  • Year: 2017
  • Citations: 25
  • Summary: This research explores the granular flow through a rectangular silo with two bottom orifices, placed both symmetrically and asymmetrically. The work examines how different placement configurations of the orifices affect the flow and drainage dynamics of granular materials, contributing valuable insights into granular discharge mechanics.

Flow Field During Eccentric Discharge from Quasi-Two-Dimensional Silos—Extension of the Kinematic Model with Validation

  • Authors: R. Maiti, S. Meena, P.K. Das, G. Das
  • Journal: AIChE Journal
  • Volume: 62 (5)
  • Pages: 1439-1453
  • Year: 2016
  • Citations: 19
  • Summary: This paper extends a kinematic model to describe the flow field during eccentric discharge from a quasi-2D silo. The study provides experimental validation of the model and offers insights into the flow patterns and velocity fields of granular materials, expanding the understanding of discharge processes in industrial and natural granular systems.

Cracking of Tar by Steam Reforming and Hydrogenation: An Equilibrium Model Development

  • Authors: R. Maiti, S. Ghosh, S. De
  • Journal: Biomass Conversion and Biorefinery
  • Volume: 3
  • Pages: 103-111
  • Year: 2013
  • Citations: 6
  • Summary: This paper focuses on developing an equilibrium model for tar cracking using steam reforming and hydrogenation. The study addresses the challenges associated with tar removal in biomass gasification and proposes a model to predict the outcomes of chemical reactions involved in the process.

Self-Organization of Granular Flow by Basal Friction Variation: Natural Jump, Moving Bore, and Flying Avalanche

  • Authors: R. Maiti, G. Das, P.K. Das
  • Journal: AIChE Journal
  • Volume: 69 (1)
  • Article: e17943
  • Year: 2023
  • Citations: 2
  • Summary: This recent study investigates the self-organization phenomena in granular flows due to variations in basal friction. The paper describes natural jumps, moving bores, and flying avalanches in granular media, providing key insights into the mechanics of granular flow and segregation.

Conclusion:

Dr. Ritwik Maiti’s contributions to fluid dynamics and granular flow research, particularly in areas like silo flows and porous media, make him a strong candidate for the Best Researcher Award. His published work demonstrates both depth and innovation in key fields of mechanical engineering, and his international experience enhances his profile. While expanding his research into more applied fields and taking on greater leadership roles could strengthen his application, his current contributions to science are exceptional, positioning him well for recognition in the field of mechanical engineering research.

 

Thi Sinh Vo | Chemical Engineering | Best Researcher Award

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Dr. Thi Sinh Vo | Chemical Engineering | Best Researcher Award

Doctorate at Sungkyunkwan University, South Korea

Summary:

Dr. Thi Sinh Vo is an accomplished researcher in mechanical and chemical engineering with a strong background in functional materials and composite structures. He earned his Ph.D. from Sungkyunkwan University, where he specialized in chitosan-based composites for environmental and sensor applications. His interdisciplinary expertise extends across materials science, nanotechnology, and chemical engineering. Dr. Vo’s contributions to academia include award-winning research and numerous publications in high-impact journals. As a Postdoctoral Researcher, he continues to push the boundaries of material science for environmental and biosensing applications.

Professional Profile:

👩‍🎓Education:

Dr. Thi Sinh Vo completed his Ph.D. in Mechanical Engineering at Sungkyunkwan University, South Korea, in August 2023, with a GPA of 3.95/4.5. His doctoral research focused on the “Design, Synthesis, and Characterization of Chitosan-Based Functional Composites for Organic Dye Adsorption and Piezoresistive Sensing.” Dr. Vo holds a Master’s degree in Chemical Engineering from Daegu University, South Korea, which he earned in 2018 with a perfect GPA of 4.0/4.0. His master’s thesis investigated the “Synthesis and Characterization of Crosslinked Polyurethane Utilizing Azide-Alkyne Click Reaction.” Prior to that, he obtained a Bachelor of Science degree in Materials Science from the Ho Chi Minh City University of Science, Vietnam National University, where he worked on the “Preparation and Characterization of Water-Soluble Chitosan as a Stabilizer for Gamma Irradiation-Assisted Silver Nanoparticles.”

🏢 Professional Experience:

Dr. Vo is currently a Postdoctoral Researcher at the School of Mechanical Engineering, Sungkyunkwan University, South Korea, where he continues to contribute to cutting-edge research in materials science and mechanical engineering. His research career began as a Research Assistant at the Complex Materials Engineering & Systems (COME) Lab at Sungkyunkwan University, where he was involved in the design and fabrication of composite materials for applications in dye removal, human motion sensing, and biosensing. Prior to his Ph.D. studies, Dr. Vo gained valuable industry experience in chemical engineering, working as a Chemical Engineer at CHING LUH Shoes Co., Ltd., and in research and development roles at NAN PAO Resins Chemical Co., Ltd. and WANEK FURNITURE Co., Ltd. In these positions, he contributed to optimizing manufacturing processes, developing water-based adhesives, and improving plastic injection molding techniques.

Research Interests:

Dr. Vo’s research interests span functional composites and structures, electromechanical and electrochemical sensors for human motion sensing and biosensing, and water/wastewater treatment, particularly focusing on organic dye removal. His work aims to develop innovative materials and sensors for applications in environmental protection and healthcare.

Author Metric:

  • Google Scholar h-index: 10 (2024)
  • Google Scholar Citations: 450 (2024)
  • Google Scholar i10-index: 12 (2024)

Top Noted Publication:

Heavy metal removal applications using adsorptive membranes

  • Journal: Nano Convergence
  • Citations: 179 (2020)
  • Co-authors: MM Hossain, HM Jeong, K Kim

Recycling performance of graphene oxide-chitosan hybrid hydrogels for removal of cationic and anionic dyes

  • Journal: Nano Convergence
  • Citations: 65 (2020)
  • Co-authors: TTBC Vo, JW Suk, K Kim

Enhancement of water absorption capacity and compressibility of hydrogel sponges prepared from gelatin/chitosan matrix with different polyols

  • Journal: Progress in Natural Science: Materials International
  • Citations: 28 (2022)
  • Co-authors: TTBC Vo, TT Tran, ND Pham

Turmeric (Curcuma longa L.): Chemical components and their effective clinical applications

  • Journal: Journal of the Turkish Chemical Society Section A: Chemistry
  • Citations: 20 (2021)
  • Co-authors: TTBC Vo, TTTN Vo, TNH Lai

Graphene Oxide–Chitosan Network on a Dialysis Cellulose Membrane for Efficient Removal of Organic Dyes

  • Journal: ACS Applied Bio Materials
  • Citations: 19 (2022)
  • Co-authors: MM Hossain, TG Lim, JW Suk, S Choi, K Kim

Prince Kumar | Thermal Engineering | Young Scientist Award

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Dr. Prince Kumar | Thermal Engineering | Young Scientist Award

Postdoctoral Researcher at Geological Survey of Israel, Israel

Summary:

Prince Kumar is a dedicated researcher and educator with a strong background in mechanical engineering, specializing in fluid dynamics and thermal systems. After completing his Ph.D. at the National Institute of Technology Silchar, he transitioned into a postdoctoral role at the Geological Survey of Israel, where he continues to push the boundaries of research in CO2 sequestration. With a teaching history at Jorhat Engineering College, Prince has mentored numerous students and contributed to advancing the field through both academic and applied research. His work has been recognized in several international journals, reflecting his commitment to developing innovative solutions for complex engineering challenges.

Professional Profile:

👩‍🎓Education:

  • Ph.D. in Mechanical Engineering
    National Institute of Technology Silchar, Assam, India
    Graduated: November 2023

    • Research Overview: Prince Kumar’s doctoral research focused on the thermo-hydraulic transport characteristics in wavy channels and porous media. He extensively studied forced convection involving nanofluids, hybrid nanofluids, and non-Newtonian fluids, examining configurations such as wave amplitude and wavelength in porous slabs. His work utilized finite element methods and incorporated the Brinkman–Forchheimer flow model, contributing significantly to the understanding of fluid dynamics in complex porous structures.
  • M.Tech in Thermal Engineering
    National Institute of Technology Silchar, Assam, India
    Graduated: 2017

    • Research Overview: During his master’s program, Prince Kumar explored the influence of corrugated channel geometries on turbulent flow and heat transfer efficiency using ANSYS Fluent. His work provided insights into optimizing heat transfer in industrial applications, focusing on the effects of wave amplitude and wavelength on fluid dynamics.
  • B.Tech in Mechanical Engineering
    Dr. A. P. J. Abdul Kalam Technical University, Lucknow, UP, India
    Graduated: 2012

    • Project Title: “Stirling Engine Running Model”
    • Project Overview: For his bachelor’s degree, Prince Kumar developed a working model of a Stirling engine, showcasing his early interest in energy systems and mechanical design.

🏢 Professional Experience:

Postdoctoral Researcher
Geological Survey of Israel (GSI), Jerusalem, Israel
September 2023 – Present
Prince Kumar is currently a postdoctoral researcher at the Geological Survey of Israel, where he is engaged in a project focused on the numerical modeling of CO2 sequestration in deep aquifers in the Negev Desert. His work involves constructing homogeneous and heterogeneous models using PetraSim, simulating CO2 injection and post-injection scenarios using the TOUGH2/TOUGH3 codes, and analyzing results with Matlab and OriginPro. His research contributes to the understanding of CO2 storage mechanisms, a critical area for combating climate change.

Assistant Professor
Jorhat Engineering College, Assam, India
January 2018 – August 2023
As an Assistant Professor at Jorhat Engineering College, Prince Kumar taught various courses in thermal engineering, including CFD, Fluid Mechanics, and Heat Transfer. He supervised undergraduate projects on fluid flow and heat transfer modeling, conducted a specialized course on COMSOL Multiphysics, and handled academic responsibilities like Exam In-charge and Project/Internship Coordinator. His role extended beyond teaching, involving mentorship and leadership in academic administration.

Research Interests:

Prince Kumar’s research interests are rooted in the fields of hydro-thermal engineering and computational fluid dynamics. He is particularly focused on:

  • Nanofluid Dynamics: Investigating the behavior of nanofluids and hybrid nanofluids in different flow regimes, especially in porous media.
  • Non-Newtonian Fluids: Studying the unique flow characteristics of non-Newtonian fluids in complex channels.
  • CO2 Sequestration: Modeling and simulation of CO2 storage in deep geological formations, contributing to sustainable environmental solutions.
  • Sustainable Technologies: Exploring innovative approaches to energy and fluid dynamics that support sustainability.

Author Metric:

Prince Kumar has published multiple research papers in SCI/SCIE journals, focusing on topics such as nanofluid dynamics, non-Newtonian fluids, and CO2 storage modeling. His publications have garnered citations in the academic community, reflecting the impact of his research on fluid dynamics and thermal engineering. Specific metrics such as the h-index and citation count can be provided from databases like Google Scholar, Scopus, or Web of Science for a detailed assessment of his academic contributions.

Top Noted Publication:

Effect on Heat Transfer Characteristics of Nanofluids Flowing Under Laminar and Turbulent Flow Regime – A Review

  • Authors: P. Kumar, K.M. Pandey
  • Journal: IOP Conference Series: Materials Science and Engineering
  • Volume: 225, Issue 1
  • Year: 2017
  • Pages: 12168
  • Citations: 19

Numerical Investigation of Thermo-Hydraulic Transport Characteristics of Laminar Flow Through Partially Filled Porous Wavy Channel: Effect of Prandtl Number

  • Authors: P. Kumar, R. Dwivedi, K.M. Pandey
  • Journal: Numerical Heat Transfer, Part A: Applications
  • Volume: 83, Issue 10
  • Year: 2023
  • Pages: 1045-1066
  • Citations: 10

Numerical Investigation of Thermo-Hydraulic Transport Characteristics of Two-Dimensional, Steady Flow Through Partially Porous Wavy Channel

  • Authors: P. Kumar, K.M. Pandey
  • Journal: Numerical Heat Transfer, Part A: Applications
  • Volume: 81, Issues 1-2
  • Year: 2021
  • Pages: 31-47
  • Citations: 10

A Review on Latest Development in Heat Transfer Through Porous Media in Combination with Nanofluids and Wavy Walls

  • Authors: P. Kumar, K.M. Pandey
  • Journal: Materials Today: Proceedings
  • Volume: 45
  • Year: 2021
  • Pages: 7171-7175
  • Citations: 10

Effect of Wave Shift of Porous Slab on Thermo-Hydraulic Transport Characteristics of Laminar Flow Through a Wavy Channel

  • Authors: P. Kumar, K.M. Pandey
  • Journal: Materials Today: Proceedings
  • Volume: 49
  • Year: 2022
  • Pages: 1573-1578
  • Citations: 6

Debashis Mohanty | Fluid Dynamics | Best Researcher Award

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Mr. Debashis Mohanty, Fluid Dynamics, Best Researcher Award

Debashis Mohanty at C.V. Raman Global University, India

Summary:

Debashis Mohanty is a mathematician and researcher based in Bhubaneswar, Odisha, India, currently affiliated with the Department of Mathematics at C.V. Raman Global University. He has an impressive academic track record, culminating in a Ph.D. in Mathematics with a focus on heat and mass transfer in hybrid nanofluids. His research addresses critical problems in fluid dynamics and thermal systems, aiming to advance the understanding and efficiency of these processes. Mr. Mohanty’s dedication to mathematics and his innovative research approach highlight his significant contributions to the field.

Professional Profile:

👩‍🎓Education:

Debashis Mohanty has a robust academic background in mathematics, consistently demonstrating academic excellence throughout his educational journey. He completed his 10th standard at B.S.E., Odisha in 2013, achieving 70.50% and securing a first division with a focus on Mathematics, English, Science, and Social Science. In 2015, he completed his higher secondary education at C.H.S.E., Odisha, scoring 68.50% in Mathematics, Physics, Chemistry, and Biology, again securing a first division.

He pursued his Bachelor of Science (Honors) in Mathematics at Utkal University, Odisha, graduating in 2018 with a commendable 71.78% and a first division. Advancing his studies further, he obtained a Master of Science in Applied Mathematics and Computing from C.V. Raman Global University, Odisha in 2021, with an impressive 77.60% and a first division.

Debashis Mohanty has recently submitted his Ph.D. thesis titled “Heat and Mass Transfer Analysis on Hybrid Nanofluid Flow with Interfacial Nanolayer Thickness” at C.V. Raman Global University, Odisha, and is awaiting the final conferral of his doctorate degree in 2024.

Professional Experience:

Debashis Mohanty has been actively involved in the academic and research community at C.V. Raman Global University. His professional experience encompasses both teaching and conducting research in advanced mathematical concepts and their practical applications. His work primarily focuses on fluid dynamics, heat transfer, and mathematical modeling, contributing significantly to the understanding and development of these fields.

Research Interest:

Debashis Mohanty’s research interests are centered around fluid dynamics and heat transfer, with specific focus areas including:

Hybrid nanofluid flow through porous media with the impact of interfacial nanolayer.

Darcy-Forchheimer flow with thermal impact.

Heat transfer and mass transfer in nanofluids and hybrid nanofluids.

Marangoni convection and stagnation point flow.

Newtonian and non-Newtonian fluids.

Heat and mass transfer problems.

Mathematical modeling.

Flows through porous media.

Publications Top Noted: 

Artificial intelligence approach to estimate discharge of drip tape irrigation based on temperature and pressure

  • Authors: A. Seyedzadeh, S. Maroufpoor, E. Maroufpoor, J. Shiri, O. Bozorg-Haddad, …
  • Journal: Agricultural Water Management
  • Volume: 228
  • Article: 105905
  • Citations: 66
  • Year: 2020

Development of an analytical method for estimating Manning’s coefficient of roughness for border irrigation

  • Authors: A. Seyedzadeh, A. Panahi, E. Maroufpoor, V.P. Singh
  • Journal: Irrigation Science
  • Volume: 37
  • Pages: 523-531
  • Citations: 19
  • Year: 2019

Developing a novel method for estimating parameters of Kostiakov–Lewis infiltration equation

  • Authors: A. Seyedzadeh, A. Panahi, E. Maroufpoor, V.P. Singh, B. Maheshwari
  • Journal: Irrigation Science
  • Volume: 38
  • Pages: 189-198
  • Citations: 15
  • Year: 2020

A new analytical method for derivation of infiltration parameters

  • Authors: A. Seyedzadeh, A. Panahi, E. Maroufpoor
  • Journal: Irrigation Science
  • Volume: 38
  • Pages: 449-460
  • Citations: 14
  • Year: 2020

Irrigation management evaluation of multiple irrigation methods using performance indicators

  • Authors: A. Seyedzadeh, P. Khazaee, A. Siosemardeh, E. Maroufpoor
  • Journal: ISH Journal of Hydraulic Engineering
  • Volume: 28
  • Issue: 3
  • Pages: 303-312
  • Citations: 10
  • Year: 2022

Vito Errico | Meccanica | Best Researcher Award

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Dr. Vito Errico, Meccanica, Best Researcher Award

Doctorate at Politecnico di Bari Italy

Summary:

Dr. Vito Errico is a dedicated researcher in the field of mechanical engineering, specializing in additive manufacturing, materials science, and surface engineering. He completed his Ph.D. in Mechanical and Management Engineering from the Polytechnic University of Bari, Italy, with a focus on innovative solutions to enhance the quality of metallic components produced through additive manufacturing technologies.

Throughout his academic and professional journey, Dr. Errico has demonstrated a strong commitment to advancing knowledge and technology in mechanical engineering. He has held various research positions, including postdoctoral research fellowships, where he has contributed to projects aimed at optimizing additive manufacturing processes, developing high-performance coatings, and characterizing advanced materials for aerospace, automotive, and other engineering applications.

Professional Profile:

👩‍🎓Education:

Ph.D. in Mechanical and Management Engineering

  • Duration: November 2019 – March 2023
  • Institution: Polytechnic University of Bari, Italy

Master’s Degree (Second Level) in Mechanical Engineering

  • Duration: November 2016 – April 2019
  • Institution: Polytechnic University of Bari, Italy

Bachelor’s Degree (First Level) in Mechanical Engineering

  • Duration: October 2013 – November 2016
  • Institution: Polytechnic University of Bari, Italy

Professional Experience:

Dr. Vito Errico has extensive professional experience in the field of mechanical engineering, with a focus on additive manufacturing, materials science, and surface engineering. He has held various research positions, including postdoctoral research fellowships and collaborative projects with industry and academic institutions. Dr. Errico’s expertise lies in the optimization of innovative multi-material metallic parts produced through additive manufacturing techniques. He has contributed to projects aimed at developing high-performance coatings using additive technologies and has conducted in-depth studies on the micro and macrostructural characterization of components manufactured through Laser Metal Deposition (LMD) and Cold Spray (CS) processes. His research also involves the study and experimentation of advanced materials and manufacturing methods for applications in aerospace, automotive, and other engineering sectors. Through his interdisciplinary research endeavors, Dr. Errico has made significant contributions to advancing knowledge and technology in mechanical engineering, with a particular emphasis on enhancing the quality and performance of manufactured components.

Research Interest:

Additive Manufacturing: Investigating novel approaches and techniques to optimize the additive manufacturing process, including metal additive manufacturing (AM) and polymer-based AM, to enhance the quality, efficiency, and functionality of manufactured components.

Multi-Material Manufacturing: Exploring advanced methods for producing multi-material metallic parts using additive manufacturing technologies, with a particular emphasis on optimizing the performance and properties of these components for various applications.

Surface Engineering and Coatings: Studying the development and application of high-performance coatings and surface treatments using additive manufacturing methods, such as Laser Metal Deposition (LMD) and Cold Spray (CS), to improve wear resistance, corrosion resistance, and other surface properties.

Advanced Materials Characterization: Conducting comprehensive characterization studies to analyze the micro and macrostructural properties of materials manufactured through additive manufacturing processes, including the evaluation of mechanical, thermal, and chemical properties.

Process Monitoring and Optimization: Developing and implementing advanced monitoring and control systems for additive manufacturing processes, including optical and thermal monitoring techniques, to optimize process parameters and ensure the quality and consistency of manufactured components.

Applications in Aerospace and Automotive Industries: Exploring the application of additive manufacturing technologies in aerospace and automotive industries, including the development of lightweight and high-performance components, rapid prototyping, and customized manufacturing solutions.

Publications Top Noted: 

“Coaxial monitoring of AISI 316L thin walls fabricated by direct metal laser deposition”

  • Authors: V Errico, SL Campanelli, A Angelastro, M Dassisti, M Mazzarisi, …
  • Journal: Materials
  • Volume: 14
  • Issue: 3
  • Pages: 673
  • Year: 2021
  • Citations: 27

“On the feasibility of AISI 304 stainless steel laser welding with metal powder”

  • Authors: V Errico, SL Campanelli, A Angelastro, M Mazzarisi, G Casalino
  • Journal: Journal of Manufacturing Processes
  • Volume: 56
  • Pages: 96-105
  • Year: 2020
  • Citations: 27

“Effect of DED coating and DED+ Laser scanning on surface performance of L-PBF stainless steel parts”

  • Authors: V Errico, A Fusco, SL Campanelli
  • Journal: Surface and Coatings Technology
  • Volume: 429
  • Pages: 127965
  • Year: 2022
  • Citations: 21

“High resolution-optical tomography for in-process layerwise monitoring of a laser-powder bed fusion technology”

  • Authors: MG Guerra, V Errico, A Fusco, F Lavecchia, SL Campanelli, …
  • Journal: Additive Manufacturing
  • Volume: 55
  • Pages: 102850
  • Year: 2022
  • Citations: 18

“In-process dimensional and geometrical characterization of laser-powder bed fusion lattice structures through high-resolution optical tomography”

  • Authors: MG Guerra, M Lafirenza, V Errico, A Angelastro
  • Journal: Optics & Laser Technology
  • Volume: 162
  • Pages: 109252
  • Year: 2023
  • Citations: 12

Elia Colleoni | Chemical Engineering | Best Researcher Award

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Mr. Elia Colleoni, Chemical Engineering, Best Researcher Award

  Elia Colleoni at King Abdullah University of Science and Technology, Saudi Arabia

Summary:

Elia Colleoni is a dedicated researcher in the field of chemical engineering, specializing in the characterization and processing of heavy oils. Currently pursuing a Ph.D. at the King Abdullah University of Science and Technology (KAUST), his research interests encompass the gasification, ultrasonically assisted oxidative desulfurization, and pyrolysis of heavy oils.

Elia holds a Master of Science degree in Chemical Engineering from Politecnico di Milano, where he achieved a mark of 110/110. His master’s thesis focused on developing a kinetics mechanism for simulating the pyrolysis of heavy fuel oils. With a bachelor’s degree in Chemical Engineering from the same institution, Elia delved into the analysis of processes for valorizing and upgrading biogas for his thesis.

Professional Profile:

 

👩‍🎓Education & Qualification:

Ph.D., King Abdullah University of Science and Technology (KAUST)

Master of Science in Chemical Engineering, Politecnico di Milano

Bachelor of Science in Chemical Engineering, Politecnico di Milano

Diploma (Technical/Vocational), Istituto di Istruzione Superiore Giulio Natta (Bergamo, Italia)

🛠️ Work Experience:

Internship at Clean Combustion Research Center (CCRC), KAUST – Focused on oxidative desulfurization (ODS) of heavy fuel oils and simplified kinetics scheme development for heavy fuel oils pyrolysis. (June 2020 – May 2021)

Research Area:

Mr. Elia Colleoni’s research area focuses on several aspects of chemical engineering and energy, with specific interests in the following areas:

Heavy Oils Characterization: Investigating the properties and characteristics of heavy oils, particularly in the context of their gasification and ultrasonically assisted oxidative desulfurization.

Pyrolysis of Heavy Fuel Oils: Developing and studying kinetics mechanisms related to the liquid-phase pyrolysis of heavy fuel oils, aiming to understand the underlying processes and behaviors.

Cavitation Reactors and Oil Processing: Numerical modeling and application of ultrasonically induced cavitation reactors, especially in the context of processing heavy oils.

SARA Fractions Pyrolysis: Exploring the chemical kinetics of pyrolysis, with a focus on specific fractions such as resins within the SARA (Saturates, Aromatics, Resins, and Asphaltenes) classification.

Sonoprocessing of Oil: Studying the effects of sonoprocessing on oil, particularly the declustering of asphaltenes behind fine ultrasonic emulsions.

Publication Top Noted:

Chemical kinetics of asphaltene pyrolysis

  • Authors: P Guida, E Colombo, E Colleoni, S Saxena, A Frassoldati, WL Roberts, …
  • Published in: Energy & Fuels 35 (10), 8672-8684
  • Year: 2021

Unraveling the complexity of pyrolysates from residual fuels by Py-GCxGC-FID/SCD/TOF-MS with an innovative data processing method

  • Authors: E Colleoni, VG Samaras, P Guida, A Frassoldati, T Faravelli, WL Roberts
  • Published in: Journal of Analytical and Applied Pyrolysis 175, 106204
  • Year: 2023

Numerical model of an ultrasonically induced cavitation reactor and application to heavy oil processing

  • Authors: P Guida, G Viciconte, A Ceschin, E Colleoni, FEH Pérez, S Saxena, …
  • Published in: Chemical Engineering Journal Advances 12, 100362
  • Year: 2022

Kinetics mechanism of heavy fuel oils liquid-phase pyrolysis

  • Author: E Colleoni
  • Published in: Italy
  • Year: 2021

Chemical kinetics of SARA fractions pyrolysis: Resins

  • Authors: E Colleoni, P Guida, VG Samaras, A Frassoldati, T Faravelli, WL Roberts
  • Published in: Journal of Analytical and Applied Pyrolysis 177, 106281
  • Year: 2024

Sonoprocessing of oil: Asphaltene declustering behind fine ultrasonic emulsions

  • Authors: E Colleoni, G Viciconte, C Canciani, S Saxena, P Guida, WL Roberts
  • Published in: Ultrasonics Sonochemistry, 106476
  • Year: 2023

A NUMERICAL MODEL OF TRANSIENT ULTRASONICALLY INDUCED CAVITATION ACCOUNTING FOR HOMOGENEOUS NUCLEATION

  • Authors: C Canciani, A Ceschin, P Guida, E Colleoni, HG Im, WL Roberts
  • Published in: International Heat Transfer Conference Digital Library
  • Year: 2023