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.

 

Debela Alema | Thermal System Engineering | Best Researcher Award

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Mr. Debela Alema, Thermal System Engineering, Best Researcher Award

Debela Alema at Jimma university, Ethiopia

Summary:

Mr. Debela Alema is a dedicated lecturer and researcher with extensive experience in mechanical and thermal systems engineering. Holding a BSc from Wollega University and an MSc from Jimma University, he has taught various engineering courses, guided student projects, and contributed to academic research in notable journals. Mr. Alema is committed to advancing knowledge in power plant engineering and renewable energy systems, and he actively participates in initiatives aimed at optimizing energy systems and promoting clean energy solutions.

Professional Profile:

👩‍🎓Education:

BSc in Mechanical Engineering: Wollega University, Ethiopia (GPA: 3.90/4)

MSc in Thermal System Engineering: Jimma University, Ethiopia (GPA: 3.98/4)

🏢 Professional Experience:

Mr. Debela Alema has a robust professional background in academia, having held positions at both Wollega University and Jimma University. At Wollega University, he served as an Assistant Researcher, Assistant Lecturer, and Lecturer, where he taught various engineering courses including power plant engineering, engineering drawing, engineering mechanics (dynamics), and thermodynamics. He also played a crucial role in advising undergraduate students on mini-project methodology and evaluating their performance. At Jimma University, Mr. Alema continued his academic career as a Lecturer, preparing teaching materials on heat transfer and supervising community-based program mini-projects for undergraduate students. He also conducted and published research work in reputable journals while teaching power plant engineering. In addition to his academic roles, Mr. Alema has volunteered with the Youth Education Support Service Ethiopia as a team member of YESSETHIOPIA Jimma Team, demonstrating his commitment to community service and education.

Certificates

Certificate of Achievement: Optimization Methods for Energy System Studies, Technical University of Denmark (April 2-22, 2024)

Certificate of Recognition: Design and Fabrication of Floor Cleaning, Washing, and Drying Machine, Wollega University Business and Technology Incubation Center (February 1 – June 30, 2018)

Certificate of Attendance: Africa International Conference on Clean Energy and Energy Storage (November 23-24, 2023)

Master Class for Teaching Online (Open EdX): Effective pedagogy in the online teaching and learning space (2-week course)

Project Certificate on FEM-Linear, Non-Linear Analysis and Post-Processing: Coursera

Certificate of Excellence in Peer-Reviewing: Recognition of outstanding contribution to the quality of a book

Research Interests:

Thermal systems engineering

Heat transfer

Power plant engineering

Renewable energy systems

Energy optimization and efficiency

Top Noted Publication:

Title: Parametric study of an empty diffuser geometric parameters and shape for a wind turbine using CFD analysis

  • Authors: DA Teklemariyem, ET Yimer, VR Ancha, BA Zeru
  • Journal: Heliyon
  • Volume: 10
  • Issue: 5
  • Year: 2024

Title: Effects of multi-spring wires on hydrothermal performance of double tube heat exchanger

  • Authors: DAT Maisa A. Sharaf, S.A. Marzouk, Ahmad Aljabr, Fahad Awjah Almehmadi, DA Teklemariyem
  • Journal: Case Studies in Thermal Engineering
  • Volume: 60
  • Year: 2024

Title: Modeling and simulation of Khat waste fast pyrolysis for energy recovery

  • Authors: GA Moreda, SD Tolasa, DA Teklemariyem
  • Journal: Heliyon
  • Volume: 10
  • Issue: 2
  • Year: 2024