Sudarmozhi K | Fluid Dynamics | Women Researcher Award

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Dr. Sudarmozhi K | Fluid Dynamics | Women Researcher Award

Asst Prof, Saveetha School of Engineering, India

Dr. Sudarmozhi K is a Ph.D. candidate in Mathematics at SIMATS Engineering, Chennai (viva voce completed in November 2024). He holds an M.Phil. from Prist University (2014) and an M.Sc. from Cauvery College for Women (2011). With over 13 years of teaching and research experience, Dr. Sudarmozhi has presented 16 conferences at prestigious institutions like IIT, NIT, and VIT. He has published 25 Scopus-indexed papers (16 in Q1 journals) and completed 110 workshops and seminars. His research interests include Fluid Dynamics, Heat and Mass Transfer, and Maxwell Fluid Flow. 🧑‍🏫📚🔬

Publication Profile

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Academic Background 🎓

Dr. Sudarmozhi K is a dedicated scholar currently pursuing his Ph.D. in Mathematics at SIMATS Engineering, Chennai, with his viva voce completed in November 2024. He earned his M.Phil. in Mathematics from Prist University in 2014, securing a B grade. Dr. Sudarmozhi also holds an M.Sc. in Mathematics (70%) from Cauvery College for Women, Trichy (2011) and a B.Sc. in Mathematics (72%) from Immaculate College for Women, Kallakuruchi (2009). His strong educational foundation forms the backbone of his successful career in mathematics research and teaching. 📚🧑‍🏫

Teaching Experience 🧑‍🏫

Dr. Sudarmozhi K has extensive teaching experience spanning over a decade. He began his career as a Lecturer in Mathematics at Immaculate College for Women and Sarada Maha Vidhyalayam Arts College, before becoming an Assistant Professor at Kumara Rani Meena Muthiah College of Arts and Sciences, where he taught for four years. He further served as a Lecturer at Little Flower Polytechnic College and later took up the role of Assistant Professor at Chennai Institute of Technology. From Feb 2022 to November 2024, he was a full-time research scholar at Saveetha School of Engineering, furthering his research while teaching. 📚✨

Research Areas 🔬

Dr. Sudarmozhi K specializes in several key areas of Mathematics and Applied Physics. His primary research interests include Fluid Dynamics, where he investigates the flow and behavior of fluids under various conditions. He is also focused on Heat and Mass Transfer, exploring the transfer processes in different systems. Additionally, Dr. Sudarmozhi works on Maxwell Fluid Flow, studying the characteristics of non-Newtonian fluids. Another area of his expertise is Boundary Value Problems, where he applies mathematical techniques to solve complex real-world problems. His research contributes significantly to both theoretical and applied sciences. 🌊🔥📊

Publication Top Notes

  • Double diffusion in a porous medium of MHD Maxwell fluid with thermal radiation, heat generation, and chemical reactionCited by 36 – 2023 📚🌡️
  • Heat and mass transport of MHD viscoelastic fluid flow towards a permeable stretching cylinderCited by 18 – 2023 🌬️🌀
  • Significance of heat generation and impact of suction/injection on Maxwell fluid over a horizontal plate by the influence of radiationCited by 17 – 2023 🔥💧
  • Magneto radiative and heat convective flow boundary layer in Maxwell fluid across a porous inclined vertical plateCited by 16 – 2023 🌫️🔥
  • Investigation of melting heat effect on fluid flow with brownian motion/thermophoresis effects in the occurrence of energy on a stretching sheetCited by 13 – 2024 ❄️⚙️
  • Thermofluid of Maxwellian type past a porous stretching cylinder with heat generation and chemical reactionCited by 9 – 2023 🌪️🧪
  • Significance of heat generation in MHD channel flow of a Maxwell fluid with heat suction and blowing effectsCited by 7 – 2024 💨🔥
  • A steady flow of MHD Maxwell viscoelastic fluid on a flat porous plate with the outcome of radiation and heat generationCited by 6 – 2023 🔥💧
  • Exploring the Steady Flow of a Viscoelastic Fluid Passing over a Porous Perpendicular Plate Subjected to Heat Generation and Chemical ReactionsCited by 5 – 2024 🌡️🌀
  • Heat generation in dual convection Non-Newtonian MHD Darcy’s flow with Soret and Dufour effectsCited by 5 – 2024 🔥🌬️
  • Effects of porous medium in MHD flow of Maxwell fluid with Soret/Dufour impactsCited by 5 – 2024 💨⚡
  • Viscoelastic fluid flow over a horizontal flat plate with various boundary slip conditions and suction effectsCited by 5 – 2023 🌊💨
  • Effect of heat generation and activation energy on MHD Maxwell fluid with multiple slipsCited by 4 – 2024 🔥⚡
  • Revolutionizing energy flow: Unleashing the influence of MHD in the presence of free convective heat transfer with radiationCited by 4 – 2024 🔥💨
  • Newtonian heating effect across the moving horizontal plate with chemical reaction of MHD Maxwell fluidCited by 4 – 2024 🌡️🔬
  • Exploring thermal diffusion and diffusion-thermal energy in MHD Maxwell fluid flow around a stretching cylinderCited by 4 – 2023 🔥🌬️
  • Heat transfer enrichment in magnetohydrodynamic cylindrical flow of Maxwell fluid with thermal radiation and Stefan blowing effectsCited by 4 – 2023 🔥🌬️
  • Viscoelastic fluid flow on channel in porous medium with Soret and Dufour along with the effect of activation energy and suction and blowingCited by 3 – 2024 💧🌪️
  • Chemical reaction effect across the moving flat plate with heat generation and MHD flow of Maxwell fluid with viscous dissipationCited by 2 – 2025 💨🔥
  • Viscoelasticity of Maxwell fluid in a permeable porous channelCited by 1 – 2024 🌊💨

 

Göktürk Memduh Özkan | Fluid Mechanics | Best Researcher Award

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Assoc. Prof. Dr. Göktürk Memduh Özkan | Fluid Mechanics | Best Researcher Award

Assoc. Prof. Dr. Göktürk Memduh Özkan, Çukurova University, Turkey

Assoc. Prof. Dr. Göktürk Memduh Özkan is a prominent academic in mechanical engineering, specializing in fluid mechanics and energy systems. He completed his PhD in 2014, with a thesis on vortex shedding suppression, and a postdoctoral fellowship at Delft University of Technology (2017-2018). Dr. Özkan serves at Çukurova University as an Associate Professor and has held administrative roles, including Co-head of the Mechanical Engineering Department. He has supervised numerous theses and led national research projects, focusing on computational fluid dynamics, renewable energy, and flow control techniques. He is a member of the J.M. Burgers Centrum and an active contributor to scientific advancements. 🌊🔧📚

 

Publication Profile

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Education and Academic Background 🎓📘

Assoc. Prof. Dr. Göktürk Memduh Özkan has a robust academic foundation in mechanical engineering. He earned his Bachelor’s degree in 2007 and completed his Master’s degree in 2011 with a thesis titled “Flow Control Downstream of a Circular Cylinder via a Surrounding Meshy Cylinder in Shallow Water,” under the supervision of Prof. Hüseyin Akıllı. He obtained his PhD in 2014, focusing on “Suppression of Vortex Shedding in the Wake of a Circular Cylinder by Attached Permeable Plates in Deep Water.” He further enhanced his expertise through a postdoctoral fellowship at Delft University of Technology (2017-2018), specializing in fluid mechanics. 🌊🔬

 

Non-Academic Experience 🌍🔬

Assoc. Prof. Dr. Göktürk Memduh Özkan gained valuable international research experience as a Visiting Researcher at Delft University of Technology, Netherlands. From 2017 to 2018, he worked under the TÜBİTAK 2219 International Postdoctoral Research Fellowship Program, engaging in advanced studies in fluid mechanics. This one-year abroad opportunity enriched his expertise and broadened his academic and professional horizons. His experience at a globally recognized institution highlights his commitment to expanding knowledge and fostering international collaborations in engineering and research. 🛫📚

 

Certificate 📜🌐

Assoc. Prof. Dr. Göktürk Memduh Özkan successfully completed the “CFD 1: Computational Fluid Dynamics” course at Delft University of Technology (TU Delft) from October 30 to November 3, 2017. This international certification enhanced his expertise in computational fluid dynamics, focusing on advanced methods and applications in fluid mechanics. The program provided him with cutting-edge knowledge and practical skills, contributing to his proficiency in engineering simulations and numerical analysis. This achievement underscores his dedication to continuous learning and professional development in his field. 🌊💻

 

Research Focus 🌊📘💡

Assoc. Prof. Dr. Göktürk Memduh Özkan specializes in fluid mechanics, with a focus on experimental and computational studies in flow control, vortex suppression, and turbulence. His work includes research on passive flow control methods, such as permeable plates and perforated cylinders, to reduce vortex shedding and drag around bluff bodies and airfoils. He also explores PIV (Particle Image Velocimetry) techniques and CFD (Computational Fluid Dynamics) applications in shallow and deep-water flows, as well as renewable energy systems like biomass gasification. His contributions significantly advance our understanding of hydrodynamics, aerodynamic optimization, and energy-efficient flow designs. 🌬️🔬🚀

 

Publication Top Notes

  • 🌊 Flow around a cylinder surrounded by a permeable cylinder in shallow waterCited by: 65 (2012)
  • 🌬️ Passive flow control in the near wake of a circular cylinder using attached permeable and inclined short platesCited by: 64 (2017)
  • 🔄 Flow structure around perforated cylinders in shallow waterCited by: 62 (2015)
  • 📐 PIV measurements in the near wakes of hollow cylinders with holesCited by: 29 (2017)
  • 🚍 PIV studies around a bus modelCited by: 29 (2012)
  • 🌊 PIV measurement downstream of perforated cylinder in deep waterCited by: 27 (2018)
  • 🌀 The effect of shroud on vortex shedding mechanism of cylinderCited by: 25 (2019)
  • 🌪️ Vortex street suppression of a circular cylinder using perforated semi-circular fairing in shallow waterCited by: 23 (2016)
  • 🏗️ Control of vortex shedding using a screen attached on the separation point of a circular cylinder and its effect on dragCited by: 19 (2017)
  • 💨 Effect of high porosity screen on the near wake of a circular cylinderCited by: 17 (2013)

 

 

 

Sheen El-Sapa | Fluid mechanics | Best Researcher Award

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Assoc. Prof. Dr. Sheen El-Sapa | Fluid mechanics | Best Researcher Award

Assoc. Prof. Dr. Sheen El-Sapa, Princess Nourah Bint Abdulrahman University, United States

Assoc. Prof. Dr. Sheen El-Sapa is an Associate Professor in the Department of Mathematical Sciences at Princess Nourah bint Abdulrahman University, Riyadh, Saudi Arabia. She holds a Ph.D. in Applied Mathematics from Alexandria University, Egypt. Her research focuses on fluid dynamics, porous media, magnetohydrodynamics, thermophoresis, and micropolar fluids. She has contributed to various journals and conferences, with notable publications in European Journal of Mechanics and Journal of Molecular Liquids. Dr. El-Sapa is experienced in numerical methods and low Reynolds number fluid dynamics. She is also skilled in MATLAB, Maple, and Latex. 🌍📚🧮🔬

 

Publication Profile

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Educational Background

Assoc. Prof. Dr. Sheen El-Sapa has a distinguished educational journey. She earned her Bachelor’s degree in Science and Education with first-class honors from Alexandria University’s Damanhour Branch in 2002. She then pursued complementary academic courses at the Faculty of Science, Alexandria University, from 2003 to 2005, achieving excellent results. Dr. El-Sapa went on to obtain her Master of Science degree in Applied Mathematics in 2010, followed by a Ph.D. in Applied Mathematics in 2015, both from the Faculty of Science at Alexandria University. 🎓📚👩‍🎓🌟

 

Work Experience

Assoc. Prof. Dr. Sheen El-Sapa has an extensive academic career, beginning as a Teaching Assistant at Alexandria University’s Damanhour Branch from 2003 to 2007. She continued her journey as a Teaching Assistant until 2010, and then as an Assistant Lecturer from 2010 to 2015. Dr. El-Sapa advanced to Lecturer (Assistant Professor) at Damanhour University from 2015 to 2021. She was later promoted to Assistant Professor (Associate Professor) at Damanhour University in 2021. Since 2022, she has been serving as an Associate Professor at Princess Nourah bint Abdulrahman University in Riyadh, Saudi Arabia. 👩‍🏫📚🎓🌍

Research Focus

Assoc. Prof. Dr. Sheen El-Sapa’s research spans a wide range of topics in applied mathematics and fluid dynamics. Her areas of expertise include fluid dynamics, porous media, and magnetohydrodynamics, exploring the behavior of fluids under various conditions. She investigates thermophoresis, micropolar fluids, and viscous fluids, with a focus on complex fluid systems. Her work also delves into couple stress fluids, low Reynolds number flows, and particle interactions, utilizing numerical methods for simulations and solutions. Dr. El-Sapa’s research is integral to advancing understanding of fluid behavior in diverse engineering and scientific applications. 🔬🧑‍🔬💡🌊

 

Publication Top Notes 📚

  • Effect of slippage on a translational motion of two interacting non-concentric spheres squeezed by couple stress fluidS El-Sapa, NS Alsedais – Indian Journal of Pure and Applied Mathematics, 2024 📑🔢
  • Migration of two rigid spheres translating within an infinite couple stress fluid under the impact of magnetic fieldS El-Sapa, MA Alotaibi – Open Physics, 2024 📚⚡
  • Time-periodic electrokinetic analysis of a micropolar fluid flow through hydrophobic microannulusMS Faltas, S El-Sapa – The European Physical Journal Plus, 2024 🔬💧
  • Hydrophobic effects on a solid sphere translating in a Brinkman couple stress fluid covered by a concentric spherical cavityMA Alotaibi, S El-Sapa – Physics of Fluids, 2024 🏀🌀
  • MHD Couple stress fluid between two concentric spheres with slip regimeMA Alotaibi, S El-Sapa – Results in Engineering, 2024 🌀🔧
  • Optoelectronic–thermomagnetic effect of a microelongated non-local rotating semiconductor heated by pulsed laser with varying thermal conductivityMH Raddadi, S El-Sapa, MA Elamin, H Chtioui, R Chteoui, AA El-Bary, … – Open Physics, 2024 🌟📡
  • Time-periodic electroosmotic analysis of couple stress fluid in nanofluidic channels with slippagesS El-Sapa – Chinese Journal of Physics, 2024 🇨🇳💧
  • Modelling Pennes’, bioheat transfer equation in thermoelasticity with one relaxation timeS El-Sapa, AA El-Bary, W Albalawi, HM Atef – Journal of Electromagnetic Waves and Applications, 2024 📏💡
  • Comparative heat transfer analysis of nanoparticles based in nanofluids flow inside a C-shaped partially heated rectangular cavityM Awais, FA Soomro, S El-Sapa, RB Khokhar, AA Almoneef – Mehran University Research Journal of Engineering & Technology, 2024 🔥🌐
  • Stochastic wave propagation in magneto-thermoelastic materials subjected to the change in electrical and thermal conductivityK Lotfy, S El-Sapa, A Ahmed, AA El-Bary, RS Tantawi, MH Ahmed, … – AIP Advances, 2024 ⚡🧠