Prof. Magdalena Piasecka | Temperature Measurement | Excellence in Research

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Prof. Magdalena Piasecka | Temperature Measurement | Excellence in Research 

Prof. Magdalena Piasecka, Kielce University of Technology, Poland

Dr. Magdalena Piasecka is a Full Professor and Head of the Department of Mechanics and Thermal Processes at Kielce University of Technology, Poland. She earned her Ph.D. from Kielce University of Technology in 2002, followed by a habilitation from Koszalin University of Technology in 2015. In 2020, she was awarded the title of Professor in technical sciences by the President of Poland. Her research focuses on flow boiling heat transfer in minigaps, investigating the effects of geometry, spatial orientation, and thermal parameters on boiling processes. She specializes in enhanced heat transfer surfaces, advanced temperature measurement techniques such as liquid crystal and infrared thermography, and mathematical modeling of heat and fluid flow. With over 230 scientific publications, she has an H-index of 24 and more than 1,100 citations. She has authored three monographs and holds two patents. Dr. Piasecka has participated in 12 research projects, serving as Principal Investigator in five. Her contributions to thermodynamics, fluid mechanics, and renewable energy have earned her multiple awards and distinctions for scientific excellence.

Professional Profile:

SCOPUS

Summary of Suitability for Excellence in Research 

Prof. Magdalena Piasecka is a highly deserving candidate for the Excellence in Research Award, given her outstanding contributions to heat transfer, thermodynamics, and fluid mechanics. Her extensive publication record, leadership in research projects, and impact on the scientific community demonstrate her exceptional research excellence.

🎓 Education & Academic Titles:

  • Ph.D. (2002) – Kielce University of Technology, Poland
  • Habilitation (2015) – Koszalin University of Technology, Poland
  • Professor Title (2020) – Conferred by the President of Poland in Technical Sciences

👩‍🏫 Work Experience:

  • Full Professor & Head of the Department of Mechanics and Thermal Processes – Kielce University of Technology, Poland

🏆 Achievements:

  • 📚 230+ Scientific Publications in peer-reviewed journals & international conferences
  • 📈 Web of Science Bibliometric Metrics:
    • H-index: 24
    • Total Citations: 1102 (480 excluding self-citations)
    • Total Impact Factor (IF): 108.6 (current), 108.89 (5-year IF)
  • 📖 Books & Patents:
    • 2 Monographs (Author), 1 Monograph (Co-author)
    • 1 Patent (Author), 1 Patent (Co-author)
  • 🔬 Research Projects:
    • Participated in 12 research projects (Principal Investigator in 5 projects)

🏅 Awards & Honors:

  • Multiple Awards & Distinctions for outstanding scientific achievements in heat transfer, thermodynamics, and renewable energy research

Publication Top Notes:

Laser Surface Texturing for the Intensification of Boiling Heat Transfer in a Minichannel

Contact temperature measurement using selected thermoelements for studies of heat transfer during fluid flow in minichannels – metrology investigations

Using the Monte Carlo method for estimation of temperature uncertainty due to infrared thermography and K-type thermoelement measurements

Homotopy Perturbation Method with Trefftz Functions and Simcenter STAR-CCM+ Used for the Analysis of Flow Boiling Heat Transfer

Using Quality Function Deployment to Assess the Efficiency of Mini-Channel Heat Exchangers

Investigations of Flow Boiling in Mini-Channels: Heat Transfer Calculations with Temperature Uncertainty Analyses

Dr. George Alexandru Boldeiu | Pressure Sensor | Best Researcher Award

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Dr. George Alexandru Boldeiu | Pressure Sensor | Best Researcher Award

Dr. George Alexandru Boldeiu, IMT Bucharest, Romania

George Alexandru Boldeiu is a Romanian researcher specializing in microtechnology, MEMS devices, and thermal-electromagnetic simulations. He is currently an IDT II at the Micromachined Structures, Microwave Circuits, and Devices Laboratory at the National Institute for Research and Development for Microtechnologies in Bucharest. With extensive experience in thermal, mechanical, and electromagnetic simulations using Ansys and COMSOL, his work focuses on surface acoustic wave (SAW) devices, temperature and magnetic sensors, and microwave characterization. Prior to this, he worked as a thermal simulation engineer at Continental Automotive Romania, where he contributed to thermal modeling and optimization of electronic components. He holds a Bachelor’s degree in Mathematical Engineering from the University Politehnica of Bucharest and a Bachelor’s degree in Physics from the University of Bucharest. Currently, he is pursuing a Ph.D. at the Doctoral School of Electronics, Telecommunications & Information Technology at the University Politehnica of Bucharest. His research interests span classical mechanics, quantum mechanics, solid-state physics, and electromagnetism, with expertise in CAD/CAE tools such as Ansys, COMSOL, and SolidWorks.

Professional Profile:

GOOGLE SCHOLAR

Summary of Suitability for Best Researcher Award

George Alexandru Boldeiu has a solid research background spanning over two decades in microtechnology, MEMS (Micro-Electro-Mechanical Systems), and electromagnetic simulations. His experience includes working at the National Institute for Research and Development for Microtechnologies in Bucharest and Continental Automotive Romania, where he conducted advanced simulations in thermal, mechanical, and electromagnetic domains.

🎓 Education

📍 PhD Student (2020 – Present)
Doctoral School of Electronics, Telecommunications & Information Technology, University Politehnica of Bucharest

📍 Bachelor of Physics (2011 – 2014)
Faculty of Physics, University of Bucharest, Bucharest

📍 Bachelor of Mathematical Engineering (1996 – 2001)
Faculty of Electrical Engineering, University Politehnica of Bucharest

💼 Work Experience

🔬 IDT II (2019 – Present)
Micromachined Structures, Microwave Circuits and Devices Laboratory, National Institute for Research and Development for Microtechnologies, Bucharest

  • 🔥 Thermal, mechanical, and electromagnetic simulation using Ansys & COMSOL
  • 📡 Simulation of MEMS and acoustic wave-based devices
  • ⚡ Electromagnetic field simulation (low & high frequency)
  • 🎨 3D printing design & electric measurements
  • 🌡️ SAW devices on III-nitride layers, microwave characterization, and SAW sensors

💻 Thermal Simulation Engineer (2017 – 2019)
Continental Automotive Romania (ADAS)

  • 🔥 Thermal modeling using Ansys & Icepak
  • 🏗️ Coupled thermal-structural and thermal-electric analysis
  • 💡 Worked on cooling solutions with mechanical and system engineers

🖥️ Engineer (2007 – 2017)
Simulation, Modelling & Computer-Aided Design Laboratory, National Institute for Research and Development for Microtechnologies, Bucharest

  • 🎯 Thermal, mechanical, and electromagnetic simulation
  • 🛠️ MEMS device simulations & 3D printing design
  • ⚡ Electromagnetic field analysis

🗄️ Database Administrator (2004 – 2007)
Internet/Intranet Laboratory, National Institute for Research and Development for Microtechnologies, Bucharest

🔬 Junior Researcher (2001 – 2004)
Nano-Scale Structuring and Characterization, National Institute for Research and Development for Microtechnologies, Bucharest

🏆 Achievements & Honors

  • 📡 Significant contributions to SAW devices and MEMS simulation research
  • 🔍 Expertise in coupled multiphysics simulations (thermal-electrical-structural)
  • 🏅 Extensive experience in CAD/CAE tools for advanced modeling
  • 🛠️ Development of rapid-prototyping designs for research applications

Publication Top Notes:

GaN membrane supported SAW pressure sensors with embedded temperature sensing capability

CITED:47

The behavior of gold metallized AlN/Si-and AlN/glass-based SAW structures as temperature sensors

CITED:23

Applications of electrostatic capacitance and charging

CITED:20

Investigation of temperature sensing capabilities of GaN/SiC and GaN/sapphire surface acoustic wave devices

CITED:16

Characterization and modeling of quantum dot behavior in FDSOI devices

CITED:15

 

 

Mr. Luis Guillen | Precision Measurement Award | Young Scientist Award

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Mr. Luis Guillen | Precision Measurement Award | Young Scientist Award 

Mr. Luis Guillen,  Tecnologico Nacional de Mexico, Campus Tuxtla Gutierrez, Mexico

Luis Enrique Guillen Ruiz is a 32-year-old Mexican national with a robust academic background in engineering and mathematics education. He holds a Master of Science in Mechatronic Engineering, which he earned with honors from the Tecnológico Nacional de México, Campus Tuxtla Gutiérrez, in March 2022. His specialization in optomechatronic systems reflects his dedication to the field. Prior to this, he completed a Master of Science with a specialization in Mathematics Education from the Universidad Autónoma de Chiapas in June 2018, also with honors. His academic journey began with a Bachelor’s Degree in Mechanical Engineering from the Tecnológico Nacional de México, where he graduated in June 2015. Luis is committed to advancing knowledge in his areas of expertise and is actively involved in research and educational initiatives.

Professional Profile:

SCOPUS

Summary of Suitability for the Young Scientist Award

Luis Enrique Guillen Ruiz, a 32-year-old researcher from Mexico, stands out as a strong candidate for the Young Scientist Award, particularly in the fields of Mechatronic Engineering and Optical Fiber Technology. His academic achievements and research contributions demonstrate a commitment to innovation and excellence in scientific inquiry.

Educational Background

  1. Master of Science in Mechatronic Engineering
    • Institution: Tecnológico Nacional de México, Campus Tuxtla Gutiérrez
    • Duration: January 2020 – March 2022
    • Specialization: Optomechatronic systems
    • Professional Examination Act Date: March 18, 2022 (with Honors)
    • Certificates:
      • Professional Certificate: 11440718
      • Professional Certificate: 13090741
  2. Master of Science with Specialization in Mathematics Education
    • Institution: Universidad Autónoma de Chiapas (UNACH)
    • Duration: January 2016 – December 2017
    • Professional Examination Act Date: June 15, 2018 (with Honors)
    • Certificate: Degree and Professional Certificate.
  3. Bachelor’s Degree in Mechanical Engineering
    • Institution: Tecnológico Nacional de México, Campus Tuxtla Gutiérrez
    • Duration: August 2010 – June 2015
    • Certificate: Degree and Professional Certificate.

Work Experience

Luis Enrique Guillen Ruiz has engaged in academic and practical applications of his studies through various projects and roles during and after his educational pursuits, though specific work experience details beyond his academic qualifications were not provided. Given his advanced degrees, he is likely involved in engineering, research, or educational roles related to mechatronics and mathematics education.

Publication top Notes:

An approach to enhance the sensitivity of a Mach–Zehnder displacement fiber sensor using the spectrum differential integration method and the filter in a double-pass configuration

Demonstration of Improving the Performance of a Fibre Optic Displacement Sensor Using the Optical Harmonic Vernier Effect by Cascading Tapered Optical Single-Mode Fibres

Experimental demonstration of optical Vernier effect by cascading tapered single-mode optical fibres

Towards an Approach for Filtration Efficiency Estimation of Consumer-Grade Face Masks Using Thermography

 

Mr. Minseop Sim | Measurement Award | Best Researcher Award

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Mr. Minseop Sim | Measurement Award | Best Researcher Award 

Mr. Minseop Sim, agency for defense development, South Korea

Sim Minseop is a researcher at the Agency for Defense Development in the Republic of Korea, where he specializes in underwater acoustic sensors and sonar systems for naval applications. He holds degrees in Physics and Weapon System Engineering, focusing on advanced piezoelectric composites. Notably, he has developed innovative sonar systems using ferroelectric piezoelectric single crystal materials, achieving significant improvements in acoustic sensor performance. His work includes developing an analytical solution for 2-2 composites based on [011] poled single crystals, validated through finite element analysis and experimental measurements. Sim’s contributions to the field are pivotal for advancing the design and application of acoustic sensors.

Professional Profile:

Summary of Suitability for Best Researcher Award

Sim Minseop demonstrates a strong potential for the Best Researcher Award due to his innovative research in piezoelectric composites and underwater acoustic sensors, coupled with his significant contributions to the field of acoustic sensor design.

Education:

  1. Major: Physics and Weapon System Engineering
  2. Institution: Agency for Defense Development, Republic of Korea

Work Experience:

  1. Current Position:
    • Designation: Researcher
    • Institution/Organization: Agency for Defense Development
    • Specialization: Underwater acoustic sensors and sonar systems for destroyers; development of piezoelectric composites using ferroelectric piezoelectric single crystal materials.
  2. Key Contributions:
    • Research Focus: Designed and developed sonar systems for destroyers and explored alternatives to PZT in piezoelectric composites.
    • Achievements: Developed a new composite using [011] poled single crystal materials, leading to improved properties for acoustic sensors.
    • Analytical Work: Provided an analytical solution for material properties of 2-2 composites, validated through finite element analysis and high-frequency measurements.

Publication top Notes:

 

Derivation of Equivalent Material Coefficients of 2-2 Piezoelectric Single Crystal Composite

Theoretical and Experimental Studies on Sensitivity and Bandwidth of Thickness-Mode Driving Hydrophone Utilizing A 2-2 Piezoelectric Single Crystal Composite

Developing 2-2 Piezoelectric Composites based on Single Crystal for Thickness-Mode Driving Hydrophones

High power ultrasonic effect on soil compaction for different static pressure

Analysis of ultrasonic effect on powder and application to radioactive sample compaction

Notice of Removal: Improvement of compaction rate of radioactive samples for gamma spectrometry using high power ultrasound