Faustyn Recha – Structural Engineering – Academic Achievement in Civil Engineering Award

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Faustyn Recha - Structural Engineering - Academic Achievement in Civil Engineering Award

Academy of Silesia - Poland

AUTHOR PROFILE

SCOPUS
ORCID
GOOGLE SCHOLAR

SUMMARY

Faustyn Recha is a civil engineer and academic specializing in reinforced concrete structures and corrosion mechanics. Known for integrating numerical modeling with structural engineering, contributions span across research, teaching, and professional practice. Focus areas include degradation modeling of reinforced concrete due to corrosion, structural mechanics, and practical innovations in building technology. Recha has presented findings at major international conferences and led seminars on cutting-edge topics in structural durability. The research is characterized by deep experimental validation and interdisciplinary collaboration. Engagements with institutions across Europe, the USA, and Asia demonstrate a strong global academic and industrial footprint.

EDUCATION

Earned a Ph.D. in engineering and technical sciences with a specialization in civil engineering and transport from the Silesian University of Technology. Completed both bachelor's and master's degrees in construction engineering, specializing in Building and Engineering Structures, from the Częstochowa University of Technology. Education journey combined strong academic performance with early practical exposure, laying the groundwork for expertise in reinforced concrete and structural analysis. The doctoral dissertation addressed the degradation of reinforced concrete structures caused by reinforcement corrosion, showcasing theoretical innovation supported by experimental data. This academic path equipped Recha with skills vital for high-impact scientific and technical roles.

PROFESSIONAL EXPERIENCE

Currently serves as Assistant Professor at the Academy of Silesia in Katowice, contributing to teaching, research, and coordination within the Civil Engineering, Geodesy, and Transport discipline. Gained experience through prior design studio work and technical supervision roles. Served internships in Germany and Slovakia, focusing on concrete durability and structural analysis. Has held responsibilities in teaching structural mechanics, corrosion science, and advanced construction methods. Practical contributions include over 200 construction projects, technical evaluations, and design solutions. Verified experience in managing construction sites and coordinating with municipalities and industry professionals, ensuring real-world application of academic expertise.

RESEARCH INTEREST

Research interests revolve around the durability and mechanics of reinforced concrete structures, particularly degradation mechanisms triggered by reinforcement corrosion. Investigates thermomechanical modeling, numerical simulation, and probabilistic assessments of structural failure. Current focus includes developing non-invasive methods for estimating corrosion current density through structural deflection analysis. Engages in experimental and theoretical studies to enhance modeling precision and reliability. Other interests encompass geopolymer materials, utility-based mix design optimization, and interval analysis for material degradation. These research areas reflect an integration of structural theory with emerging technologies in material science, contributing to safer and more durable infrastructure.

AWARD AND HONOR

Recognized with several academic distinctions, including a scholarship from the Rector of the Silesian University of Technology. Earned second place in the young scientists’ poster session at the 66th Scientific Conference of the Polish Academy of Sciences. Achieved notable rankings in the "Modern Engineer" technical knowledge competitions. Actively invited as a reviewer for international journals and speaker at prestigious conferences. Recha’s achievements reflect continuous contributions to civil engineering and academic excellence. Ongoing innovations, including a pending patent for prefabricated slab connections, underline a commitment to impactful engineering practices and scientific advancement.

RESEARCH SKILL

Highly skilled in structural modeling, experimental mechanics, advanced FEM simulations, and degradation analysis of reinforced concrete. Proficient in formulating thermomechanical models and corrosion-related strain tensors. Experienced in Monte Carlo simulation for sensitivity analysis, non-invasive diagnostic techniques, and concrete mix design optimization. Adept at scientific writing, technical reporting, and cross-disciplinary collaboration. Skilled in preparing structural design documentation and assessing the condition of existing structures. Familiar with patent development and engineering innovation processes. Expertise spans both laboratory-based experimental methods and computational modeling, enabling comprehensive investigation and application in structural engineering challenges.

PUBLICATIONS TOP NOTED

Published in leading journals such as Materials, Open Engineering, and Przegląd Budowlany. Notable works include the formulation and experimental verification of models estimating corrosion current in reinforced concrete, assessments of structural degradation, and optimization of geopolymer mortar mixes. Recent articles explore interval analysis in concrete degradation and innovative techniques in non-invasive corrosion measurement. Contributions are often co-authored with international collaborators, reflecting broad engagement with global research communities. Participation in conference proceedings and edited volumes further amplifies the academic footprint. Publications address both theoretical frameworks and practical applications, aligning scholarly impact with industry relevance.

Title: Zasady przeprowadzania okresowych badań technicznych obiektów budowlanych w zakresie bezpieczeństwa i użytkowania
Authors: F. Recha, P. Nagel
Journal: BUILDER

Title: Application of Interval Analysis to Assess Concrete Cover Degradation in Accelerated Corrosion Tests
Authors: F. Recha, K. Yurkova, T. Krykowski
Journal: Materials

Title: Estimation method of corrosion current density of RC elements
Author: F. Recha
Journal: Open Engineering

Title: Application of a Generalized Utility Function to Determine the Optimal Composition of Geopolymer Mortar
Authors: M. Kępniak, F. Recha, P. Prochoń
Journal: Materials

Title: Experimental Verification of the Model for Estimating the Corrosion Current of Reinforcement in an RC Element
Authors: F. Recha, W. Raczkiewicz, K. Bacharz, A. Wójcicki, P. Bujňáková, P. Koteš
Journal: Materials

CONCLUSION

Faustyn Recha demonstrates a strong integration of academic knowledge and practical expertise in civil engineering. Research activities, teaching engagements, and industrial collaborations reflect a commitment to innovation, precision, and long-term infrastructure sustainability. By focusing on corrosion-induced degradation and material performance, Recha contributes meaningfully to modern construction challenges. Recognition from academic and professional circles confirms the value and originality of the work. Continued development of new methods, publication of impactful findings, and involvement in structural innovation underline the role as a thought leader in civil engineering and material durability.

Ting-Yu Fan – Structural Engineering – Best Researcher Award

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Ting-Yu Fan | Structural Engineering | Best Researcher Award

National Atomic Research Institute - Taiwan

AUTHOR PROFILE

ORCID

SCOPUS

SUMMARY

Ting-Yu Fan is a dedicated engineer and researcher at the National Atomic Research Institute, Taiwan. His expertise spans seismic analysis, soil-structure interaction, and thermal-hydraulic coupling, with a strong focus on nuclear and renewable energy infrastructures. Having contributed to international collaborative projects like DECOVALEX, he brings global perspective and depth to structural safety assessments. Through multidisciplinary research, industry consultancy, and cutting-edge modeling work, Fan continues to make notable advances in the safety and performance of critical energy systems under extreme environmental conditions.

EDUCATION

Ting-Yu Fan completed his Master of Engineering at National Cheng Kung University, Taiwan. His academic foundation centers on structural integrity assessment, seismic performance, and coupled thermal-hydraulic analysis. These areas laid the groundwork for his contributions to national and international research, especially in structural modeling and nuclear energy safety. His education provided the theoretical and technical base to tackle complex challenges in energy systems, particularly those involving fault mechanics, soil-structure interaction, and the behavior of engineered systems under extreme stress conditions.

PROFESSIONAL EXPERIENCE

Currently serving at the National Atomic Research Institute, Fan leads and participates in several government and industry-funded projects on nuclear safety and structural resilience. His prior engagements include critical work on offshore wind turbine support structures and safety cases for spent nuclear fuel disposal. He has contributed to structural evaluations against natural disasters such as typhoons and earthquakes. His professional journey reflects a continuous effort to bridge theoretical modeling with real-world engineering solutions in high-risk and sensitive infrastructures.

RESEARCH INTEREST

Ting-Yu Fan’s research interests span seismic performance evaluation of nuclear infrastructure, structural integrity under multi-hazard conditions, safety case development for spent nuclear fuel disposal, and advanced numerical modeling. He is particularly engaged in soil-structure interaction studies and fault reactivation modeling. His work also includes pioneering research in seismic isolation technologies for small modular reactors and extreme load responses of offshore wind support systems. These themes converge in his quest to enhance the safety, reliability, and sustainability of modern energy infrastructures.

AWARD AND HONOR

Ting-Yu Fan’s selection and participation in the DECOVALEX international research initiative reflect peer recognition of his expertise. His leadership roles in high-stakes government-funded projects further demonstrate his standing in Taiwan’s nuclear and structural engineering communities. His publications and project outcomes have contributed significantly to both academic knowledge and practical advancements in infrastructure safety, earning him a reputation as a trusted expert in the seismic and structural behavior of critical energy systems.

RESEARCH SKILL

Ting-Yu Fan brings advanced skills in seismic analysis, THM modeling, structural integrity evaluation, and numerical simulations. His toolkit includes fault activation modeling, soil-structure interaction analysis, and safety case development for complex nuclear systems. He is proficient in handling multidisciplinary data for integrated assessments of structural and geotechnical systems under environmental stressors. His ability to interpret seismic and thermal data and simulate real-world behaviors under extreme conditions stands as a cornerstone of his research success.

PUBLICATIONS

Title: Modeling the Influence of Soil-Structure-Interaction on Seismic Response of Jacket Substructure for the DTU 10MW Offshore Wind Turbine
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.
Journal: International Journal of Offshore and Polar Engineering (2022)

Title: Strength Analysis for a Jacket-Type Substructure of an Offshore Wind Turbine under Extreme Environment Conditions
Authors: Fan, T.-Y.; Chen, S.-H.; Huang, C.-C.
Journal: International Journal of Offshore and Polar Engineering (2020)

Title: Time-Domain Fatigue Analysis of Multi-Planar Tubular Joints for a Jacket-Type Substructure of Offshore Wind Turbines
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: International Journal of Offshore and Polar Engineering (2020)

Title: Fatigue Analysis for Jacket-Type Substructure of 5MW Offshore Wind Turbine in Time Domain and Evaluation of Fatigue Damage
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Journal of the Chinese Institute of Civil and Hydraulic Engineering (2018)

Title: Numerical Fatigue Analysis for Jacket-Type Substructure of Offshore Wind Turbines under Local Environmental Conditions in Taiwan
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Proceedings of the International Offshore and Polar Engineering Conference (2018)

Title: Fatigue Analysis for Jacket-Type Support Structure of Offshore Wind Turbine under Local Environmental Conditions in Taiwan
Authors: Fan, T.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Proceedings of the International Offshore and Polar Engineering Conference (2017)

Title: Reissner's Mixed Variational Theorem-Based Finite Cylindrical Layer Methods for the Three-Dimensional Free Vibration Analysis of Sandwich Circular Hollow Cylinders with an Embedded Functionally Graded Material Layer
Authors: Wu, C.-P.; Fan, T.-Y.; Li, H.-Y.
Journal: Journal of Vibration and Control (2014)

CONCLUSION

Ting-Yu Fan exemplifies a modern researcher committed to public safety and energy resilience. His interdisciplinary approach blends engineering rigor with policy-oriented research outcomes. Through his contributions to nuclear safety, renewable energy systems, and geotechnical modeling, he enhances the scientific foundations for infrastructure design in seismically active and environmentally challenging regions. His work continues to impact engineering practices, regulatory standards, and academic collaboration, positioning him as a key contributor to the evolving field of energy systems engineering.

Milan Sapieta | Structural Engineering | Best Researcher Award

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 Mr. Milan Sapieta| Structural Engineering | Best Researcher Award

researcher at UNIZA in Slovakia

Milan Sapieta is a dedicated professional in [specific field, e.g., engineering, technology], recognized for his contributions to [specific areas, e.g., software development, system engineering]. With a strong background in both academic research and practical application, he is committed to advancing technology through innovative solutions. Milan’s work has had a notable impact in [mention relevant industry or sector, e.g., telecommunications, renewable energy].

Professional Profiles:

Strengths for the Award

  • Milan Sapieta stands out as a strong candidate for the Research for Community Impact Award and the Best Researcher Award due to his extensive research contributions and practical applications in engineering and materials science. His work in flange fatigue life calculation, stress analysis of battery containers, and mechanical properties of spur involute gearing demonstrates a commitment to addressing real-world challenges, particularly in areas that impact public safety and infrastructure.His recent publications in high-impact journals, such as Applied Sciences and Materials, further solidify his reputation as a leading researcher. Notably, the article on the design and implementation of a low-cost torque sensor for manipulators highlights his innovative approach to enhancing technological solutions that can benefit various industries, including robotics and automation. The ability to publish in reputable journals indexed in SCOPUS and the Web of Science indicates the significance and quality of his research.Milan’s contributions to studies on load measurement of cervical vertebrae during car travel exemplify his dedication to public health and safety, directly impacting vehicle safety standards and ergonomics. His ability to collaborate with co-authors on multidisciplinary research also illustrates his teamwork and communication skills, essential for impactful research.

Areas for Improvement

  • Despite his impressive achievements, Milan could further enhance his candidacy by increasing his outreach efforts and community engagement related to his research. Developing initiatives to share findings with the public, industry stakeholders, or educational institutions could amplify the societal impact of his work. This could include workshops, seminars, or educational programs aimed at demonstrating the real-world applications of his research in engineering and materials science.Additionally, pursuing interdisciplinary collaborations with professionals from different fields could provide fresh perspectives and enhance the relevance of his research. Engaging with policymakers or industry leaders to translate his findings into practical applications could further elevate his profile for the Research for Community Impact Award

Education:

  • Milan Sapieta holds a Bachelor’s degree in [specific field, e.g., Electrical Engineering, Computer Science, or a related discipline] from [University Name], where he developed foundational skills in [mention core subjects, e.g., circuit design, software development]. He further advanced his education with a Master’s degree in [specific field] from [University Name], focusing on [specific areas of specialization or research, e.g., digital systems, machine learning]. Milan’s academic achievements provided him with a solid grounding in both theoretical knowledge and practical applications in his field.

Professionals Experience:

  • Milan has accumulated over [number] years of experience in [specific field or industry, e.g., technology, engineering, or research]. He currently serves as [current position, e.g., Software Engineer, Research Scientist] at [Company/Institution Name], where he is responsible for [mention specific responsibilities, e.g., developing innovative solutions, leading research projects, or designing new systems]. Previously, he held roles at [mention previous companies or institutions], where he contributed to significant projects involving [mention relevant technologies or processes, e.g., software development, system optimization].

Skills:

  • Milan possesses a diverse skill set, including expertise in [mention specific skills, e.g., programming languages, software tools, system design]. He is proficient in using [specific software or tools, e.g., MATLAB, Python, AutoCAD], and has strong analytical and problem-solving abilities. His collaborative skills and experience in project management enhance his ability to work effectively in multidisciplinary teams.

Research Focus:

  • Milan’s research interests are primarily focused on [mention key areas, e.g., software engineering, system optimization, machine learning]. He aims to address challenges in [specific challenges, e.g., improving system efficiency, enhancing user experience], and his work seeks to develop innovative solutions that contribute to the advancement of [mention relevant industry or technology, e.g., smart systems, renewable energy]. Through his research, Milan aspires to make meaningful contributions to the ongoing evolution of [specific field or sector].

Publications :

  • “Probabilistic Analysis of Orbital Characteristics of Rotary Systems with Centrally and Off-Center Mounted Unbalanced Disks”
    • Journal: Applied Sciences
    • Publication Date: September 30, 2024
  • “Probabilistic Analysis of Critical Speed Values of a Rotating Machine as a Function of the Change of Dynamic Parameters”
    • Journal: Sensors
    • Publication Date: July 4, 2024
  • “The Impact of Internal Structure Changes on the Damping Properties of 3D-Printed Composite Material”
    • Journal: Applied Sciences
    • Publication Date: June 29, 2024
  • “Design and Implementation of a Low-Cost Torque Sensor for Manipulators”
    • Journal: Applied Sciences
    • Publication Date: August 18, 2023
  • “Investigation of the Mechanical Properties of Spur Involute Gearing by Infrared Thermography”
    • Journal: Applied Sciences
    • Publication Date: May 12, 2023
  • “The Impact of Excitation Periods on the Outcome of Lock-In Thermography”
    • Journal: Materials
    • Publication Date: March 30, 2023

Conclusion:

  • Milan Sapieta is highly suitable for both the Research for Community Impact Award and the Best Researcher Award due to his significant contributions to engineering research and its practical applications. His work not only advances the field of materials science but also directly impacts safety and efficiency in real-world scenarios. By expanding his community outreach and interdisciplinary collaborations, he can further strengthen his influence and enhance the broader impact of his research, making him a formidable candidate for these awards.