Dr. Daniel Osezua Aikhuele | Material Failure Analysis | Research Excellence Award

Published on by Material Scientist

Dr. Daniel Osezua Aikhuele | Material Failure Analysis | Research Excellence Award

University of Port Harcourt | Nigeria

Dr. Daniel Osezua Aikhuele is a distinguished scholar in Material Failure Analysis whose extensive body of work has significantly advanced the understanding of reliability, safety, and intelligent decision-making in complex engineering systems. With an impressive research footprint reflected in 530 citations generated by 434 documents, 71 published documents, and a robust h-index of 14, he is recognized for consistently producing high-impact contributions that bridge theoretical innovation with practical engineering solutions. As an Associate Professor at the University of Port Harcourt, he has built a reputation for excellence in manufacturing engineering, intelligent reliability modeling, fault diagnosis, product design, and sustainable materials, using advanced fuzzy logic, multi-criteria decision-making approaches, and data-driven techniques that address reliability challenges in modern industrial environments. His scholarly output spans journals, book chapters, and international conferences, demonstrating his leadership in developing hybrid fuzzy systems, reliability-centered models, renewable-energy decision frameworks, and intelligent predictive tools for mechanical components, offshore systems, and wind-energy technologies. Beyond research, Dr. Aikhuele plays an active role in the global engineering community as a reviewer for major journals and a member of several professional bodies, contributing to quality assurance and scientific advancement across multiple disciplines. He has supervised numerous postgraduate researchers and collaborated widely on interdisciplinary projects that enhance industrial safety, optimize energy systems, and support sustainable engineering practices. His commitment to academic excellence, combined with impactful teaching and mentorship, has earned him recognition as a dynamic leader whose contributions continue to influence material behavior assessment, reliability optimization, and the design of resilient engineering systems.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Azubuike, G. D., Aikhuele, D. O., & Nwosu, H. U. (2025). Development of an optimization model for reducing energy utilization and to increase biomass yield in a brewery process. Process Integration and Optimization for Sustainability.

Diemuodeke, O. E., Vera, D., Ojapah, M. M., Nwachukwu, C. O., Nwosu, H. U., Aikhuele, D. O., Ofodu, J. C., & Nuhu, B. S. (2024). Hybrid solar PV–agro-waste-driven combined heat and power energy system as feasible energy source for schools in Sub-Saharan Africa. Biomass, 4(4), 67.

Aikhuele, D. O., & Diemuodeke, O. E. (2024). Computational analysis of stiffness reduction effects on the dynamic behaviour of floating offshore wind turbine blades. Journal of Marine Science and Engineering, 12(10), 1846.

Aikhuele, D. O., & Sorooshian, S. (2024). A proactive decision-making model for evaluating the reliability of infrastructure assets of a railway system. Information, 15(4), 219.

Onukwube, C. U., Aikhuele, D. O., & Sorooshian, S. (2024). Development of a fault detection and localization model for a water distribution network. Applied Sciences, 14(4), 1620.

Prof Targo Kalamees | Material Degradation and Corrosion | Outstanding Scientist Award

Published on by Material Scientist

Prof Targo Kalamees | Material Degradation and Corrosion | Outstanding Scientist Award

Prof. Targo Kalamees is an internationally recognized expert in building physics, with more than two decades of experience in research, teaching, and scientific leadership. He currently serves as a tenured full professor at the School of Engineering, Department of Civil Engineering and Architecture at Tallinn University of Technology. His work focuses on the hygrothermal behavior of buildings, energy efficiency, renovation strategies, and climate resilience in construction. Through a career marked by interdisciplinary research and global collaboration, he has made transformative contributions to sustainable building technologies and design methodologies tailored for cold and variable climates.

Prof Targo Kalamees, Tallinn University of Technology, Estonia

Profile

ORCID

SCOPUS

πŸŽ“ Education

Prof. Targo Kalamees has a robust academic foundation in civil engineering and building physics. He earned his Doctoral Degree in 2006 from Tallinn University of Technology, focusing on hygrothermal criteria for the design and simulation of buildings πŸ—οΈπŸ“Š. Prior to this, he completed a Master’s Degree in 1999 at the same university, specializing in the hygrothermal performance of externally insulated walls πŸ§±πŸ’§. His academic journey began with a MSc-equivalent degree in Civil Engineering (1996) and an earlier diploma in geodesy from TTK University (1991) πŸ“πŸŒ. This progressive education laid the foundation for his scientific excellence in sustainable construction and building physics πŸ πŸ“š.

πŸ›οΈ Experience

Prof. Targo Kalamees has extensive academic and research experience in building physics and energy efficiency. Since 2018, he has been a Tenured Full Professor at Tallinn University of Technology, where he also previously served as Head of the Chair of Building Physics and Energy Efficiency. He has conducted postdoctoral research at Helsinki University of Technology and was a Visiting Research Fellow at Lund University. His roles have centered on climate-resilient buildings, moisture-safe construction, and sustainable renovation strategies, combining leadership, scientific excellence, and international collaboration. πŸ§±πŸŒ‘οΈπŸ›οΈπŸ”¬πŸŒ

πŸŽ“ Supervisory Excellence

Prof. Targo Kalamees is a highly accomplished doctoral supervisor, having successfully guided over ten PhD candidates in building physics and sustainable construction πŸ—οΈπŸ“š. His students’ research spans key areas such as energy renovation of apartment buildings, air leakage and thermal bridge modeling, hygrothermal analysis of wall systems, and renovation strategies for wooden structures 🌬️🏑🌑️. His guidance has shaped groundbreaking work on nearly zero-energy buildings (nZEB), prefabricated insulation systems, and durable retrofit technologies πŸ”‹πŸ§±πŸ”§. With deep expertise and visionary mentorship, he continues to empower future researchers to tackle climate-responsive and energy-efficient building challenges πŸ§‘β€πŸ«πŸŒπŸŒ±.

πŸ”¬ Research Focus

Prof. Targo Kalamees focuses on advancing sustainable and resilient building technologies through research in building physics, particularly hygrothermal performance of envelope structures πŸ§±πŸ’§πŸŒ‘οΈ. His work integrates modelling, lab experiments, and field studies to understand and mitigate heat loss, air leakage, and thermal bridging in buildings πŸ§ͺπŸ”πŸ . He is a pioneer in climate-resilient renovation, promoting indoor comfort, energy efficiency, and the circular economy in construction β™»οΈπŸŒ. His goal is to develop future-proof buildings that withstand evolving climate challenges while supporting low-carbon lifestyles πŸŒ¦οΈπŸ”‹. His research bridges engineering, environmental sustainability, and applied building science πŸ› οΈπŸ“Š.

Publications πŸ“š

Indoor Climate Loads for Dwellings in Different Cold Climates to Assess Hygrothermal Performance of Building Envelopes
Authors: Ilomets, S.; Kalamees, T.; Tariku, F.
Journal: Canadian Journal of Civil Engineering, 2019

Influence of Interior Layer Properties to Moisture Dry-Out of CLT Walls
Authors: Kukk, V.; KΓΌlaots, A.; Kers, J.; Kalamees, T.
Journal: Canadian Journal of Civil Engineering, 2019

Influence of Window Details on the Energy Performance of an nZEB
Authors: Kalbe, K.; Kalamees, T.
Journal: Journal of Sustainable Architecture and Civil Engineering, 2019

Renovation of Apartment Buildings with Prefabricated Modular Panels
Authors: Kuusk, K.; Pihelo, P.; Kalamees, T.
Journal: E3S Web of Conferences, 2019

Summer Thermal Comfort in New and Old Apartment Buildings
Authors: Maivel, M.; Kurnitski, J.; Kalamees, T.
Journal: Windsor Conference Proceedings, 2019

The Effects of Production Technologies on the Air Permeability and Crack Development of Cross-Laminated Timber
Authors: Kukk, V.; Kalamees, T.; Kers, J.
Journal: Journal of Building Physics, 2019

Indoor Hygrothermal Loads for the Deterministic and Stochastic Design of the Building Envelope for Dwellings in Cold Climates
Authors: Ilomets, S.; Kalamees, T.; Vinha, J.
Journal: Journal of Building Physics, 2018

Internal Moisture Excess of Residential Buildings in Finland
Authors: Vinha, J.; Salminen, M.; Salminen, K.; Kalamees, T.; Kurnitski, J.; Kiviste, M.
Journal: Journal of Building Physics, 2018