Iman Asadi | Engineering | Best Paper Award

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Dr. Iman Asadi | Engineering| Best Paper Award

Dr. Iman Asadi | University for Continuing Education Krems |Austria

Dr. Iman Asadi, Ph.D., is a committed and multifaceted researcher in the built environment and materials science, currently advancing the field as a Senior Postdoctoral Researcher in Austria and a Visiting Researcher in Australia. Rooted in a solid foundation in mechanical engineering, Dr. Asadi has cultivated expertise spanning thermal behavior of cementitious materials, indoor environmental quality, and the integration of sustainable and waste-derived components into construction practices. Driven by a passion for merging experimental rigor with sustainable innovation, Dr. Asadi pursues interdisciplinary projects across continents, contributing to greener building systems through both applied research and scholarly collaboration..

Profile

Googlescholar

Education

Dr. Asadi’s academic trajectory began with a mechanical engineering bachelor’s degree earned at Azad University of Iran, laying a strong technical foundation in thermofluid systems. The pursuit of specialized knowledge continued with a Master of Science in Mechanical Engineering from University Tenaga Nasional in Malaysia, where the focus was on indoor environmental quality consciousness in air-conditioned buildings. Culminating with a Ph.D. in Building Science and Performance from University of Malaya, Dr. Asadi’s doctoral research rigorously evaluated the thermal properties of cementitious mortars incorporating sustainable byproducts, thereby bridging fundamentals of heat transfer with sustainable material development.

Experience

Dr. Asadi’s professional path weaves across academia and applied research. After roles as mechanical designer and research assistant in Iran and Malaysia, he progressed to postdoctoral positions including at the University of Tehran, emphasizing building envelope thermal dynamics and energy modeling. At NTNU in Norway, he explored porosity in cement-based materials via CT scanning and analyzed freeze–thaw durability in sustainable concrete. Since mid-2023, he has served as a Senior Postdoc in Krems, Austria, overseeing projects in manure phosphorus analytics and silicon recovery from photovoltaic panels, and since late 2024, he has expanded his research scope as a Visiting Researcher in Melbourne, Australia, focusing on fire-resistant and phase change materials.

Research Interests

Dr. Asadi’s research lies the thermal characterization and sustainability of cement-based materials, emphasizing the integration of industrial byproducts and PCMs to optimize building performance. His interests include the microscopic and macroscopic porosity of mortars, analyzed through CT-based 3D image processing, as well as heat-transfer phenomena in cementitious media. He is deeply invested in innovating resilient building envelopes, improving indoor environmental quality, and pioneering circular-economy approaches—such as phosphorus recovery and silicon recycling—while advancing methods to assess and enhance material durability, environmental impact, and thermal efficiency.

Awards

Dr. Asadi’s innovative research has been recognized through multiple prestigious accolades. His proposal on geopolymer composites incorporating waste and PCMs earned the European Commission’s Seal of Excellence in consecutive years, underscoring its high scientific and societal merit. Earlier, his inventive work in Malaysia was celebrated with gold awards at both the international research innovation exposition and the invention, design, and innovation competition. Additionally, he was a winner of his university’s three-minute thesis contest and has been supported by national and university-level research grants, including from the National Elites Foundation of Iran and various Malaysian funding bodies.

Publications Top Notes

Thermal conductivity of concrete – A review

Journal: Journal of Building Engineering
Authors: I. Asadi, P. Shafigh, Z.F.B.A. Hassan, N.B. Mahyuddin

Concrete as a thermal mass material for building applications – A review

Journal: Journal of Building Engineering
Authors: P. Shafigh, I. Asadi, N.B. Mahyuddin

Thermal properties of cement mortar with different mix proportions

Journal: Materiales de Construcción
Authors: P. Shafigh, I. Asadi, A.R. Akhiani, N.B. Mahyuddin, M. Hashemi

A review on indoor environmental quality (IEQ) and energy consumption in building based on occupant behavior

Journal: Facilities
Authors: I. Asadi, N. Mahyuddin, P. Shafigh

Drying shrinkage properties of expanded polystyrene (EPS) lightweight aggregate concrete: A review

Journal: Case Studies in Construction Materials
Authors: M. Maghfouri, V. Alimohammadi, R. Gupta, M. Saberian, P. Azarsa

Conclusion

Dr. Iman Asadi exemplifies the modern researcher: globally mobile, deeply interdisciplinary, and observant of both micro-scale physical processes and macro-scale sustainability challenges. With a rich background in mechanical and building sciences, he seamlessly merges experimental materials work—such as thermal testing and CT image-based porosity analysis—with applications ranging from environmental quality improvements to resource-recycling innovations. His recognized achievements, international collaborations, and robust publication record position him as an influential contributor to evolving sustainable and resilient built-environment solutions.

Xueliang wang | Engineering | Best Researcher Award

Published on by Invention Awards

Dr. Xueliang wang | Engineering | Best Researcher Award

Dr. Xueliang wang | NingboTech University | China

Dr. Xueliang Wang is a promising early-career scholar serving as a Lecturer at NingboTech University, affiliated with Zhejiang University. With a solid academic foundation and focused expertise in mechanical engineering and energy systems, he has established himself as a rising leader in the study of dynamic sealing systems for hydrogen fuel cells. He brings a global perspective to his research, having participated in a Joint Ph.D. Training Program at Blekinge Institute of Technology in Sweden. Since joining NingboTech University, Dr. Wang has excelled in both teaching and research, delivering impactful contributions in foil seal dynamics, gas lubrication mechanisms, and mechanical system reliability. His work addresses critical engineering challenges in advancing hydrogen energy technologies. An active member of the Communist Party, Dr. Wang embodies a commitment to public service, academic leadership, and the pursuit of innovative solutions that bridge theoretical research and industrial application.

Profile

Scopus

Education & Professional Experience

Dr. Xueliang Wang earned his Ph.D. in Engineering through a joint program between Blekinge Institute of Technology (BTH), Sweden, and a Chinese institution, gaining valuable international exposure that shaped his research trajectory in high-performance fuel cell sealing systems. He serves as a Lecturer at NingboTech University, affiliated with Zhejiang University, where he teaches core engineering subjects including Engineering Graphics (B), Numerical Computation Methods, and Elastic Mechanics. His responsibilities extend to mentoring student research projects and contributing to institutional development. Dr. Wang has established strong collaborations with industry partners, leading multiple enterprise-funded and government-supported research projects. His work focuses on innovative sealing technologies, dynamic gas lubrication mechanisms, and leakage reduction strategies for advanced hydrogen fuel cell systems. Combining excellence in teaching with impactful applied research, he is recognized as a well-rounded academic who bridges theoretical engineering knowledge with practical, industry-driven innovation.

Research Interests

Dr. Wang’s primary research interest lies in dynamic foil sealing technologies for fuel cell systems, with broader applications in hydrogen-air compressors, marine sealed pumps, and gas film lubrication mechanisms. His work explores interfacial gas lubrication, surface roughness effects, and heterogeneous material compatibility to improve sealing performance under extreme conditions. These studies are critical for advancing the safety, reliability, and efficiency of clean energy technologies, particularly in hydrogen fuel cell systems. He is especially focused on the flow evolution mechanisms and leakage control under dynamic excitation, which are vital for optimizing fuel cell longevity and environmental compliance. His current portfolio includes five funded research projects from provincial and municipal bodies, addressing issues from nonlinear seal dynamics to PTV diaphragm box seals. Through both theoretical modeling and experimental validation, Dr. Wang’s research delivers actionable insights to industry partners and contributes to the advancement of sustainable engineering technologies.

Awards

Dr. Wang has received multiple prestigious awards. Most notably, he earned the First Prize in University Teaching Achievement Awards, showcasing his dual excellence in pedagogy and content delivery. His paper was honored with the Excellent Paper Award at the 14th National Conference on Dry Gas Seals, a notable accolade in the mechanical engineering community that affirms the originality and applicability of his work in foil gas film seals. His selection for multiple provincial-level projects also reflects peer and institutional recognition of his research capability and leadership. Furthermore, his rapid ascent in academia, marked by six published research papers, two patent applications, and several research grants, underscores his status as a rising star in the fields of hydrogen energy and precision mechanical design. These honors highlight both his technical expertise and his contribution to national research priorities.

Publications Top Notes

Title: A Photothermal-Responsive and Glucose-Responsive Antibacterial Hydrogel Featuring Tunable Mechanical Properties
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Authors: Wang Xueliang,

Title: Acoustic Emission Signal Characteristics of Flexible Foil Gas Film Seal Under Actual Surface Conditions
Journal: Tribology Transactions  – EI Indexed
Authors: Wang Xueliang,

Title: Turbulent Characteristics Analysis of Flexible Foil Cylindrical Gas Film Seal Considering Surface Roughness
Journal: CIESC Journal  – EI Indexed
Authors: Wang Xueliang,

Conclusion

Dr. Xueliang Wang’s professional trajectory, marked by a combination of international research exposure, pedagogical excellence, and innovative project execution, makes him a strong candidate for the Best Researcher Award. His contributions to the development of high-efficiency fuel cell seal systems directly support the advancement of sustainable hydrogen energy technologies—an area of global strategic importance. With multiple active research grants, high-quality publications, and recognized teaching success, Dr. Wang exemplifies the qualities of a forward-thinking and impactful researcher. His ability to integrate theory with real-world application, especially through collaborations with industry and government projects, showcases leadership, relevance, and innovation. Recognizing his work with this award will not only honor his achievements but also spotlight an emerging leader dedicated to engineering a cleaner, more efficient energy future.