Jun Liu | Engineering | Best Researcher Award | 13444

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Assoc. Prof. Dr. Jun Liu | Engineering | Best Researcher Award

Assoc. Prof. Dr. Jun Liu, North China University of Water Resources and Electric Power, China

Assoc. Prof. Dr. Jun Liu is an Assistant Professor and Master’s Supervisor in the Department of Thermal Engineering at North China University of Water Resources and Electric Power. He holds a Ph.D. in Engineering Thermophysics from Zhejiang University and specializes in COโ‚‚ capture and utilization, solid waste treatment, multiphase flow and combustion simulation, and pollutant removal technologies. Dr. Liu has led multiple provincial-level research projects and published extensively in SCI and EI-indexed journals. His teaching focuses on boiler principles, operations, and clean combustion technologies.

Profile

Scopus

๐ŸŽ“ Early Academic Pursuits

Assoc. Prof. Dr. Jun Liu began his academic journey with a solid foundation in engineering and technology. In 2005, he enrolled at Shanxi University, where he pursued a Bachelor’s degree in Automation under the Department of Information Engineering. This initial exposure to systems control and engineering principles cultivated his interest in energy systems and laid the groundwork for his future endeavors in thermal engineering and environmental research. In 2009, he took a decisive step toward specializing in energy technologies by pursuing a Master’s degree in Fluid Machinery and Engineering at the School of Electric Power, North China University of Water Resources and Electric Power. Here, he honed his understanding of energy conversion systems, power plant operations, and machinery critical to thermal power generation. His passion for research and academic excellence led him to earn a Ph.D. in Engineering Thermophysics at the prestigious Zhejiang University from 2012 to 2016. This phase of his education sharpened his expertise in combustion processes, thermodynamic systems, and pollutant control, which later became key pillars of his professional and research identity.

๐Ÿ’ผ Professional Endeavors

Following the completion of his doctorate, Dr. Liu began his professional career at the Xiโ€™an Thermal Power Research Institute Co., Ltd., Suzhou Branch in 2016. In this applied research environment, he gained hands-on experience in industrial-scale power systems and thermal processes, translating academic knowledge into practical solutions. In April 2019, Dr. Liu returned to academia, joining the College of Energy and Power Engineering at the North China University of Water Resources and Electric Power as an Assistant Professor and Masterโ€™s Supervisor. His return marked a blend of academic vigor and industrial insight, enriching the university’s teaching and research capabilities.

๐Ÿ”ฌ Contributions and Research Focus

Dr. Liuโ€™s research spans several crucial areas within energy and environmental engineering:

  1. COโ‚‚ Capture and Resource Utilization โ€“ He leads studies on innovative adsorbent materials and absorption technologies aimed at mitigating greenhouse gas emissions.

  2. Solid Waste Treatment โ€“ His work on incinerator systems and waste-to-energy solutions contributes to sustainable waste management practices.

  3. Multiphase Flow and Combustion Simulation โ€“ By modeling combustion processes, he aims to optimize energy efficiency and reduce emissions.

  4. Pollutant Removal โ€“ His research explores integrated technologies for removing NOx, SOx, and other harmful emissions from combustion systems.

He has presided over several key provincial research projects, including studies on COโ‚‚ adsorption kinetics, microencapsulated absorbents, and waste heat boiler performance. His work reflects a deep commitment

๐Ÿ… Accolades and Recognition

to both scientific innovation and environmental sustainability.

Dr. Liu’s contributions have been recognized with several prestigious awards:

  • ๐Ÿฅ‡ First Prize, Boiler Science and Technology Award (2023), for his contributions to power generation technology for large mechanical grates.

  • ๐Ÿฅˆ Second Prize, Henan Provincial Science and Technology Progress Award (2022), for his role in developing low-temperature waste heat recovery systems.

  • ๐Ÿ† First Prize, Excellent Scientific and Technological Paper Award by the Henan Province Office of Education (2021).

These accolades underscore his impactful research and its relevance to both academia and industry.

๐ŸŒ Impact and Influence

Dr. Liu has authored multiple peer-reviewed papers in SCI and EI indexed journals, reflecting the scientific merit and practical application of his research. His publication in Waste Management on flue gas recirculation and NOx emission control is especially noteworthy in the context of sustainable waste-to-energy practices. Moreover, his work influences not only fellow researchers but also policymakers and industry professionals seeking advanced environmental solutions. As a committed educator, he imparts knowledge through courses like Boiler Principle, Boiler Operation, and Clean Combustion and Pollutant Control. His teaching integrates the latest research findings, ensuring that students are prepared for real-world energy challenges.

๐ŸŒฑ Legacy and Future Contributions

Looking ahead, Dr. Liu is poised to continue making substantial contributions to the fields of clean energy and environmental protection. His interdisciplinary approach, combining engineering thermophysics, environmental science, and applied technology, equips him to tackle emerging challenges such as carbon neutrality, smart power systems, and circular economy strategies for waste management. He is also likely to mentor the next generation of researchers, fostering innovation through student supervision, collaborative projects, and academic outreach. As climate concerns and energy demands rise globally, Dr. Liu’s expertise will remain critical in shaping sustainable technological pathways for the future.

๐Ÿ“„ Publication Top Notes

Research Progress on the Occurrence Characteristics of AAEM Elements in Zhundong Coal

Author: W., Wang, Wei, X., Guo, Xinwei, X., Wu, Xiaojiang, … C., Fan, Cunjiang, L., Zhuo, Lanting

Journal: Dongli Gongcheng Xuebao /Journal of Chinese Society of Power Engineering

Year: 2025

The effect of air distribution on the characteristics of waste combustion and NO generation in a grate incinerator

Author: ย J., Liu, Jun, Z., Xie, Zheng, B., Guo, Bingyu, … L., Bai, Li, J., Long, Jisheng

Journal: Journal of the Energy Institute .,

Year: 2024

Dong Wang | Sustainable Materials | Best Researcher Award

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Dr. Dong Wang | Sustainable Materials | Best Researcher Awardย 

Dr. Dong Wang,ย Xi’an university of technology, China

Dr. Dong Wang is a faculty member at Xi’an University of Technology in China. He is involved in research and teaching related to [specific field(s) of research or department]. His work contributes to [mention key areas of focus, e.g., materials science, engineering, environmental technology, etc.]. Dr. Wang is committed to advancing knowledge and innovation in his field through both academic and practical applications.

Profile

Scopus

Early Academic Pursuits ๐ŸŽ“

Dr. Wang’s academic journey began with his deep interest in printing and packaging technology, which led him to pursue a Ph.D. at Xiโ€™an University of Technology. Throughout his educational career, he demonstrated a strong aptitude for interdisciplinary studies, integrating materials science with advanced engineering applications. His doctoral research focused on innovative methods for enhancing the properties of packaging materials through the use of biomimetic composites, laying the foundation for his future work in nanomaterials and flexible electronics.

His fascination with the potential of new materials in real-world applications led him to delve into nanotechnology, a field that would become central to his research career. His passion for research grew as he gained expertise in synthesizing new materials with enhanced functionality, including the development of materials inspired by natureโ€”biomimetic compositesโ€”that could be applied to a wide range of industries, from packaging to electronics. This early immersion in cutting-edge research provided Dr. Wang with a solid foundation to move forward with his career as an independent researcher and academic.

Professional Endeavors ๐Ÿ› ๏ธ

In 2021, Dr. Wang took the position of lecturer at Xi’an University of Technology, marking the beginning of his independent research career. His professional endeavors are characterized by a focus on the development of advanced materials and technologies, particularly those that hold promise for sustainable and intelligent systems.

Dr. Wang’s research interests primarily revolve around the intersection of materials science, electronics, and sustainability. He has made notable strides in the areas of biomimetic composite materials, two-dimensional nanomaterials, flexible electronics technology, and intelligent sensors. These fields are at the forefront of technological advancements, especially in industries that seek to reduce their environmental footprint while improving the functionality of their products.

Contributions and Research Focus ๐Ÿ”ฌ

Dr. Wang has contributed significantly to advancing knowledge in his research areas, publishing papers in some of the most prestigious international journals such as Advanced Materials, Chemical Engineering Journal, Journal of Colloid and Interface Science, and Polymer. His research contributions are instrumental in pushing the boundaries of material science, with a particular focus on improving the performance and functionality of materials used in high-tech industries.

One of his key research focuses is on two-dimensional nanomaterials, which have gained considerable attention due to their unique properties and potential applications in areas like energy storage, sensors, and flexible electronics. His exploration of these materials has opened new avenues for the design of more efficient, sustainable, and versatile materials for a wide range of industries.

 

Accolades and Recognition ๐Ÿ†

Dr. Wang’s contributions to the field have not gone unnoticed. His exceptional work has earned him several prestigious awards, including the Science and Technology Progress Award from Shaanxi Province and the Science and Technology Award of Colleges from Shaanxi Province. These accolades recognize his innovative contributions to the fields of material science and technology, particularly in the development of advanced materials and their applications.

In addition to these awards, Dr. Wang has been entrusted with several key research projects. He has hosted grants from notable national funding bodies, including the National Natural Science Foundation of China, the China Postdoctoral Fund, and the Shaanxi Provincial Science Foundation. These grants are a testament to his research excellence and the high regard in which his work is held within the scientific community.

Impact and Influence ๐ŸŒ

Dr. Wang’s research has a far-reaching impact, especially in industries that prioritize sustainability and technological innovation. His work on biomimetic materials is set to revolutionize packaging technology by offering more eco-friendly alternatives to traditional materials. His research into flexible electronics is particularly important as the world moves toward more integrated, wearable, and adaptable technologies.

Furthermore, his innovations in intelligent sensors could change the way industries monitor and interact with their environments. By developing sensors that can provide real-time, actionable data, Dr. Wang is contributing to the broader goal of creating more intelligent, responsive, and sustainable systems. His research holds great potential for fields as diverse as healthcare, industrial automation, and environmental monitoring.

Legacy and Future Contributions ๐ŸŒฑ

Looking forward, Dr. Wang’s work is poised to leave a lasting legacy in the fields of material science, electronics, and sustainability. His ongoing research into two-dimensional nanomaterials and flexible electronics technology will continue to shape the next generation of advanced materials and devices. As industries increasingly look for more sustainable solutions, his contributions will be critical in meeting the challenges posed by environmental concerns and technological demands.

Publication Top Notes

The Correlations between Microstructures and Color Properties of Nanocrystalline Cellulose: A Concise Review

Author: Zhu, K., Zhou, X., Wang, D., Hu, J., Luo, R.

Journal: Polymers

Year: 2024

Recent Advances in Environment-Friendly Polyurethanes from Polyols Recovered from the Recycling and Renewable Resources: A Review

Author: Pu, M., Fang, C., Zhou, X., Lei, W., Li, L.

Journal: Polymers

Year: 2024

Recent advances in photonic crystal with unique structural colors: A review

Author: Zhu, K., Fang, C., Pu, M., Wang, D., Zhou, X.

Journal: Materials Science and Technology

Year:ย  2023,

 

 

 

 

Hossein Abolghasemzadeh | Environment | Best Researcher Award | 12824

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Mr. Hossein Abolghasemzadeh | Environment | Best Researcher Award

Mr. Hossein Abolghasemzadeh, University of Tehran (UT), Iran

Mr. Hossein Abolghasemzadeh is affiliated with the University of Tehran (UT), Iran. He is involved in research and academic activities at the university, contributing to various projects and initiatives. His expertise and interests include [specify his research area or focus if known, or general academic fields related to his department]. Mr. Abolghasemzadeh plays a significant role in advancing knowledge and fostering innovation within his field at the University of Tehran.

Profile

Google Scholar

๐Ÿ“š Education

ย  ย  ย  B.Sc. in Civil Engineering from Babol Noshirvani University of Technology (NIT) in January 2020, graduating with a GPA of 3.21/4 (15.9/20).

M.Sc. in Environmental Engineering from the University of Tehran in February 2024, GPA of 3.65/4 (16.75/20).

๐Ÿ’ผ Professional Experience

ย  ย  ย In his role with the Iranian Scientific Association of Clean Air, Mr. Abolghasemzadeh develops and produces high-quality scientific content focused on air pollution, energy, climate change, and carbon emissions. He also served as the Executive Assistant for the 10th Conference on Air and Noise Pollution Management in 2023.

Mr. Abolghasemzadeh has gained teaching experience as a Teaching Assistant for the “Climate Change and Meteorology” course at the University of Tehran in 2023 under the supervision of Dr. Mohsen Nasseri, and for the “Design, Construction, and Maintenance of Systems in Civil and Environmental Engineering” course at Babol Noshirvani University of Technology in 2019 under the supervision of Dr. Farhad Qaderi.

๐Ÿ”ฌ Research Focus

  1. Water-Energy Nexus: He has developed a system dynamics model to assess the interplay between water and energy resources, considering regional development programs and climate change impacts. His case study on Isfahan Province aims to evaluate regional greenhouse gas (GHG) emissions, providing insights into sustainable resource management.
  2. Air Pollution and Climate Change: As part of his role with the Iranian Scientific Association of Clean Air, Mr. Abolghasemzadeh focuses on the interconnections between air pollution, energy consumption, and climate change. His work involves producing scientific content and research on reducing carbon emissions and mitigating the effects of air pollution.
  3. Sustainable Civil and Environmental Systems: His background in civil engineering drives his interest in the design, construction, and maintenance of sustainable systems within civil and environmental engineering. His research explores how engineering practices can be optimized to minimize environmental impacts, particularly in the context of urban and regional planning.

๐Ÿ† Award and Honor

ย  ย  ย  ย  ย  Best Paper Award: 10th Conference on Air and Noise Pollution Management (2023)

ย  ย  ย  ย  ย  ย  ย  ย  ย  ย  Paper Title: “Assessing the Effects of Development Policies on the Emission of GHGs in the Industrial Sector viaย  ย  ย  ย  ย  ย  ย  ย  ย  ย  ย  ย  ย  Systemย  Dynamics: A Case Study of Isfahan Province”

ย  ย  ย  ย  ย  Ranked 14th in the National Civil Engineering Olympiad (2020)

ย  ย  ย  ย  ย Full National Scholarship: Awarded after ranking 93rd in the Iranian University Entrance Exam (2021)

โœ๏ธ Publishing Top Notes

  • Best Paper Award: 10th Conference on Air and Noise Pollution Management (2023)
    • Title: “Assessing the Effects of Development Policies on the Emission of GHGs in the Industrial Sector via System Dynamics: A Case Study of Isfahan Province”
    • Summary: This paper presents a system dynamics model to evaluate the impact of development policies on greenhouse gas emissions in Isfahan’s industrial sector, providing insights into sustainable policy-making.
  • Thesis Publication: University of Tehran (2024)
    • Title: “Proposing a System Dynamics Water-Energy Model to Assess Regional GHGs Emission Considering Regional Development Program and Climate Change Effects (Case Study: Isfahan Province)”
    • Summary: This thesis explores the interactions between water and energy systems under the influence of regional development and climate change, using Isfahan Province as a case study to highlight the implications for GHG emissions.
  • Abolghasemzadeh, H., Zekri, E., & Nasseri, M. (2024). Regional-scale energy-water nexus framework
    to assess the GHG emissions under climate change and development scenarios via system dynamics
    approach. Sustainable Cities and Society.

Robert Hahn | Renewable Energy Technologies | Outstanding Scientist Award

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Robert Hahn | Renewable Energy Technologies | Outstanding Scientist Award

Dr Robert Hahn, Fraunhofer IZM, Germany

Dr. Robert Hahn leads the Micro Energy Group at Fraunhofer IZM in Berlin. ๐ŸŽ“ He earned his M.Sc. and Ph.D. in Electrical Engineering from the Technical University of Dresden in 1986 and 1990. Joining Fraunhofer IZM in 1994, he has driven numerous national and European projects on batteries, micro fuel cells, and hydrogen generators. ๐Ÿ”‹ With 30 patents and over 100 publications, his research covers lithium-ion, aluminum-ion, and nickel-zinc batteries, plus hydrogen storage. ๐Ÿš€ He coordinated the FP7 MATFLEXEND project and now leads the BMBF Zn-H2 project, focusing on micro-batteries and hydrogen storage systems. ๐ŸŒŸ

Publication profile

Google scholar

Education

Dr. Robert Hahn is the head of the Micro Energy Group at Fraunhofer IZM in Berlin. He earned his M.Sc. (1986) and Ph.D. (1990) in Electrical Engineering from the Technical University of Dresden. He joined Fraunhofer IZM in 1994.

Teaching & Projects

He lectures on micro energy storage at the Technical University of Berlin. His team is prototyping micro-batteries and demonstrating hydrogen storage systems for industrial applications.

Research focus

Based on the provided publications, this researcherโ€™s focus is on advancing battery technologies and energy systems. Their work spans various types of batteries, including aluminum-graphite and microbatteries, and involves enhancing performance and stability through novel materials and design approaches. Key contributions include developing high-performance aluminum batteries, planar micro fuel cells, and exploring recycling processes for lithium-ion batteries. Their research also addresses energy autonomy in sensor systems and innovations in power supplies. The integration of advanced materials and cutting-edge technologies is central to their work, aiming to improve energy storage and efficiency. ๐Ÿ”‹๐Ÿ”ฌ๐Ÿ”ง

Publication top notes

An overview and future perspectives of aluminum batteries

Development of a planar micro fuel cell with thin film and micro patterning technologies

Planar self-breathing fuel cells

\Insights into the reversibility of aluminum graphite batteries

Closed-loop hydrometallurgical treatment of end-of-life lithium ion batteries: Towards zero-waste process and metal recycling in advanced batteries

Stability of planar PEMFC in printed circuit board technology

Physics with colder molecular ions: the Heidelberg Cryogenic storage ring CSR

Batteries and power supplies for wearable and ubiquitous computing

Polyacrylonitrile separator for high-performance aluminum batteries with improved interface stability

Energy autonomous sensor systems: Towards a ubiquitous sensor technology