Abdulhalim Musa Abubakar | Chemical Engineering | Academic Excellence Recognition Award

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Mr. Abdulhalim Musa Abubakar | Chemical Engineering | Academic Excellence Recognition Award

Chemical Engineering at  Modibbo Adama University, Nigeria

Mr. Abdulhalim Musa Abubakar is a dedicated and proactive professional in the field of Chemical Engineering, with a focus on renewable energy, biogas production, chemical reaction engineering, and environmental remediation. He holds both a Master’s and Bachelor’s degree in Chemical Engineering from the University of Maiduguri, where he demonstrated academic excellence. Throughout his career, Mr. Abubakar has gained hands-on experience, working as a plant operator, water quality analyst, and graduate assistant at Modibbo Adama University (MAU), and currently serves as an Assistant Lecturer. He has participated in various workshops, conferences, and seminars, presenting research on topics such as biogas production and microbial growth models. Additionally, he has published several research papers in peer-reviewed journals. Mr. Abubakar is proficient in several technical skills, including computer programming, data science, and web development, and is committed to contributing to the advancement of chemical engineering and environmental sustainability.

Professional Profile 

Education

Mr. Abdulhalim Musa Abubakar has an impressive educational background in Chemical Engineering, which underpins his professional expertise. He completed his Master’s degree in Chemical Engineering at the University of Maiduguri, graduating with an outstanding 4.85 GPA. Prior to this, he earned his Bachelor’s degree in Chemical Engineering from the same institution, with a strong 4.55 GPA. Throughout his academic journey, Mr. Abubakar displayed a strong commitment to his studies, consistently achieving high academic performance. He received his secondary education at Imam Malik Secondary School, where he completed the WAEC, and his primary education at University Primary School, where he obtained his First School Leaving Certificate. Mr. Abubakar’s academic achievements are complemented by numerous professional qualifications, including certificates in computer programming, AutoCAD, project management, data science, and control engineering, reflecting his continuous learning and commitment to enhancing his technical and professional skills.

Professional Experience

Mr. Abdulhalim Musa Abubakar has gained diverse professional experience in the field of Chemical Engineering, with a strong focus on water treatment, environmental sustainability, and academic contributions. He began his career as a Plant Operator during his student internship at Maiduguri Water Treatment Plant, followed by a similar role at Mada Water Works, where he also contributed to water quality analysis. During his National Youth Service Corps (NYSC) year, he worked at Mada Water Works in Nasarawa State. After his NYSC, he transitioned to academia, first as a Graduate Assistant at Modibbo Adama University (MAU), and later as an Assistant Lecturer, where he has been contributing to the development of future engineers. Mr. Abubakar also gained experience as an Enumerator for the Borno Women Development Initiative (BOWDI) and has participated in various workshops and conferences, presenting research on topics like biogas production and microbial growth. His work consistently demonstrates a strong commitment to both professional development and academic excellence.

Research Interest

Mr. Abdulhalim Musa Abubakar’s research interests are centered on various critical areas of Chemical Engineering, with a particular emphasis on renewable energy, environmental sustainability, and water treatment. He has a strong focus on biogas production, exploring ways to enhance energy production through organic waste utilization. His work also delves into chemical reaction engineering, with an interest in optimizing chemical processes to improve efficiency and sustainability. Additionally, Mr. Abubakar is passionate about modeling and simulation, particularly in the context of petroleum refining and environmental remediation, to develop effective strategies for addressing environmental challenges. His research also encompasses water treatment processes, where he seeks to develop innovative solutions for improving water quality and accessibility. Mr. Abubakar’s contributions reflect his dedication to advancing knowledge in these fields, aiming to create sustainable, practical solutions that can positively impact both local communities and the global environment.

Award and Honor

Mr. Abdulhalim Musa Abubakar has been recognized for his outstanding contributions to academia and the field of Chemical Engineering through several awards and honors. Notably, he received a Certificate of Service as a Voluntary Tutorial Coordinator from the Nigerian Society of Chemical Engineers (NSChE) UNIMAID Student Chapter in 2018, highlighting his dedication to teaching and mentorship. He also earned a Certificate of Service for his role as a Voluntary Tutor at the Faculty of Engineering, MSSN, UNIMAID Branch during the 2017/2018 session. These awards acknowledge his commitment to supporting students and contributing to the academic community. Furthermore, Mr. Abubakar has participated in numerous workshops, conferences, and seminars, where he presented his research and gained further recognition for his work in biogas production, water treatment, and environmental sustainability. These honors reflect his continuous pursuit of excellence in both his academic endeavors and professional development.

Conclusion

Abdulhalim Musa Abubakar demonstrates a strong foundation in chemical engineering and academic research, with notable contributions in renewable energy, programming, and environmental remediation. His technical expertise, combined with active engagement in conferences and mentorship roles, makes him a promising candidate for the Academic Excellence Recognition Award. However, further focus on impactful research, leadership, and international collaboration would elevate his candidacy to a more competitive level.

This individual is highly suitable for the award, with room for growth in areas that align with the goals of fostering academic excellence.

Publications Top Noted

  • Title: Control for hydrogen recovery in pressuring swing adsorption system modeling
    Authors: AI Zannah, S Rachakonda, AM Abubakar, S Devkota, EC Nneka
    Year: 2023
    Citations: 42
  • Title: An overview on deep learning application of big data
    Authors: R Abada, AM Abubakar, MT Bilal
    Year: 2022
    Citations: 14
  • Title: Refinery Off-Gas as Feed to a Hydrogen Production Facility: Performance Lifting of the Steam Reforming Technique
    Authors: AI Zannah, I Ferhoune, AM Abubakar, AM Al-Khudafi, AA Bitrus, …
    Year: 2024
    Citations: 13
  • Title: Estimation of biogas potential of liquid manure from kinetic models at different temperature
    Authors: AM Abubakar, LB Umdagas, AY Waziri
    Year: 2022
    Citations: 13
  • Title: An elaborate breakdown of the essentials of biogas production
    Authors: AM Abubakar, K Silas, MM Aji
    Year: 2022
    Citations: 12
  • Title: Biodigester and feedstock type: characteristic, selection, and global biogas production
    Authors: AM Abubakar
    Year: 2022
    Citations: 10
  • Title: Neural network-based performance evaluation of a waterflooded oil reservoir
    Authors: MM Kida, ZM Sarkinbaka, AM Abubakar, AZ Abdul
    Year: 2021
    Citations: 10
  • Title: Reporting biogas data from various feedstock
    Authors: AM Abubakar, MU Yunus
    Year: 2021
    Citations: 10
  • Title: Soil Washing to Eliminate Polycyclic Aromatic Hydrocarbons from Petroleum Contaminated Soil-Temperature Effect
    Authors: D Muhammad, BG Mustafa, AM Abubakar, AI Jellah, AM Al-Khudafi, …
    Year: 2023
    Citations: 8
  • Title: Analysis of Microbial Growth Models for Microorganisms in Chicken Manure Digester
    Authors: AM Abubakar, Z Soltanifar, Y Luka, EW Udoh, M Hamadou
    Year: 2021
    Citations: 8
  • Title: Ways of thinking 3D geometry: exploratory case study in junior high school students
    Authors: S Sudirman, CA Rodríguez-Nieto, ZB Dhlamini, AS Chauhan, U Baltaeva, …
    Year: 2023
    Citations: 7
  • Title: Newton’s method cubic equation of state C++ source code for iterative volume computation
    Authors: AM Abubakar, AA Mustapha
    Year: 2021
    Citations: 7

Haojie Li | Chemical Process | Best Researcher Award

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Assoc. Prof. Dr.Haojie Li | Chemical Process | Best Researcher Award 

Associate Professor at Shihezi University, China

Haojie Li is an Associate Professor at Shihezi University, specializing in Chemical Engineering with a focus on multiphase process intensification, carbon capture, heat transfer, and mass transfer. Over the course of his career, Li has made significant contributions to energy, chemical industries, and environmental research, leading several projects in these areas. His expertise is evident in the development of novel technologies for CO2 capture, heat exchangers, and thermosyphon systems. Li has published 15 high-level papers and holds multiple patents, with numerous national and international collaborations. His work has earned him prestigious awards, such as first prizes for teaching and research achievements, reflecting his prominence in the academic and professional chemical engineering community.

Professional Profile

Education

Haojie Li completed his Bachelor’s degree in Chemical Engineering at Shandong University of Technology in 2014. He further pursued a Doctorate in Chemical Engineering at Tianjin University, graduating in 2022. Throughout his education, Li focused on advanced chemical process technologies, gaining deep expertise in process intensification, heat and mass transfer, and computational fluid dynamics. His doctoral research was aimed at enhancing energy efficiency and environmental sustainability through innovative engineering solutions. Li’s educational background laid a strong foundation for his career, combining both theoretical knowledge and practical application. His studies provided him with the skills to tackle complex industrial problems and laid the groundwork for his subsequent achievements in both academia and industry.

Experience

Haojie Li’s academic career began in 2022 at Shihezi University, where he was appointed as a Lecturer in the School of Chemistry and Chemical Engineering. In 2023, he was promoted to Associate Professor. Li is also a master’s tutor and the leader of the Innovation Team for Chemical Process Intensification. He has presided over more than 10 research projects at national, provincial, and university levels. Li’s research has been instrumental in advancing chemical process technologies, particularly in energy and environmental sectors. Before his tenure at Shihezi University, he conducted pioneering research during his doctoral studies at Tianjin University, where he developed novel heat transfer and CO2 capture technologies. Throughout his career, Li has maintained close collaborations with various scientific and industrial communities, furthering his influence in the chemical engineering field. His experience spans both fundamental research and applied technology development, demonstrating his expertise and leadership.

Research Focus

Haojie Li’s research focuses on the development and application of chemical process intensification technologies, particularly in energy, chemical industries, and environmental protection. His expertise includes multiphase flow, CO2 capture, heat transfer, and mass transfer, with a particular emphasis on improving energy efficiency and reducing environmental impacts. Li’s work in carbon capture, utilization, and storage (CCUS) aims to address global challenges related to climate change and energy consumption. His research also includes the design of advanced heat exchangers and thermosyphons to optimize energy use and enhance thermal performance. Li is also dedicated to computational fluid dynamics (CFD), which he uses to simulate and improve the efficiency of chemical processes. His contributions provide solutions to both fundamental scientific questions and practical industrial applications. Overall, his research holds significant promise for driving forward sustainable chemical technologies and improving the efficiency of energy-intensive industries.

Awards and Honors

Haojie Li has received numerous accolades for his research contributions and teaching excellence. He was recognized as one of the “Tianchi Talents – Young Doctor” of Xinjiang and awarded high-level talent status by Shihezi City. In addition, he has been honored with multiple prestigious awards, including two first prizes for Teaching and Research Achievement Awards from the Ministry of Education, which highlight his exceptional contributions to academia and the chemical engineering field. Li has also won a second prize for Basic Research Achievement from the Chemical Engineering Society of China, underscoring the impact of his work. These awards reflect his outstanding research performance, leadership in scientific innovation, and commitment to education. Li’s ability to balance research with academic development has solidified his reputation as a leading figure in his field, ensuring his place among the most promising young researchers in China.

Conclusion

Haojie Li is undoubtedly a highly deserving candidate for the Best Researcher Award. His pioneering research, leadership in the chemical engineering community, and significant contributions to energy and environmental technologies make him a standout researcher. While there are opportunities for growth in terms of broader collaborations and public outreach, his academic and professional achievements provide a strong foundation for recognition. Li’s work not only pushes the boundaries of chemical engineering but also holds the potential for transformative societal and industrial applications, making him an ideal candidate for this prestigious award.

Publications Top Noted

Constructing CO2 capture nanotraps via tentacle-like covalent organic frameworks towards efficient CO2 separation in mixed matrix membrane”

Authors: Liang, C., Li, K., Chen, T., Li, H., Li, X.

Citations: 0

Year: 2025

“Customized Heteronuclear Dual Single-Atom and Cluster Assemblies via D-Band Orchestration for Oxygen Reduction Reaction”

Authors: Li, J., Jiang, B., Yang, L., Zhang, L., Chen, Z.

Citations: 0

Year: 2024

“The structure-effect relationship between inline high shear mixers and micromixing: Experiment and CFD simulation”

Authors: Guo, J., Liu, Y., Shan, G., Wu, J., Zhang, J.

Citations: 8

Year: 2023

“Surface reconstruction enables outstanding performance of Fe2O3/Ni(OH)2 nanosheet arrays for ultrahigh current density oxygen evolution reaction”

Authors: Kong, A., Zhang, H., Sun, Y., Li, W., Zhang, J.

Citations: 11

Year: 2023

“Effects of stator and rotor geometry on inline high shear mixers: Residence time distribution, flow, and energy consumption”

Authors: Guo, J., Liu, Y., Zhao, S., Wu, J., Zhang, J.

Citations: 7

Year: 2023

“Effect of inclination angle on the thermal performance of a three-phase closed thermosyphon containing SiC particles”

Authors: Jiang, F., Lin, Y., Liu, Y., Ma, Y., Li, X.

Citations: 5

Year: 2022

“Investigation of thermohydraulic characteristics of a novel triple concentric pipe minichannel heat exchanger”

Authors: Li, H., Wang, Y., Li, W., Zhang, M., Jiang, F.

Citations: 1

Year: 2022

“A comprehensive review of heat transfer enhancement and flow characteristics in the concentric pipe heat exchanger”

Authors: Li, H., Wang, Y., Han, Y., Zhang, M., Jiang, F.

Citations: 33

Year: 2022

“Investigation and estimation on deagglomeration of nanoparticle clusters in teethed in-line high shear mixers”

Authors: Liu, Y., Guo, J., Zhao, S., Zhou, M., Zhang, J.

Citations: 15

Year: 2021

“Investigation of the heat transfer characteristics of a novel thermosyphon with different particle sizes”

Authors: Li, H., Jiang, F., Qi, G., Li, X.

Citations: 4

Year: 2021

 

 

Xili Cui | Chemical Engineering | Best Researcher Award

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Prof. Dr. Xili Cui | Chemical Engineering | Best Researcher Award

Deputy Director of Engineering Research Center of Functional Materials Intelligent Manufacturing of Zhejiang Province at Zhejiang University, China

Dr. Xili Cui is a distinguished researcher in the College of Chemical and Biological Engineering at Zhejiang University, recognized for her contributions to high-purity chemical separation and purification. A part of Zhejiang University’s “Hundred Talent Program,” she has received prestigious awards, including the National Science Foundation for Excellent Young Scholars and Zhejiang’s Distinguished Young Scholars. Dr. Cui’s work focuses on the “molecular recognition mechanism” to enhance separation processes, notably achieving breakthroughs in electronic-grade chemical separation. Her innovative methods, such as using anion-pillared porous materials for selective removal of gases, address critical industrial needs. She has published over 60 research papers in high-impact journals, including Science and Nature Communications, and holds 12 patents. Her accomplishments have earned her national awards like the First Prize in Natural Science from the Ministry of Education, making her a leading figure in chemical engineering and materials science.

Professional profile

Education📚

Dr. Xili Cui has a robust academic background in chemical engineering, beginning with a Bachelor’s degree in Applied Chemistry from Qufu Normal University in 2010. She then pursued a Master’s degree in Chemical Technology at Tianjin University, working under the guidance of Professor Shaokun Tang, and graduated in 2013. Dr. Cui continued her studies at Zhejiang University, where she earned her Ph.D. in Chemical Engineering and Technology in 2016, supervised by Professor Huabin Xing. Following her doctoral studies, she expanded her expertise internationally as a Postdoctoral Research Associate at the University of South Florida’s Department of Chemistry, working with Professor Shengqian Ma from 2018 to 2019. Her education laid a solid foundation for her research in high-purity chemical separation, ultimately leading to her current role as a Researcher in Zhejiang University’s “Hundred Talent Program.” This extensive education has driven her contributions to advanced material synthesis and separation technology.

Professional Experience🏛️

Dr. Xili Cui is a distinguished researcher at Zhejiang University, where she holds a position in the “Hundred Talent Program” within the College of Chemical and Biological Engineering. Her career began at Zhejiang University as a Research Assistant following her Ph.D. completion in 2016. In 2018, she broadened her research experience internationally, working as a Postdoctoral Research Associate in the Department of Chemistry at the University of South Florida with Professor Shengqian Ma. In 2019, she returned to Zhejiang University as a full-time researcher in the prestigious “Hundred Talent Program.” Her work focuses on the selective separation and purification of high-purity chemicals, with notable contributions to the molecular recognition mechanism and process enhancements for electronic and polymer-grade materials. In addition to her research roles, Dr. Cui has led major projects, including the National Key R&D Program of China, and collaborates closely with industry, securing substantial funding for innovative research projects.

🔬 Research Interest

Dr. Xili Cui’s research centers on the separation and purification of high-purity chemicals, with a specific focus on advancing molecular recognition mechanisms and enhancing separation processes. Her work addresses critical national needs for electronic and polymer-grade chemicals, where she has pioneered methods for selectively removing impurities from complex chemical mixtures. Dr. Cui’s innovative approaches include the design and synthesis of porous adsorbents with high anion density and precise pore size control, enabling efficient removal of acidic gases like sulfur dioxide and separation of olefins and alkynes. These technologies support the production of high-purity materials, particularly electronic-grade propylene and specialized fluorinated compounds for advanced manufacturing. Her research not only pushes the boundaries of chemical engineering but also contributes to sustainable practices by creating more efficient and selective separation processes, thus reducing waste and energy consumption in industrial applications.

🏆Awards and Honors

Dr. Xili Cui has earned numerous prestigious awards and honors recognizing her groundbreaking work in chemical engineering and her contributions to high-purity chemical separation technology. Among her notable accolades are the National Science Foundation for Excellent Young Scholars (2021) and the Zhejiang Provincial Distinguished Young Scholars Foundation (2019). In 2022, she received the First Prize in Natural Science from the Ministry of Education, affirming her research’s high impact on the field. Dr. Cui has also been recognized with the Hou Debang Chemical Science and Technology Award for young scientists and the CPCIF-Clariant Youth Innovation Award for Sustainable Development. Her achievements include the Ionic Liquids and Green Processes Youth Innovation Award and the Excellent Doctoral Dissertation Award in Zhejiang Province. Additionally, her work on acetylene capture and chemical separations earned her a spot in China’s “100 Most Influential Academic Papers” list, underscoring her role as a leading innovator in sustainable chemical engineering.

Conclusion

Dr. Xili Cui is a highly qualified candidate for the Best Researcher Award due to her extensive contributions to chemical engineering, especially in high-purity materials. Her record of publication, patents, and funded projects demonstrates strong research capabilities, while her leadership in the field of chemical separation and recognition as a young innovator further solidify her candidacy. With minor enhancements in global collaboration and interdisciplinary research, Dr. Cui would not only continue her impactful work but also potentially elevate her standing on an international scale.

Publications top noted📜

  • Qi, H.-O., Lu, M., Qi, S.-C., Liu, X.-Q., Sun, L.-B.
    Year: 2025
    Title: Indolo[3,2-b]carbazole-based Hyper-Crosslinked Organic Polymers for Adsorptive Separation of C3H6/C2H4
    Journal: Separation and Purification Technology, Volume: 353, Article ID: 128349
    Citations: 0
  • Chen, H., Jiang, X., Wang, B., Li, J., Li, L.
    Year: 2025
    Title: Decoding the Zeolite Cage Effect in One-Step Ethylene Purification from CO2/C2H2/C2H4 Mixtures
    Journal: Chemical Engineering Science, Volume: 301, Article ID: 120729
    Citations: 0
  • Wang, Q., Yang, L., Ke, T., Cui, X., Xing, H.
    Year: 2024
    Title: Selective Sorting of Hexane Isomers by Anion-Functionalized Metal-Organic Frameworks with Optimal Energy Regulation
    Journal: Nature Communications, Volume: 15(1), Article ID: 2620
    Citations: 7
  • Pan, H., Zhao, J., Yang, L., Cui, X., Xing, H.
    Year: 2024
    Title: Modulating Pore Microenvironment in a Robust Ionic Porous Polymer for Efficient Propyne/Propylene Separation
    Journal: Chemical Engineering Science, Volume: 298, Article ID: 120413
    Citations: 0
  • Chen, S., Huang, S., Yang, Z., Xing, H., Cui, X.
    Year: 2024
    Title: Precise Construction of Nitrogen-Enriched Porous Ionic Polymers as Highly Efficient Sulfur Dioxide Adsorbent
    Journal: Small, Volume: 20(35), Article ID: 2400746
    Citations: 1
  • Cui, J., Qiu, Z., Yang, Z., Yang, L., Xing, H.
    Year: 2024
    Title: One-Step Butadiene Purification in a Sulfonate-Functionalized Metal–Organic Framework through Synergistic Separation Mechanism
    Journal: Angewandte Chemie – International Edition, Volume: 63(23), Article ID: e202403345
    Citations: 3
  • Zhang, P., Yin, P., Yang, L., Xing, H., Suo, X.
    Year: 2024
    Title: Recent Advances and Challenges in Ionic Materials for Post-Combustion Carbon Capture
    Journal: Carbon Capture Science and Technology, Volume: 11, Article ID: 100180
    Citations: 0
  • Guo, Z., Yang, L., Li, Y., Cui, X., Xing, H.
    Year: 2024
    Title: Pore-Environment Engineering of Pillared Metal-Organic Frameworks for Boosting the Removal of Acetylene from Ethylene
    Journal: Industrial and Engineering Chemistry Research, Volume: 63(19), Pages: 8751–8760
    Citations: 3
  • Zhang, W., Tang, R., Cui, X., Xing, H.
    Year: 2024
    Title: Fluorine Spectrum Analysis and Structural Characterization of Y-Type Perfluoropolyether Carboxylic Acid
    Journal: Huagong Xuebao/CIESC Journal, Volume: 75(4), Pages: 1718–1723
    Citations: 0
  • Qiu, Z., Cui, J., Yang, L., Cui, X., Xing, H.
    Year: 2024
    Title: Sulfonate Functional Ultramicroporous Materials with Suitable Pore Size and Layer-Stacked Structure for C4 Olefins Purification
    Journal: Journal of the American Chemical Society, Volume: 146(14), Pages: 9939–9946
    Citations: 3

Zhiwei Yao | Chemical Engineering | Best Researcher Award

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Prof Dr. Zhiwei Yao | Chemical Engineering | Best Researcher Award

Professor at Liaoning Petrochemical University, China

Adhitiyan Tamilarasan is a passionate and dynamic Chemical Engineering professional with a strong academic foundation and a deep interest in research. Currently pursuing a Master’s degree at the Indian Institute of Technology, Tirupati, he has consistently demonstrated excellence in both academics and project work. His diverse experience ranges from molecular dynamics simulations to advanced projects on water treatment, biofuel production, and nanomaterials for medical applications. Adhitiyan’s commitment to learning, coupled with his creativity and curiosity, drives his pursuit of innovative solutions in chemical engineering. 🌟🔬 His proactive approach to internships, training, and research collaborations highlights his determination to make meaningful contributions to the field. Adhitiyan is an avid learner with expertise in simulation software and programming languages, and his collaborative skills make him an invaluable team player in any research or professional setting. 🚀📚

Professional profile

  • Scopus Profile
  • ORCID Profile
Education📚

Adhitiyan Tamilarasan’s educational journey reflects his dedication to academic excellence and passion for Chemical Engineering. He is currently pursuing a Master of Technology in Chemical Engineering at the prestigious Indian Institute of Technology, Tirupati, where he holds an impressive CGPA of 9.81. Prior to this, Adhitiyan graduated with a Bachelor of Technology in Chemical Engineering from Arunai Engineering College, Tiruvannamalai, where he earned the Gold Medal for outstanding performance, maintaining a CGPA of 9.60. 🏅📘 His solid academic foundation was built during his school years at Seventh Day Adventist Matriculation Higher Secondary School, where he scored 91.67% in his intermediate Bio-Maths studies and 96.80% in matriculation. Adhitiyan’s continuous pursuit of learning through certifications in MATLAB, Aspen Plus Simulation, and Machine Learning demonstrates his commitment to enhancing his technical skills and staying at the forefront of modern engineering advancements. 💻🔧

Professional Experience🏛️

Adhitiyan Tamilarasan has gained valuable professional experience through various internships and research training programs. He completed a two-month summer research internship in Molecular Dynamics Simulation at IIT Guwahati, under the guidance of Prof. Tamal Banerjee, where he explored advanced simulation techniques. 🧑‍🔬 During his internship with NoobTron Pvt. Ltd., Adhitiyan contributed to a project reviewing the chemical catalytic reaction in biodiesel extraction. Additionally, he completed in-plant training at Cetex Petrochemicals Ltd., focusing on process instrumentation, safety, and control systems, gaining hands-on experience in the petrochemical industry. 🛢️ His internship at DFA Pharma India Pvt. Ltd. further enhanced his practical knowledge in the pharmaceutical field. These diverse experiences have equipped Adhitiyan with a well-rounded understanding of chemical engineering applications, including renewable energy, biodiesel production, and industrial water treatment. His exposure to research and development has strengthened his problem-solving abilities and collaborative skills. ⚙️🌍

🔬 Research Interest

Adhitiyan Tamilarasan’s research interests lie at the intersection of chemical engineering, nanotechnology, and sustainability. He is deeply engaged in studying molecular dynamics simulations for carbon dioxide adsorption, aiming to develop efficient deep eutectic solvents for CO2 capture. 🌱💧 His passion for environmental sustainability is reflected in his projects on bioethanol production from brown algae and the development of advanced membrane systems for zero liquid discharge effluent treatment. Adhitiyan also explores the biomedical applications of nanotechnology, particularly in the biogenesis of Ag- and Zn-doped nanohydroxyapatite for antimicrobial uses in bone tissue engineering. 🔬 His work on green synthesis of nanoparticles for photocatalytic degradation of industrial dyes showcases his dedication to developing eco-friendly solutions for water treatment. With a keen interest in renewable energy, water purification, and nanomaterials, Adhitiyan aspires to contribute to the advancement of sustainable technologies. 🌿🔧

🏆Awards and Honors

Adhitiyan Tamilarasan has earned several prestigious awards and accolades throughout his academic and research journey. He was awarded the esteemed DAAD Scholarship under the KOSPIE program for studying and researching as an exchange student at the Technical University of Munich, Germany. 🌍🎓 His academic excellence was further recognized when he won the Gold Medal for his exceptional performance during his undergraduate studies at Arunai Engineering College. He also secured 1st place in a national essay contest on renewable energy and electric vehicles, organized by the National Institute of Wind Energy and the Ministry of New and Renewable Energy, India. 🏆🌿 Adhitiyan’s research work has been equally distinguished, as he received the Best Paper Award at the National Conference on Sustainable Technologies in Chemical-Biological Systems (STCBS-2023) for his innovative work on nanohydroxyapatite for medical applications. These achievements underscore his commitment to excellence in both academia and research. 🌟📜

Conclusion

Adhitiyan Tamilarasan is a highly promising candidate for the Best Researcher Award, with significant academic achievements, strong research background, and relevant technical skills. His projects tackle critical global challenges like CO2 capture, water treatment, bioethanol production, and waste management, making his work impactful. While there are areas where he could expand, such as further specialization, international collaborations, and more high-impact publications, his overall profile demonstrates substantial potential as a researcher who can contribute to addressing environmental and energy-related challenges. Therefore, he is a suitable candidate for the award.

Publications top noted📜
  • Ecological and Economic Impacts on Biofuel Production 🌱🌍

Authors: S. Sivarathnakumar, T. Adhitiyan, S. Gubendhiran, R. Praveenkumar
Published in: International Conference on Advances and Innovations in Recycling
Cited by: 1
Year: 2021

  • Green Synthesized Silver and Zinc Doped Hydroxyapatite Photocatalysts to Remove Methylene Blue and Rhodamine B Dyes from Industrial Wastewater 🧪💧

Authors: T. Adhitiyan, K. Dhanaraj, S. Gubendhiran, G. Suresh, E. Thenpandiyan
Published in: Chemical Physics Impact
Cited by: —
Year: 2024

  • Cardiospermum Halicacabum Leaf Extract Assisted Ag and Zn Doped Biocompatible Nanohydroxyapatite Photocatalyst for Efficient Dye Degradation from Wastewater 🌿🔬

Authors: K. Dhanaraj, T. Adhitiyan, S. Gubendhiran, E. Thenpandiyan, P. Ilaiyaraja
Published in: Materials Science and Engineering: B
Cited by: —
Year: 2024

  • Ecological and Economic Impacts on Biofuel Production 🌱⚡

Authors: S. Sivarathnakumar, T. Adhitiyan, S. Gubendhiran, R. Praveenkumar
Published in: Advances in Waste Management: Proceedings of the International Conference on…
Cited by: —
Year: 2023

Adhitiyan Tamilarasan | Chemical Engineering | Best Researcher Award

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Mr. Adhitiyan Tamilarasan | Chemical Engineering | Best Researcher Award

Masters in Chemical Engineering at Indian Institute of Technology, Tirupati, India

Adhitiyan Tamilarasan is a passionate and dynamic Chemical Engineering professional with a strong academic foundation and a deep interest in research. Currently pursuing a Master’s degree at the Indian Institute of Technology, Tirupati, he has consistently demonstrated excellence in both academics and project work. His diverse experience ranges from molecular dynamics simulations to advanced projects on water treatment, biofuel production, and nanomaterials for medical applications. Adhitiyan’s commitment to learning, coupled with his creativity and curiosity, drives his pursuit of innovative solutions in chemical engineering. 🌟🔬 His proactive approach to internships, training, and research collaborations highlights his determination to make meaningful contributions to the field. Adhitiyan is an avid learner with expertise in simulation software and programming languages, and his collaborative skills make him an invaluable team player in any research or professional setting. 🚀📚

Professional profile

Education📚

Adhitiyan Tamilarasan’s educational journey reflects his dedication to academic excellence and passion for Chemical Engineering. He is currently pursuing a Master of Technology in Chemical Engineering at the prestigious Indian Institute of Technology, Tirupati, where he holds an impressive CGPA of 9.81. Prior to this, Adhitiyan graduated with a Bachelor of Technology in Chemical Engineering from Arunai Engineering College, Tiruvannamalai, where he earned the Gold Medal for outstanding performance, maintaining a CGPA of 9.60. 🏅📘 His solid academic foundation was built during his school years at Seventh Day Adventist Matriculation Higher Secondary School, where he scored 91.67% in his intermediate Bio-Maths studies and 96.80% in matriculation. Adhitiyan’s continuous pursuit of learning through certifications in MATLAB, Aspen Plus Simulation, and Machine Learning demonstrates his commitment to enhancing his technical skills and staying at the forefront of modern engineering advancements. 💻🔧

Professional Experience🏛️

Adhitiyan Tamilarasan has gained valuable professional experience through various internships and research training programs. He completed a two-month summer research internship in Molecular Dynamics Simulation at IIT Guwahati, under the guidance of Prof. Tamal Banerjee, where he explored advanced simulation techniques. 🧑‍🔬 During his internship with NoobTron Pvt. Ltd., Adhitiyan contributed to a project reviewing the chemical catalytic reaction in biodiesel extraction. Additionally, he completed in-plant training at Cetex Petrochemicals Ltd., focusing on process instrumentation, safety, and control systems, gaining hands-on experience in the petrochemical industry. 🛢️ His internship at DFA Pharma India Pvt. Ltd. further enhanced his practical knowledge in the pharmaceutical field. These diverse experiences have equipped Adhitiyan with a well-rounded understanding of chemical engineering applications, including renewable energy, biodiesel production, and industrial water treatment. His exposure to research and development has strengthened his problem-solving abilities and collaborative skills. ⚙️🌍

🔬 Research Interest

Adhitiyan Tamilarasan’s research interests lie at the intersection of chemical engineering, nanotechnology, and sustainability. He is deeply engaged in studying molecular dynamics simulations for carbon dioxide adsorption, aiming to develop efficient deep eutectic solvents for CO2 capture. 🌱💧 His passion for environmental sustainability is reflected in his projects on bioethanol production from brown algae and the development of advanced membrane systems for zero liquid discharge effluent treatment. Adhitiyan also explores the biomedical applications of nanotechnology, particularly in the biogenesis of Ag- and Zn-doped nanohydroxyapatite for antimicrobial uses in bone tissue engineering. 🔬 His work on green synthesis of nanoparticles for photocatalytic degradation of industrial dyes showcases his dedication to developing eco-friendly solutions for water treatment. With a keen interest in renewable energy, water purification, and nanomaterials, Adhitiyan aspires to contribute to the advancement of sustainable technologies. 🌿🔧

🏆Awards and Honors

Adhitiyan Tamilarasan has earned several prestigious awards and accolades throughout his academic and research journey. He was awarded the esteemed DAAD Scholarship under the KOSPIE program for studying and researching as an exchange student at the Technical University of Munich, Germany. 🌍🎓 His academic excellence was further recognized when he won the Gold Medal for his exceptional performance during his undergraduate studies at Arunai Engineering College. He also secured 1st place in a national essay contest on renewable energy and electric vehicles, organized by the National Institute of Wind Energy and the Ministry of New and Renewable Energy, India. 🏆🌿 Adhitiyan’s research work has been equally distinguished, as he received the Best Paper Award at the National Conference on Sustainable Technologies in Chemical-Biological Systems (STCBS-2023) for his innovative work on nanohydroxyapatite for medical applications. These achievements underscore his commitment to excellence in both academia and research. 🌟📜

Conclusion

Adhitiyan Tamilarasan is a highly promising candidate for the Best Researcher Award, with significant academic achievements, strong research background, and relevant technical skills. His projects tackle critical global challenges like CO2 capture, water treatment, bioethanol production, and waste management, making his work impactful. While there are areas where he could expand, such as further specialization, international collaborations, and more high-impact publications, his overall profile demonstrates substantial potential as a researcher who can contribute to addressing environmental and energy-related challenges. Therefore, he is a suitable candidate for the award.

Publications top noted📜
  • Ecological and Economic Impacts on Biofuel Production 🌱🌍

Authors: S. Sivarathnakumar, T. Adhitiyan, S. Gubendhiran, R. Praveenkumar
Published in: International Conference on Advances and Innovations in Recycling
Cited by: 1
Year: 2021

  • Green Synthesized Silver and Zinc Doped Hydroxyapatite Photocatalysts to Remove Methylene Blue and Rhodamine B Dyes from Industrial Wastewater 🧪💧

Authors: T. Adhitiyan, K. Dhanaraj, S. Gubendhiran, G. Suresh, E. Thenpandiyan
Published in: Chemical Physics Impact
Cited by: —
Year: 2024

  • Cardiospermum Halicacabum Leaf Extract Assisted Ag and Zn Doped Biocompatible Nanohydroxyapatite Photocatalyst for Efficient Dye Degradation from Wastewater 🌿🔬

Authors: K. Dhanaraj, T. Adhitiyan, S. Gubendhiran, E. Thenpandiyan, P. Ilaiyaraja
Published in: Materials Science and Engineering: B
Cited by: —
Year: 2024

  • Ecological and Economic Impacts on Biofuel Production 🌱⚡

Authors: S. Sivarathnakumar, T. Adhitiyan, S. Gubendhiran, R. Praveenkumar
Published in: Advances in Waste Management: Proceedings of the International Conference on…
Cited by: —
Year: 2023

Ming Xia | Chemical Engineering | Best Researcher Award

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Dr. Ming Xia | Chemical Engineering | Best Researcher Award

Prof. at Nanjing Tech University, China

Ming Xia is a distinguished professor of Chemical Engineering at Nanjing Tech University, specializing in Green Intelligent Chemical Product Development and Environmental Protection. His career is marked by impactful contributions to catalytic reaction engineering, industrial catalysis, and process systems engineering. With over a decade of academic and industrial experience, Ming has established himself as a leader in innovative technologies for sustainable processes. His achievements include scaling up industrial demonstration equipment for Fischer-Tropsch synthesis and advancing green chemistry methods for CO2 conversion. Ming’s prolific research output includes publications in top-tier journals and multiple China Patents, highlighting his role in bridging the gap between fundamental research and practical industrial applications. 🌱🧪 His research is focused on developing cleaner, greener chemical processes and is recognized for its sustainability-driven solutions.

Professional profile

Education📚

Ming Xia’s academic journey began with a Bachelor’s degree in Chemical Engineering & Technology from Zhengzhou University (2005-2009), where he laid the foundation for his passion for sustainable chemical processes. He further honed his expertise by pursuing a Ph.D. in Chemical Engineering at Tianjin University (2009-2014). His doctoral studies focused on catalytic reaction engineering and industrial catalysis, setting the stage for his future work in developing greener chemical production methods. 🎓📘 Ming’s pursuit of knowledge didn’t stop there; he continued his postdoctoral research at the Institute of Coal Chemistry, CAS-Lutianhua Group Corporation (2018-2021). This period of study was key to his innovations in process systems engineering and novel reactors for sustainable chemical processes. His academic background provides a solid foundation for his impressive research career.

Professional Experience🏛️

Ming Xia has a rich professional background in both academia and industry. He began as a professor at the Institute of Coal Chemistry, CAS (2014-2022), where he led key projects on CO2 to dimethyl carbonate conversion, acetate to ethanol, and other sustainable chemical processes. During his time there, he played an instrumental role in scaling up Fischer-Tropsch synthesis technologies. In 2022, Ming joined Nanjing Tech University as a professor in Chemical Engineering, continuing his pioneering work in green and intelligent chemical processes. 🏢🧑‍🏫 His hands-on involvement in industrial projects, coupled with academic leadership, underscores his dual commitment to research and practical application. Additionally, his role in obtaining patents and developing novel reactor designs further solidifies his reputation as a leader in catalytic engineering.

🔬 Research Interest

Ming Xia’s research focuses on green intelligent chemical processes that aim to make industrial practices more sustainable and efficient. His primary areas of interest include catalytic reaction engineering, industrial catalysis, and process systems engineering. 🧑‍🔬🔬 His work combines experimental and simulation-based methods to innovate in areas such as CO2 conversion, dimethyl carbonate production, and the synthesis of long-chain alpha-olefins. Ming’s passion lies in the development of novel reactors that enhance process efficiency while minimizing environmental impact. 🌱💡 His research also extends to Fischer-Tropsch synthesis, where he has explored new kinetic models and mass transfer advantages for industrial catalysts. Through his research, Ming aims to create cleaner, more efficient chemical processes that can be scaled up for industrial use, contributing to both academic knowledge and practical solutions for global environmental challenges.

🏆 Awards and Honors

Ming Xia has earned numerous accolades for his research achievements. One of his most significant accomplishments was the successful scale-up of a 30,000-ton/a lubricant base oil demonstration project, for which he received industry recognition. 🏆 His work on novel catalytic systems and process optimization has garnered several China Patents, underscoring his contribution to industrial innovation. Ming has also been a recipient of prestigious grants and awards from national research organizations, recognizing his groundbreaking work in green chemistry and environmental protection. 🌍 His extensive publication record in highly reputed journals, such as the Chemical Engineering Journal and the AIChE Journal, reflects his research excellence. Ming’s work not only advances scientific knowledge but also has a tangible impact on sustainable industrial practices, earning him respect and recognition across academic and industrial fields alike.

Conclusion

Ming Xia is an excellent candidate for the Best Researcher Award due to his significant contributions to catalytic engineering, novel reactor designs, and green chemical processes. His ability to balance theoretical research with practical industrial applications sets him apart as an impactful researcher. With minor enhancements in global research presence and academic leadership, he would be an even stronger contender for such prestigious awards.

Publications top noted📜
  1. Comparison of pressure-swing distillation and extractive distillation methods for isopropyl alcohol/diisopropyl ether separation
    • Authors: H. Luo, K. Liang, W. Li, Y. Li, M. Xia, C. Xu
    • Year: 2014
    • Citations: 108 🔬📘
  2. Design and control of distillation system for methylal/methanol separation. Part 2: pressure swing distillation with full heat integration
    • Authors: B. Yu, Q. Wang, C. Xu
    • Year: 2012
    • Citations: 104 🔧⚙️
  3. Design and control of distillation system for methylal/methanol separation. Part 1: extractive distillation using DMF as an entrainer
    • Authors: Q. Wang, B. Yu, C. Xu
    • Year: 2012
    • Citations: 103 🔍📊
  4. Design and control of extractive dividing-wall column for separating methylal–methanol mixture
    • Authors: M. Xia, B. Yu, Q. Wang, H. Jiao, C. Xu
    • Year: 2012
    • Citations: 96 🏗️⚗️
  5. Energy-efficient extractive distillation process by combining preconcentration column and entrainer recovery column
    • Authors: K. Liang, W. Li, H. Luo, M. Xia, C. Xu
    • Year: 2014
    • Citations: 83 💡🌍
  6. New pressure-swing distillation for separating pressure-insensitive maximum boiling azeotrope via introducing a heavy entrainer: design and control
    • Authors: W. Li, L. Shi, B. Yu, M. Xia, J. Luo, H. Shi, C. Xu
    • Year: 2013
    • Citations: 61 🛠️🔬
  7. Design and control of reactive dividing-wall column for the production of methyl acetate
    • Authors: D. An, W. Cai, M. Xia, X. Zhang, F. Wang
    • Year: 2015
    • Citations: 52 🏭⚛️
  8. Temperature control for extractive dividing-wall column with an adjustable vapor split: methylal/methanol azeotrope separation
    • Authors: M. Xia, Y. Xin, J. Luo, W. Li, L. Shi, Y. Min, C. Xu
    • Year: 2013
    • Citations: 46 🌡️📐
  9. Au-Pd nanoparticles immobilized on TiO2 nanosheet as an active and durable catalyst for solvent-free selective oxidation of benzyl alcohol
    • Authors: Z. Wang, J. Feng, X. Li, R. Oh, D. Shi, O. Akdim, M. Xia, L. Zhao, X. Huang, …
    • Year: 2021
    • Citations: 41 🧪🌿
  10. Unlocking biomass energy: continuous high-yield production of 5-hydroxymethylfurfural in water
  • Authors: P. Yan, M. Xia, S. Chen, W. Han, H. Wang, W. Zhu
  • Year: 2020
  • Citations: 37 🌱🌊
  1. Effect of process conditions on the product distribution of Fischer-Tropsch synthesis over an industrial cobalt-based catalyst using a fixed-bed reactor
  • Authors: C. Niu, M. Xia, C. Chen, Z. Ma, L. Jia, B. Hou, D. Li
  • Year: 2020
  • Citations: 33 🛢️🔥
  1. A comprehensive insight into the role of barium in catalytic performance of Co/Al2O3 catalyst for Fischer-Tropsch synthesis
  • Authors: S. Guo, Q. Wang, M. Wang, Z. Ma, J. Wang, B. Hou, C. Chen, M. Xia, L. Jia, D. Li
  • Year: 2019
  • Citations: 31 🧫⚙️
  1. Comparative study of CO adsorption on zirconia polymorphs with DRIFT and transmission FT-IR spectroscopy
  • Authors: W. Zhou, Z. Ma, S. Guo, M. Wang, J. Wang, M. Xia, L. Jia, B. Hou, D. Li, Y. Zhao
  • Year: 2018
  • Citations: 27 💨🧬
  1. Deep eutectic solvent-based liquid-liquid microextraction for the HPLC-DAD analysis of bisphenol A in edible oils
  • Authors: Q. Xie, M. Xia, H. Lu, H. Shi, D. Sun, B. Hou, L. Jia, D. Li
  • Year: 2020
  • Citations: 24 🧪🍶
  1. The Fischer–Tropsch synthesis performance over cobalt supported on silicon-based materials: the effect of thermal conductivity of the support
  • Authors: M. Zhong, Y. Guo, J. Wang, Z. Ma, M. Xia, C. Chen, L. Jia, B. Hou, D. Li
  • Year: 2019
  • Citations: 20 🔥🧱

Teerawat Sema | Chemical Engineering | Best Researcher Award

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Assist Prof Dr Teerawat Sema | Chemical Engineering | Best Researcher Award

University Professor at Department of Chemical Technology, Faculty of Science, Chulalongkorn University, Thailand

Dr. Teerawat Sema is an esteemed Assistant Professor in the Department of Chemical Technology at Chulalongkorn University, Thailand, and an Adjunct Professor in Process Systems Engineering at the University of Regina, Canada. With a solid academic and professional background in chemical engineering, Dr. Sema has significantly contributed to the fields of gas separation, carbon capture, and AI-driven systems for the petroleum industry. His work is recognized both in academia and industry, reflected in numerous awards and collaborations with leading global energy companies.

Professional profile

Education📚

🎓 Professor Hui Tong Chua’s educational journey is marked by excellence and depth. He earned his Ph.D. (1999), M.Eng (1995), and B.Eng (First Class Honors, 1993) from the Mechanical Engineering Department at the National University of Singapore. 📚 His solid foundation in engineering is complemented by prestigious professional qualifications, including HonFIEAust, CPEng, and FIChemE, showcasing his commitment to advancing his expertise in chemical and mechanical engineering. 🌟 His educational achievements underscore his dedication to both academic rigor and professional excellence in the field.

Professional Experience🏛️

👨‍🔬 Professor Hui Tong Chua boasts an illustrious career in Chemical Engineering. He currently serves as the Head of the Department of Chemical Engineering at The University of Western Australia. 🌏 His extensive roles include Vice President of the Asian Pacific Confederation of Chemical Engineering, Chair of ARC CoE for Carbon Science & Innovation, and Chief Scientific Officer at Ablano.

🎓 Education:

Dr. Sema earned his Ph.D. in Engineering from the University of Regina, Canada, where he conducted pioneering research on carbon dioxide absorption kinetics. He also holds an M.S. in Petrochemical Technology from Chulalongkorn University, Thailand, and a B.Eng. in Petrochemicals and Polymeric Materials from Silpakorn University, Thailand.

💼 Work Experience:

With over a decade of experience, Dr. Sema has held various academic and industry roles. He has served as a Postdoctoral Fellow at the University of Regina and Hunan University, China, and worked as a Senior Consulting Engineer on confidential projects with leading energy companies. His academic career includes positions as a Lecturer at Mahidol University and Chulalongkorn University, where he has been instrumental in developing innovative educational programs.

🔬 Research Focus:

Dr. Sema’s research interests are centered on gas separation and purification, carbon capture, and the application of AI in the chemical and petroleum industries. His work integrates advanced heat and mass transfer processes with chemical reactions, aiming to develop sustainable and efficient technologies.

🏆 Awards and Honors:

Dr. Sema has received numerous accolades, including the 2024 Mid-Career Outstanding Research Fellow and the 2020 Young Outstanding Research Fellow at Chulalongkorn University. He was also awarded the Young International Scientist Award by the Chinese government in 2014.

🛠 Skills:

Dr. Sema possesses a diverse skill set, including expertise in chemical process simulation, knowledge-based systems, and the development of thermoplastic starch. He is also proficient in project management, particularly in construction and industrial collaborations.

📚 Teaching Experience:

Dr. Sema has a rich teaching background, having designed and delivered courses in chemical engineering and technology. His commitment to education is further demonstrated by his involvement in curriculum development and accreditation processes at Mahidol University and Chulalongkorn University.

🌐 Professional Memberships and Services:

An active contributor to the academic community, Dr. Sema serves on the editorial boards of several journals, including Discovery Chemical Engineering and the Petroleum & Petrochemical Engineering Journal. He is also a regular reviewer for international journals and a research grant reviewer for organizations such as the Natural Sciences and Engineering Research Council of Canada.

Conclusion

The individual’s extensive research in gas separation, carbon capture, and knowledge-based systems, coupled with a solid academic background and significant professional achievements, makes them an excellent candidate for the Best Researcher Award. Their contributions to both academia and industry, along with their recognition through various awards and professional services, underscore their suitability for this prestigious recognition.

Publications top noted📜
  • Performance assessment of novel catalytic spouted-bed vapor jet flow heat exchanger in amine-based carbon capture process
    🗓️ Year: 2025
    📚 Journal: Separation and Purification Technology
    👥 Authors: Yang, C., Li, T., Sema, T., Chan, C., Tontiwachwuthikul, P.
  • Oxidative stability of structurally varied amines for post-combustion CO2 capture
    🗓️ Year: 2024
    📚 Journal: Chemical Engineering Science
    👥 Authors: Liu, Q., Luo, T., Yin, Y., Sema, T., Liang, Z.
  • Exploring competitive CO2 and H2S absorption into polyethylene glycol PEG200 by molecular dynamics simulation
    🗓️ Year: 2024
    📚 Journal: Journal of Molecular Liquids
    👥 Authors: Haghani, H., Imran-Shukat, M., Apaiyakul, R., Mosaddeghi, H., Hoffmann, M.M.
  • Cerium-MOF-Derived Composite Hierarchical Catalyst Enables Energy-Efficient and Green Amine Regeneration for CO2 Capture
    🗓️ Year: 2024
    📚 Journal: Environmental Science and Technology
    👥 Authors: Sun, Q., Gao, H., Xiao, M., Sema, T., Liang, Z.
  • Effect of hydrocyclone design in microplastics-water separation by using computational fluid dynamics simulations
    🗓️ Year: 2024
    📚 Journal: Results in Engineering
    👥 Authors: Thiemsakul, D., Piemjaiswang, R., Sema, T., Piumsomboon, P., Chalermsinsuwan, B.
  • Volumetric and viscometric properties of aqueous 1,2-dimethylethylenediamine solution for carbon capture application
    🗓️ Year: 2024
    📚 Journal: Petroleum
    👥 Authors: Haghani, H., Sema, T., Ranong, P.N., Liang, Z., Tontiwachwuthikul, P.
  • CO2 Capture Performance on Wall Paint Modified by K2CO3 and Ca(OH)2 for Added-Value CO2 Capture Paint Development
    🗓️ Year: 2024
    📚 Journal: Engineering Journal
    👥 Authors: Khantiudom, W., Sema, T., Chalermsinsuwan, B., Piumsomboon, P.
  • 3D models guide the design of hollow fiber membrane contactors with complex internal structures for CO2 capture
    🗓️ Year: 2024
    📚 Journal: AIChE Journal
    👥 Authors: Yin, Y., Liu, Q., Gao, H., Sema, T., Liang, Z.
  • Heat and mass transfer of a novel CO2 desorption process integrated with highly turbulent catalytic heat exchanger
    🗓️ Year: 2024
    📚 Journal: Fuel
    👥 Authors: Yang, C., Li, T., Sema, T., Chan, C., Tontiwachwuthikul, P.
  • Analysis and insights of the second-generation ternary AMP-PZ-MEA solvents for post-combustion carbon capture: Absorption-regeneration performance
    🗓️ Year: 2024
    📚 Journal: International Journal of Greenhouse Gas Control
    👥 Authors: Apaiyakul, R., Nimmanterdwong, P., Kanchanakungval, T., Tontiwachwuthikul, P., Sema, T.

Hui Tong Chua | Chemical Engineering | Best Researcher Award

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Prof. Hui Tong Chua | Chemical Engineering | Best Researcher Award

Professor of The University of Western Australia Country, Australia

👨‍🔬 Professor Hui Tong Chua is a leading figure in Chemical Engineering, currently heading the Department of Chemical Engineering at The University of Western Australia. 🎓 With a Ph.D. and a First-Class Honors degree from the National University of Singapore, he holds prestigious professional qualifications such as HonFIEAust and FIChemE. 🌟 His influential roles include Vice President of the Asian Pacific Confederation of Chemical Engineering and Chief Scientific Officer at Ablano. 🌍 His career spans senior positions, including Chair of ARC CoE for Carbon Science & Innovation and various board memberships, reflecting his commitment to advancing chemical engineering and fostering innovation. 🌱

Professional profile

Education📚

🎓 Professor Hui Tong Chua’s educational journey is marked by excellence and depth. He earned his Ph.D. (1999), M.Eng (1995), and B.Eng (First Class Honors, 1993) from the Mechanical Engineering Department at the National University of Singapore. 📚 His solid foundation in engineering is complemented by prestigious professional qualifications, including HonFIEAust, CPEng, and FIChemE, showcasing his commitment to advancing his expertise in chemical and mechanical engineering. 🌟 His educational achievements underscore his dedication to both academic rigor and professional excellence in the field.

Professional Experience🏛️

👨‍🔬 Professor Hui Tong Chua boasts an illustrious career in Chemical Engineering. He currently serves as the Head of the Department of Chemical Engineering at The University of Western Australia. 🌏 His extensive roles include Vice President of the Asian Pacific Confederation of Chemical Engineering, Chair of ARC CoE for Carbon Science & Innovation, and Chief Scientific Officer at Ablano. 🌟 His past positions include Deputy Head of the School of Mechanical and Chemical Engineering, Distinguished Professor at Taiyuan University of Technology, and various senior roles at the National University of Singapore and UWA. 📈 His professional journey reflects a strong dedication to leadership, innovation, and academic excellence.

Research Interest🌐

🔬 Professor Hui Tong Chua’s research interests focus on advancing the field of Chemical Engineering, with a strong emphasis on management and leadership in engineering, geothermal energy, and chemical process optimization. 🌍 His work spans the development of sustainable technologies, including carbon science and innovation, and enhancing energy efficiency. 🌟 His research also explores cutting-edge solutions in chemical and mechanical engineering to address global challenges. 🌱 Professor Chua’s contributions are pivotal in driving forward technological advancements and fostering industry-academic partnerships for a sustainable future.

Awards and Honors🏆

🏆 Professor Hui Tong Chua has received numerous accolades for his outstanding contributions to Chemical Engineering. 🌟 He is honored with the title of HonFIEAust and FIChemE, reflecting his exceptional expertise and leadership. 🎓 His achievements include serving as the Vice President of the Asian Pacific Confederation of Chemical Engineering and holding various prestigious board positions. 🥇 His work has earned him recognition from professional organizations, demonstrating his commitment to advancing engineering practice and fostering innovation. 🌍 His honors underscore his significant impact on both academic and industry fields.

Achievements🏅
  • 🏆 Head of Chemical Engineering Department at The University of Western Australia since January 2018.
  • 🌟 Vice President of the Asian Pacific Confederation of Chemical Engineering from April 2024.
  • 👨‍🔬 Chief Scientific Officer for Ablano since January 2022.
  • 🎓 Distinguished Professor at Taiyuan University of Technology, China (2009–2017).
  • 🌍 Chair of Industry Engagement & Translation at ARC CoE for Carbon Science & Innovation since March 2023.
  • 🛠️ Deputy Chair of Engineers Australia Chemical College Board (2024–2025).
  • 🏅 Non-Executive Director of Good Water Energy Ltd. since January 2020.
  • 📚 Editorial and Review Roles for IChemE Learned Society Committee and Research Working Group.
Projects🛠️
  • 🌋 WA Geothermal Centre of Excellence: Led the Aboveground Engineering Programme (2008–2012).
  • 🔬 ARC CoE for Carbon Science & Innovation: Chair of Industry Engagement & Translation (2023–Present).
  • 💧 Good Water Energy Ltd.: Non-Executive Director focusing on sustainable water solutions (2020–Present).
  • 🌍 Chemical Engineering Programme: Chair at The University of Western Australia (2012–2017).
  • 🛠️ Geothermal Engineering Projects: Contributed to advancements in geothermal energy applications.
  • 🏗️ Chemical Process Optimization: Involved in various projects enhancing chemical and mechanical engineering processes..
Publications top noted📜
  • Experimental Investigation of the Silica Gel–Water Adsorption Isotherm Characteristics
    📚 KC Ng, HT Chua, CY Chung, CH Loke, T Kashiwagi, A Akisawa, BB Saha
    Applied Thermal Engineering 21 (16), 1631-1642 (2001)
    📈 446 citations
  • Modeling the Performance of Two-Bed Silica Gel-Water Adsorption Chillers
    📚 HT Chua, KC Ng, A Malek, T Kashiwagi, A Akisawa, BB Saha
    International Journal of Refrigeration 22 (3), 194-204 (1999)
    📈 376 citations
  • Waste Heat Driven Dual-Mode, Multi-Stage, Multi-Bed Regenerative Adsorption System
    📚 BB Saha, S Koyama, T Kashiwagi, A Akisawa, KC Ng, HT Chua
    International Journal of Refrigeration 26 (7), 749-757 (2003)
    📈 327 citations
  • Adsorption Characteristics of Silica Gel + Water Systems
    📚 HT Chua, KC Ng, A Chakraborty, NM Oo, MA Othman
    Journal of Chemical & Engineering Data 47 (5), 1177-1181 (2002)
    📈 324 citations
  • Transient Modeling of a Two-Bed Silica Gel–Water Adsorption Chiller
    📚 HT Chua, KC Ng, W Wang, C Yap, XL Wang
    International Journal of Heat and Mass Transfer 47 (4), 659-669 (2004)
    📈 239 citations
  • Centrifugal Chillers: Thermodynamic Modelling and a Diagnostic Case Study
    📚 JM Gordon, KC Ng, HT Chua
    International Journal of Refrigeration 18 (4), 253-257 (1995)
    📈 209 citations
  • Improved Thermodynamic Property Fields of LiBr–H2O Solution
    📚 HT Chua, HK Toh, A Malek, KC Ng, K Srinivasan
    International Journal of Refrigeration 23 (6), 412-429 (2000)
    📈 199 citations
  • Multi-Bed Regenerative Adsorption Chiller—Improving the Utilization of Waste Heat and Reducing the Chilled Water Outlet Temperature Fluctuation
    📚 HT Chua, KC Ng, A Malek, T Kashiwagi, A Akisawa, BB Saha
    International Journal of Refrigeration 24 (2), 124-136 (2001)
    📈 147 citations
  • The Maximum Temperature Difference and Polar Characteristic of Two-Stage Thermoelectric Coolers
    📚 XC Xuan, KC Ng, C Yap, HT Chua
    Cryogenics 42 (5), 273-278 (2002)
    📈 144 citations
  • Two Bed Silica Gel–Water Adsorption Chillers: An Effectual Lumped Parameter Model
    📚 X Wang, HT Chua
    International Journal of Refrigeration 30 (8), 1417-1426 (2007)
    📈 121 citations