Rabaka Sultana | Environmental Engineering | Excellence in Innovation

Published on by Environmental Scientists

Mrs. Rabaka Sultana | Environmental Engineering | Excellence in Innovation

Research graduate, Charles Darwin University, Australia

Rabaka Sultana is an accomplished academic and construction professional recognized for advancing sustainable building practices through pioneering research, innovative teaching, and industry leadership. With expertise in life cycle assessment (LCA) and integrating traffic and machinery noise impacts into construction assessments, she contributes to academic knowledge and practical solutions for sustainable development.

Profile

Orcid

Education ๐ŸŽ“

Rabaka holds a PhD in Civil Engineering (2021-present) from Charles Darwin University, a Master of Civil and Environmental Engineering from the University of South Australia (2015), and a Bachelor of Civil Engineering from Bangladesh University of Engineering and Technology (2005). She also has various certificates in training and assessment, building construction, and early childhood education.

Experience ๐Ÿ’ผ

Rabaka has diverse experience as a lecturer, building supervisor, and educator. She has worked as a Lecturer at Sunbeam International College, Building Supervisor at Kingsford Homes, Teaching Assistant at Charles Darwin University, and Lecturer at Daffodil International University. She has also led projects focusing on quality, environmental impact, and client satisfaction in the construction industry.

Research Interest ๐Ÿ”

Rabaka Sultana’s research focuses on advancing sustainable construction practices through innovative approaches. Her work encompasses life cycle assessment (LCA), a methodology used to evaluate the environmental impacts of buildings and construction materials throughout their entire life cycle. She is also dedicated to integrating environmental impacts, including noise pollution, into construction evaluation frameworks. This involves developing comprehensive assessment tools that consider not only traditional factors like energy consumption and material usage but also the effects of noise on human health and the environment. By exploring these areas, Rabaka aims to contribute to the development of more sustainable and environmentally responsible construction practices.

Awards ๐Ÿ†

Rabaka received the Award for Developing Online Platform for Engineering Course (2019) from Daffodil International University, recognizing her innovative and efficient online platform to deliver engineering courses.

Publications ๐Ÿ“„

Sultana, R., Rashedi, A., Khanam, T. (2022). “Life Cycle Environmental Sustainability and energy assessment of Timber Wall Construction: A comprehensive overview.” Sustainability, 14(7), 4161. (link unavailable)

Sultana, R., Khanam, T., Rashedi, A., Rajabipour, A. (2025). “Integrating Noise into Life Cycle Assessment for Sustainable High-Rise Construction: A Comparative Study of Concrete, Timber, and Steel Frames in Australia.” Sustainability, 17(9), 4040.

Conclusion

Based on her research achievements, innovative teaching methods, and industry experience, Rabaka Sultana is a suitable candidate for the Research for Excellence in Innovation award. Her dedication to advancing sustainable building practices and her commitment to education and mentorship demonstrate her potential to make a lasting impact in her field. With further emphasis on interdisciplinary collaboration and practical application, she is well-positioned to continue driving innovation in sustainable construction.

 

Wenjun Liang | Air Pollution Control | Best Researcher Award

Published on by Environmental Scientists

Prof. Wenjun Liang | Air Pollution Control | Best Researcher Award

Professor, Beijing University of Technology, China

Liang Wenjun is a renowned Chinese environmental engineer and professor at Beijing University of Technology. With a strong educational background and extensive research experience, he has made significant contributions to the field of environmental engineering, particularly in the areas of pollution control and catalytic technology.

Profile

Scopus

Education ๐ŸŽ“

Liang Wenjun earned his Doctor of Environmental Engineering degree from Beijing University of Technology (2000-2006) and his Bachelor of Environmental Science degree from Shanxi University (1996-2000).

Experience ๐Ÿ’ผ

Liang Wenjun has been working as a lecturer, associate professor, and professor at Beijing University of Technology since 2006. He also served as a visiting scholar at the School of Environment, Tsinghua University (2012-2013).

Research Interest ๐Ÿ”

Liang Wenjun’s research focuses on several key areas, including low-temperature plasma catalytic technology for removing volatile organic pollutants, catalytic combustion technology for removing low-concentration organic pollutants, low-temperature SCR technology for removing nitrogen oxides, and dust control technology. His work in these areas aims to develop innovative solutions for environmental pollution control.

Awards ๐Ÿ†

Liang Wenjun has received several prestigious awards in recognition of his outstanding contributions. These include the Outstanding Talents award from the Organization Department of the Beijing Municipal Party Committee in 2013, the “Top Young Talents” award from the Beijing Municipal Education Commission in 2013, and the Outstanding Youth Science and Technology Award from the China Environmental Protection Federation in 2020. These awards reflect his dedication and commitment to excellence in his field.

Publications ๐Ÿ“„

Effect of Pd/Ce loading on the performance of Pd-Ce/r-Al2O3 catalysts for toluene abatement (Chemosphere, 2020)ย  (Cited by: 100+)

Comparison of experimental and simulation results for optimization of a catalytic reactor for volatile organic compound abatement (Process Safety and Environmental Protection, 2020)ย  (Cited by: 50+)

Abatement of Toluene by Reverse-Flow Nonthermal Plasma Reactor Coupled with Catalyst (Catalysts, 2020)ย  (Cited by: 20+)

Effect of Pd/Ce loading on the performance of Pd-Ce/r-Al2O3 catalysts for toluene abatement, Chemosphere 251 (2020) 126382ย  (Cited by: 100+)

Comparison of experimental and simulation results for optimization of a catalytic reactor for volatile organic compound abatement, Process Safety and Environmental Protection, 139 (2020) 76โ€“88ย  (Cited by: 50+)

Abatement of Toluene by Reverse-Flow Nonthermal Plasma Reactor Coupled with Catalyst, Catalysts, 2020, 10, 511ย  (Cited by: 20+)

Catalytic combustion of chlorobenzene at low temperature over Ru-Ce/ TiO2: High activity and high selectivity, Applied Catalysis A, General, 623(2021)118257 (Cited by: 30+)

Conclusion

Based on his outstanding research achievements, awards, and experience, Liang Wenjun is an excellent candidate for the Best Researcher Award. His contributions to environmental engineering, particularly in pollution control and catalytic technology, demonstrate his potential to make a significant impact in the field. With some further emphasis on interdisciplinary collaboration and practical applications, he is well-positioned to continue making meaningful contributions to environmental research.