Dr. Ke Liu – High-value utilization of steel slag – Best Researcher Award

Dr. Ke Liu - High-value utilization of steel slag - Best Researcher Award

University of Science ang Technology Beijing - China 

Author Profile 

SCOPUS 

Early academic pursuits 🎓

Ke Liu embarked on his academic journey in the field of metallurgical engineering, driven by a passion for materials science and sustainability. he completed his bachelor's degree at north china university of science and technology in 2017, where he gained foundational knowledge in metallurgy. continuing his pursuit of excellence, he obtained a master's degree from the same university in 2020, focusing on innovative applications in metallurgical processes. his academic aspirations led him to pursue a ph.d. at the university of science and technology beijing, where he delved deeper into solid waste resource utilization, heat energy storage, and co2 recycling. his dedication and academic excellence further earned him a prestigious opportunity to conduct joint doctoral research at the university of tokyo, japan, from 2023 to 2024, expanding his expertise in advanced materials engineering.

Professional endeavors 💼

Throughout his academic career, ke liu has been actively involved in high-impact research initiatives addressing critical challenges in metallurgy and environmental sustainability. his research has spanned diverse domains, including the development of innovative phase change materials, electrochemistry, and sewage resource treatment. his professional engagements have provided him with international exposure and the opportunity to collaborate with leading researchers in japan and china. these collaborations have enriched his expertise in material characterization and energy storage applications, paving the way for groundbreaking advancements in metallurgical engineering.

Contributions and research focus 🔬

Ke Liu's research focuses on solid waste resource utilization, aiming to transform industrial waste into valuable materials. his work in phase change energy storage materials has led to the High-value utilization of steel slag development of innovative composite materials derived from steel slag, providing sustainable and efficient energy storage solutions. additionally, he has explored co2 recycling strategies, contributing to the reduction of carbon emissions in industrial processes. his expertise in electrochemistry has also enabled advancements in sewage resource treatment, developing efficient methods for water purification and waste management. through his pioneering research, ke liu is making significant strides in creating environmentally friendly and cost-effective solutions for industrial sustainability.

Accolades and recognition 🏆

Ke Liu’s research excellence is reflected in his multiple publications in high-impact, q1 and q2 journals. his work has been featured in leading scientific journals such as the journal of energy High-value utilization of steel slag storage, ceramics international, and the journal of co2 utilization, with impressive impact factors ranging from 5.2 to 9.4. his contributions to phase change materials and steel slag utilization have been widely recognized in the scientific community, positioning him as a rising researcher in metallurgical engineering. his growing citation count and international collaborations further attest to the impact and significance of his research endeavors.

Impact and influence 🌍

Ke Liu's research has profound implications for sustainable industrial practices, particularly in the metallurgical sector. his work in developing energy-efficient phase change materials High-value utilization of steel slag contributes to improved heat energy storage solutions, crucial for renewable energy applications. his advancements in co2 recycling provide valuable insights into reducing greenhouse gas emissions, aligning with global sustainability goals. by transforming steel slag waste into useful composite materials, he has paved the way for more efficient waste management strategies. his research not only advances scientific knowledge but also holds practical significance for industries seeking sustainable alternatives.

Legacy and future contributions 💡

As a dedicated researcher, ke liu continues to push the boundaries of metallurgical engineering with his innovative approaches to material science and environmental sustainability. his ongoing work aims to further enhance the efficiency of phase change materials and explore new methods for sustainable resource utilization. with a strong foundation in electrochemistry and co2 recycling, he is poised to contribute significantly to the global effort in combating climate change through technological advancements. his legacy will be defined by his commitment to sustainable engineering solutions, inspiring future generations of researchers to explore new frontiers in metallurgical and environmental sciences.

Notable Publications 

  • Title: Reduction performance and degradation mechanism of chlorinated hydrocarbon electrocatalytic hydrodechlorination using synthetic Ti/Pd cathode
    Authors: Wang, J., Wu, S., Liu, K., Wang, C., Yang, Z.
    Journal: Journal of Water Process Engineering, 2024, 65, 105880
  • Title: Numerical Simulation of Innovative Slag Splashing Process in a Converter Using a Nozzle-Twisted Oxygen Lance
    Authors: Zhang, H., Liu, K., Zhao, H., Liang, J., Yuan, Z.
    Journal: Journal of Sustainable Metallurgy, 2024, 10(2), pp. 864–879
  • Title: Effect of hot coil immersion cooling process on microstructure and properties of strip steel and oxide scales
    Authors: Yu, Y., Zhang, L., Liu, K., Wang, L., Niu, T.
    Journal: Canadian Metallurgical Quarterly, 2024
  • Title: Melt structure of calcium aluminate-based non-reactive mold flux: Molecular dynamics simulation and spectroscopic experimental verification
    Authors: Liu, K., Han, Y., Zhu, L., Liu, S.
    Journal: Construction and Building Materials, 2023, 406, 133363
  • Title: Novel low-cost steel slag porous ceramic-based composite phase change material: An innovative strategy for comprehensive utilization of steel slag resources
    Authors: Liu, K., Yuan, Z., Zhao, H., Zhang, H., Ma, B.
    Journal: Ceramics International, 2023, 49(22), pp. 35466–35475

Mr. Zammil Hameed – Environmental Engineering – Young Scientist Award

Mr. Zammil Hameed - Environmental Engineering - Young Scientist Award

Joint Research and Demonstration Center - Sri Lanka

Author Profile

ORCID 

🌱 Early academic pursuits

S.H.M. Zammil's academic journey began with remarkable success during his school years at madeena national school, sri lanka. excelling in mathematics and science, he earned stellar grades, including multiple distinctions in his ordinary level examination. his aptitude for engineering was evident early on as he ranked seventh in the matale district during his advanced level examination. this academic excellence paved the way for him to pursue a b.sc. in civil engineering at the prestigious university of peradeniya, where his directed research focused on investigating slope failures caused by torrential rainfall at mt. hantana.

🏗️ Professional endeavors

Zammil has built a diverse career as an engineer and researcher. his initial roles as a trainee and site engineer honed his expertise in infrastructure development, including road rehabilitation and water treatment plant construction. from 2019 to 2023, he served as a civil engineer for the joint research and development center for water technology under the ministry of water supply. currently, as a research engineer at the same center, he contributes to cutting-edge projects in water resource management and technology development.

💡 Contributions and research focus

Zammil's research journey reflects his deep commitment to water and environmental sustainability. during his master's studies, he developed a performance simulation model for a submerged membrane bioreactor (smbr) system, showcasing his technical prowess in wastewater treatment and integrated model Environmental Engineering development. his work on slope stability during his undergraduate years also highlights his focus on addressing critical environmental challenges. his professional roles have allowed him to apply these research insights to practical engineering problems, improving water supply systems and infrastructure resilience.

🏆 Accolades and recognition

Zammil's academic and professional achievements have earned him recognition in multiple domains. his high rankings in advanced-level examinations and his Environmental Engineering consistent academic performance underscore his dedication to learning. his work on innovative water treatment systems and environmental engineering has further established his reputation as a skilled engineer and researcher.

🌍 Impact and influence

through his roles in sri lanka's ministry of water supply, zammil has contributed to critical projects that address water scarcity and infrastructure challenges. his Environmental Engineering research on smbr systems and slope failures has practical implications, benefiting both urban and rural communities by enhancing water treatment technologies and preventing natural disasters. his influence extends to mentoring and collaborating with peers, fostering a culture of innovation in the engineering field.

🛠️ Legacy and future contributions

Zammil envisions a future where sustainable water management and resilient infrastructure play pivotal roles in societal development. as he continues his career in research and engineering, he aims to advance technological solutions for water and environmental challenges, ensuring a lasting positive impact on sri lanka's development and beyond. his dedication to integrating academic insights with practical applications sets a benchmark for upcoming engineers and researchers.

Notable Publications

Title: Advancing Sustainability: The Impact of Emerging Technologies in Agriculture
Authors: Ashoka Gamage, Ruchira Gangahagedara, Shyamantha Subasinghe, Jeewan Gamage, Chamini Guruge, Sera Senaratne, Thevin Randika, Chamila Rathnayake, Zammil Hameed, Terrence Madhujith, et al.
Journal: Current Plant Biology (2024).