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

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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. Nikhil Dilip Pawar – Decarbonization of industry – Best Researcher Award

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Mr. Nikhil Dilip Pawar - Decarbonization of industry - Best Researcher Award

DLR - Germany

Author Profile 

ORCID 

🌱 Early academic pursuits

Nikhil Dilip Pawar’s journey into the field of sustainable engineering began with a strong foundation in mechanical engineering. he later pursued a master's degree in renewable energies at the technical university of berlin, which marked a significant shift towards addressing global environmental challenges. during his academic training, nikhil honed his expertise in renewable energy systems and explored innovative methods to integrate sustainability into industrial processes.

🏭 Professional endeavors

Currently serving as a scientific researcher at the german aerospace center (dlr), nikhil has played a pivotal role in projects aimed at decarbonizing the fertilizer industry. his work has included exploring renewable energy-driven solutions for nitrogenous fertilizer production and sustainable water management strategies. as part of his professional journey, he contributed to projects like the eu horizon 2020 “zero brine” project and collaborated with iFOREST in india to provide actionable insights for policy reforms.

🔬 Contributions and research focus

Nikhil’s research primarily revolves around the decarbonization of energy-intensive industries, particularly the fertilizer sector. he has delved into green ammonia production and renewable-based desalination processes, emphasizing minimum liquid discharge strategies. his recent studies have focused on identifying flexibility options for desalination plants to complement Decarbonization of industry variable renewable energy sources, thereby reducing reliance on costly battery storage systems. these efforts align with a broader vision of integrating circular economy principles into industrial practices.

🏆 Accolades and recognition

Nikhil’s research contributions have garnered attention in the academic and policy-making spheres. his paper on green ammonia production has achieved a high citation index of 1.737 on scopus, reflecting its impact within the scientific community. his expertise has also been sought for consultancy and collaboration projects, underlining his growing influence in the field of Decarbonization of industry sustainable industry practices.

🌍 Impact and influence

Through his collaborative work, nikhil has directly influenced policy recommendations for india’s transition to sustainable urea production. his actionable reports and scenario modeling have provided valuable insights into economic and environmental trade-offs, paving the way for a greener industrial landscape. his efforts underscore the critical role of renewable energy and Decarbonization of industry water resource management in achieving global sustainability goals.

🔄 Legacy and future contributions

Nikhil’s work represents a significant step toward realizing a carbon-neutral future for energy-intensive industries. by bridging the gap between research and policy, he is creating a legacy of actionable solutions that prioritize environmental and economic sustainability. moving forward, nikhil aims to expand his focus on integrating advanced technologies and fostering international collaborations to accelerate the transition to sustainable industrial practices.

Notable Publications 

  • Title: Decarbonization of Urea Production in India and its Impact on Water Withdrawal and Costs: A Cost Optimization Approach
    Author(s): Nikhil Dilip Pawar; Kunal Singhal; Chandra Bhushan; Thomas Pregger; Patrick Jochem
    Journal: Journal of Cleaner Production
  • Title: Valorization of coal mine effluents — Challenges and economic opportunities
    Author(s): Nikhil Dilip Pawar; Steve Harris; Krzysztof Mitko; Gijsbert Korevaar
    Journal: Water Resources and Industry
  • Title: Potential of green ammonia production in India
    Author(s): Nikhil Dilip Pawar; Heidi Ursula Heinrichs; Christoph Winkler; Philipp-Matthias Heuser; Severin D. Ryberg; Martin Robinius; Detlef Stolten
    Journal: International Journal of Hydrogen Energy

Dr. Udeme john Dickson – Environmental Chemistry and Environmental remediation – Excellence in Scientific Innovation Award

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Dr. Udeme john Dickson - Environmental Chemistry and Environmental remediation - Excellence in Scientific Innovation Award

Independent Researcher - United Kingdom

Author Profile

ORCID

🌟 Early academic pursuits

Dr. Udeme john Dickson began his academic journey with a deep passion for environmental chemistry and analytical sciences. earning a bachelor’s degree in environmental chemistry from the university of uyo, nigeria, in 2006, he showcased an early commitment to addressing environmental challenges. he further refined his expertise with a master’s degree in environmental chemistry from the university of benin in 2012, before pursuing a phd in analytical chemistry and environmental science at nottingham trent university, united kingdom, in 2020. his doctoral research focused on developing analytical and remediation techniques to manage contaminated soils, laying a strong foundation for his career in environmental sciences.

🌍 Professional endeavors

Dr. Dickson’s professional career reflects his dedication to environmental geoscience and teaching. he served as a lecturer at university college london (ucl), where he contributed significantly to various modules, including environmental geochemistry, gis and remote sensing, and geological mapping. his role extended beyond teaching, encompassing module design, practical session curation, and student mentorship. his tenure as an external examiner at nanjing university of information science & technology further underscored his influence on the global academic stage. he has also held roles in environmental consultancy and industrial sectors, enriching his practical understanding of environmental challenges.

🔬 Contributions and research focus

A prolific researcher, dr. dickson's work spans critical areas in environmental earth sciences and geosciences. his research encompasses environmental geochemistry, pollution mapping, and the development of innovative techniques for monitoring and remediating polluted environments. his expertise in analyzing and treating Environmental Chemistry and Environmental remediation pollutants such as petroleum hydrocarbons, microplastics, and trace metals reflects his commitment to sustainable environmental management. additionally, his contributions to climate change studies, ecosystem services, and biodiversity modeling demonstrate a multidisciplinary approach to addressing environmental challenges.

🏅 Accolades and recognition

Dr. Dickson’s academic and professional excellence is recognized through memberships in esteemed organizations such as the geological society of london, the royal society of chemistry, and the british ecological society. he is also a fellow of the higher education academy (fhea), reflecting his dedication to teaching and mentorship. Environmental Chemistry and Environmental remediation his work has garnered respect and recognition, positioning him as a thought leader in environmental sciences.

🌟 Impact and influence

Dr. Dickson has had a profound impact on both academic and professional communities. as a lecturer, he has mentored students, supervised postgraduate Environmental Chemistry and Environmental remediation dissertations, and participated in outreach programs to inspire future scientists. his research findings have contributed to the advancement of knowledge in environmental geoscience, offering practical solutions to pressing environmental issues. his efforts in module development and academic support at ucl have set a high standard for teaching and curriculum design.

🌱 Legacy and future contributions

Dr. Dickson’s legacy is one of innovation, mentorship, and dedication to environmental sustainability. his work in developing advanced remediation techniques and fostering interdisciplinary research has paved the way for future breakthroughs in environmental science. as he continues to contribute to academia and research, his commitment to addressing global environmental challenges ensures his enduring impact on the field.

Notable Publications 

Title: Mycoremediation of petroleum contaminated soils: progress, prospects and perspectives
Authors: Udeme John Dickson, Michael Coffey, Robert John George Mortimer, Marcello Di Bonito, Nicholas Ray
Journal: Environmental Science: Processes & Impacts