Ms. Yagmur Ariöz – circular economy – Best Researcher Award

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Ms. Yagmur Ariöz - circular economy - Best Researcher Award

Ankara Yıldırım Beyazıt University - Turkey

Author Profile

GOOGLE SCHOLAR 

🎓 Early academic pursuits

Yagmur Ari öz began her academic journey with a strong foundation in industrial engineering at selcuk university, where she graduated as an honor student between 2013 and 2017. during this period, she also enriched her global exposure as an erasmus student at poznan university of technology, achieving a perfect gpa of 4.00. her early years were marked by a commitment to technical excellence and a clear inclination toward sustainable systems and industrial efficiency, which laid the groundwork for her future contributions in supply chain innovation and power electronics applications in energy systems.

💼 Professional endeavors

Her professional trajectory includes diverse internships across top-tier turkish defense and manufacturing firms such as havelsan, aselsan, tumaş, and astor transformer company. these roles spanned financial analytics, human resources, and quality control engineering, offering her a holistic view of industrial operations. she also served as an hr and project management consultant at mental hr consultancy company from 2017 to 2018. this industry experience reinforced her academic focus on sustainable supply chains and the circular economy, particularly in fields where power electronics plays a critical role in optimizing renewable energy systems.

🔬 Contributions and research focus

Currently pursuing a ph.d. in industrial engineering at ankara yildirim beyazıt university, yagmur focuses on sustainable supply chain management and solar pv circular economy—both of which are deeply interconnected with advances in power electronics for renewable energy integration. as a visiting scholar at worcester polytechnic institute under the mentorship of prof. joseph sarkis, she deepens her research in circular economy models, sustainability assessment, and supply chain analytics. her academic contributions also encompass system dynamics circular economy modeling, machine learning, and operations research, supported by technical proficiencies in python, gams, cplex, and various data visualization tools.

🌍 Impact and influence

Yagmur has influenced both academic and industry circles through her multidisciplinary expertise and teaching. at ankara yildirim beyazit university, she has lectured and assisted in multiple courses including engineering economy, quality assurance, and operations research. her role in developing course materials and mentoring students reflects her dedication to shaping future circular economy engineers. by linking real-world applications such as circular economy frameworks with power electronics technologies, her work continues to drive impactful, practical insights into the energy and manufacturing sectors.

📚 Academic cites

As a reviewer for the journal of turkish operations management and the journal of optimization and decision making (jodm), yagmur actively contributes to academic quality and innovation. while still completing her doctorate, she has already established a research presence through citations and conference engagements in the domains of supply chain optimization, data analytics, and sustainable systems design, all of which are increasingly relevant to the development of power electronics infrastructure in smart grids.

🌱 Legacy and future contributions

Yagmur Ari öz is poised to emerge as a key contributor in advancing sustainable industrial practices through integrated systems thinking. her continued work in the circular economy—especially in solar pv applications—suggests a future where her methodologies could be central to decarbonization strategies and zero-waste manufacturing. her legacy will likely include cross-sectoral models that combine industrial engineering, power electronics, and green technology to solve complex global challenges.

Notable Publications 

  • Title: Green supplier selection in new era for sustainability: a novel method for integrating big data analytics and a hybrid fuzzy multi-criteria decision making
    Authors: A. Yildizbasi, Y. Arioz
    Journal: Soft Computing

  • Title: Key challenges of lithium-ion battery recycling process in circular economy environment: Pythagorean fuzzy AHP approach
    Authors: A. Yıldızbaşı, C. Öztürk, İ. Yılmaz, Y. Arıöz
    Journal: International Conference on Intelligent and Fuzzy Systems

  • Title: Systematic literature review based on the descriptive, bibliometric, and content analysis of renewable energy supply chain for a circular economy
    Authors: Y. Arıöz, A. Yıldızbaşı, E. Özceylan, İ. Yılmaz
    Journal: Journal of Renewable and Sustainable Energy

  • Title: A novel hybrid network optimization model for printed circuit boards recycling: a circular economy perspective
    Authors: A. Yildizbasi, Y. Arioz
    Journal: Clean Technologies and Environmental Policy

  • Title: Vaccine selection using Interval-Valued intuitionistic fuzzy VIKOR: a case study of COVID-19 pandemic
    Authors: C. Öztürk, A. Yildizbasi, I. Yilmaz, Y. Ariöz
    Journal: International Conference on Intelligent and Fuzzy Systems

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. Shenggui Liu – Advanced Manufacturing – Best Researcher Award

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Dr. Shenggui Liu - Advanced Manufacturing - Best Researcher Award

Beijing Institute of Technology  - China

Author Profile 

SCOPUS 

ORCID

Early academic pursuits 🎓

Dr. Shenggui Liu began his academic journey at the china university of petroleum (east china), where he earned his bachelor’s degree in mechanical and electrical engineering in 2018, followed by a master’s degree in 2021. during his time at the university, he developed a strong foundation in mechanical engineering, particularly focusing on areas related to manufacturing processes and material science. these academic milestones paved the way for his continued pursuit of excellence in the field of advanced manufacturing, leading him to pursue a phd at the beijing institute of technology, where he is currently researching innovative manufacturing techniques.

Professional endeavors 💼

Dr. Liu’s professional career is marked by a focus on cutting-edge technologies in advanced manufacturing. he has worked on various projects related to metal additive manufacturing, electrochemical polishing, and surface post-processing of additively manufactured parts. currently, he is a phd candidate at the school of mechanical engineering, beijing institute of technology, where he is actively researching and contributing to the development of solid dielectric electrochemical polishing (sdep). this process is crucial for enhancing the surface finish of 3d-printed components, particularly in industries that demand high precision and performance.

Contributions and research focus 🔬

Dr. Liu’s research has primarily concentrated on solid dielectric electrochemical polishing and its applications in improving the surface quality of 3d-printed metal Advanced Manufacturing parts. his work is pivotal in advancing the understanding of the polishing mechanisms and in developing methods that minimize electrolyte consumption, making the process more efficient and sustainable. he has also contributed significantly to the field of surface treatment, enhancing the mechanical properties and durability of materials, particularly for industries involved in aerospace and automotive manufacturing. his published works, including papers in leading journals such as the journal of cleaner production and additive manufacturing, highlight his ongoing efforts to push the boundaries of manufacturing technology.

Accolades and recognition 🏅

Dr. Liu’s research has garnered significant recognition in the academic community. he has authored several impactful papers on electrochemical polishing, coating Advanced Manufacturing technologies, and advanced manufacturing processes. his work on improving material removal rates in sdep and developing more efficient electrochemical polishing techniques has been acknowledged by his peers and published in high-impact journals. this recognition underscores his role as an emerging leader in the field of mechanical engineering and manufacturing technology.

Impact and influence 🌍

Dr. Liu’s contributions have had a profound impact on the field of advanced manufacturing, particularly in the area of metal additive manufacturing. his innovative work on electrochemical polishing processes is set to revolutionize the way 3d-printed components are finished, improving their performance and reliability. his Advanced Manufacturing research also addresses sustainability issues by reducing the consumption of harmful chemicals and energy in industrial processes. the influence of his work extends beyond academia, as his research has the potential to benefit various industries that rely on precision manufacturing, such as aerospace, automotive, and biomedical engineering.

Legacy and future contributions 🔮

Looking ahead, dr. liu’s work is poised to shape the future of advanced manufacturing. his focus on improving additive manufacturing processes and material finishes will continue to drive innovations in 3d printing and electrochemical polishing technologies. with the potential to influence various industries, including those focused on green manufacturing, his future contributions are expected to pave the way for more sustainable and efficient production techniques. as he completes his phd and steps into the next phase of his career, dr. liu’s research legacy will undoubtedly contribute to the continued advancement of mechanical engineering and manufacturing technologies globally.

Notable Publications 

  • Title: Research on conductive-material-filled electrodes for sidewall insulation performance in micro electrochemical machining
    Authors: Liu, G.-D., Zhu, Y.-L., Liu, S.-G., Li, C.-J.
    Journal: Advances in Manufacturing, 2023, 11(3), pp. 509–522
  • Title: Quantitative-regulated material removal rate in solid dielectric electrochemical polishing (QRR-SDEP) for smoothing high roughness surface of additively manufactured 316L stainless steel components
    Authors: Liu, S., Li, C., Jin, X., Yang, Y., Ong, L.C.L.
    Journal: Additive Manufacturing, 2023, 73, 103689
  • Title: Surface characteristics enhancement and morphology evolution of selective-laser-melting (SLM) fabricated stainless steel 316L by laser polishing
    Authors: Li, C., Liu, D., Liu, G., Jin, X., Bai, Y.
    Journal: Optics and Laser Technology, 2023, 162, 109246
  • Title: Nucleation and Growth Behaviors of Nickel Coating by Jet Electrodeposition under the Combined Effect of Convection and Vertical Distribution
    Authors: Zhang, F., Liu, S., Wang, F.
    Journal: Journal of Physical Chemistry C, 2022, 126(34), pp. 14669–14679
  • Title: One-step fabrication of Cu2O-Cu catalytic electrodes with regular porous array by ultra-fast laser scanning
    Authors: Li, C., Liu, S., Jin, X., Jing, H., Cao, X.
    Journal: Journal of Alloys and Compounds, 2022, 900, 163455