Alessia Amato | Metal Recovery From Waste | Women Researcher Award

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Assist Prof Dr Alessia Amato | Metal Recovery From Waste | Women Researcher Award

Fixed-term researcher type B, Polytechnic University of Marche, Italy

Alessia Amato is a dedicated researcher at the Polytechnic University of Marche, Italy, specializing in the Theory for the Development of Chemical Processes (TDCP). With a strong focus on environmental sustainability, she actively contributes to innovative research in recycling, circular economy, and urban mining. Over her 10-year academic career, Alessia has established valuable collaborations with universities and industries both nationally and internationally, promoting sustainable practices. Her work not only addresses critical environmental challenges but also aims to empower women in science, encouraging diversity in research fields.

Profile

Scopus

Strengths for the Award

  1. Impressive Academic Background: Alessia holds multiple degrees in relevant fields, including a PhD focused on sustainable urban mining strategies. Her academic qualifications establish her as a leader in environmental sciences.
  2. Robust Research Portfolio: With ongoing projects related to sustainable management of waste and innovative recycling technologies, she demonstrates a commitment to addressing pressing environmental challenges. Her experience spans both national and international research collaborations.
  3. Publication Record: With 51 published papers, an H-index of 19, and two published books, Alessia’s contributions to scientific literature are significant. Her research has been widely cited, underscoring her impact on the field.
  4. Innovation and Patents: Alessia has developed and submitted patents for waste management processes, showcasing her ability to translate research into practical applications that can benefit industry and society.
  5. Professional Engagement: Her editorial role and collaborations with various universities and industries reflect her dedication to advancing knowledge and practice in environmental sustainability.
  6. Focus on Circular Economy: Alessia’s emphasis on urban mining and critical raw materials is crucial for promoting a sustainable economy in Europe, aligning with current global sustainability goals.

Areas for Improvement

  1. Visibility and Outreach: While her research is impactful, increasing her visibility through more public engagement and outreach initiatives could amplify her influence in the broader community.
  2. Networking: Expanding her network within international organizations focused on sustainability could lead to more collaborative opportunities and greater dissemination of her work.
  3. Mentorship and Support for Women: Although Alessia is a role model for women in science, actively mentoring emerging female researchers could further strengthen her contribution to gender equality in academia.

Education

Alessia Amato graduated from Bologna University with a degree in Chemistry and Technologies for the Environment, laying a solid foundation for her future research. She furthered her studies by obtaining a Master’s in Environmental Sustainability and Civil Protection from the Polytechnic University of Marche in 2013. Alessia pursued her PhD in TDCP, where her thesis focused on “Innovative and Sustainable Strategies of Urban Mining.” This comprehensive academic background equipped her with the necessary skills to tackle complex environmental issues through innovative research and sustainable practices. Her education reflects her commitment to advancing knowledge in the field and highlights her dedication to creating a more sustainable future.

Experience 

Alessia Amato has a robust professional background, currently serving as a researcher in the Department of Life and Environmental Sciences at the Polytechnic University of Marche. She is an integral part of the Environmental Technologies research group, working on various national and international projects. Alessia has contributed to six completed projects and is currently involved in three ongoing research initiatives, focusing on sustainable waste management and innovative recycling technologies. Additionally, she consults for several companies, estimating their sustainability levels in sectors like oil refining, cosmetics, and waste treatment. Her experience in academia and industry bridges the gap between theoretical research and practical application, allowing her to drive impactful changes in sustainability practices. Through her teaching of environmental regulations and waste management, Alessia plays a vital role in educating future generations about sustainable practices.

Research Focus 

Alessia Amato’s research primarily revolves around urban mining, critical raw materials, and sustainability. Her work emphasizes the development of innovative strategies for waste recycling and management, contributing to the transition towards a circular economy. She explores hydrometallurgy and bio-hydrometallurgy techniques to enhance resource recovery from electronic waste, addressing significant environmental concerns. By analyzing life cycle assessments, Alessia aims to create more sustainable processes in various industries, ensuring minimal environmental impact. Her involvement in European projects underscores her commitment to advancing sustainable practices within the industry. Alessia’s research not only aims to improve waste management strategies but also to empower communities through education and collaboration, fostering a deeper understanding of sustainability. By focusing on integrating sustainability into industrial practices, her work plays a crucial role in shaping a greener future.

Publication Top Notes

  1. The application of the life cycle assessment and life cycle costing for the treatment of microelectronic industry effluents

  2. Marine materials as innovative metal sorbents suitable for applications in wastewater treatments

  3. Non-toxic, high selectivity process for the extraction of precious metals from waste printed circuit boards

  4. Life Cycle Assessment of Rare Earth Elements-Free Permanent Magnet Alternatives: Sintered Ferrite and Mn-Al-C

Conclusion

Alessia Amato is an exceptional candidate for the Research for Women Researcher Award. Her extensive research contributions, innovative approaches to sustainability, and commitment to advancing the circular economy position her as a leader in her field. Recognizing her efforts would not only honor her achievements but also inspire future generations of women researchers. Awarding her this recognition would reinforce the importance of diversity in scientific research and encourage more women to pursue careers in STEM.

 

 

Markus Miller | Electrical Engineering Award | Best Researcher Award

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Mr Markus Miller | Electrical Engineering Award | Best Researcher Award

Mr Markus Miller, Institute of Automation Technology, University of Bremen ,Germany

👨‍🎓 Markus Miller is an accomplished electrical engineer and Ph.D. researcher at the University of Bremen’s Institute of Automation Technology under Prof. Dr. Johanna Myrzik. His work focuses on integrating renewable energy into power grids, developing methodologies for hybrid AC-DC systems. Markus excels in probability and stochastic processes, aiding power grid planning as a tutor for “Stochastic Systems.” Noteworthy achievements include winning the 2016 Bremen Big Data Challenge. His research emphasizes cost-effective, flexible, and resilient grid expansion using AI and optimization techniques. Currently, he explores Smart Power Cells (SPCs) under the DFG SPP 1984 program, addressing challenges in decentralized power systems and Distributed Energy Resources (DERs).

Publication Profile

Orcid

Education

🎓 Markus Miller pursued his academic journey at the University of Bremen, where he earned a Bachelor of Science in Electrical Engineering and Information Technology from 2015 to 2019. Building upon this foundation, he continued to excel, completing his Master of Science in the same field from 2019 to 2021. His education equipped him with profound knowledge in electrical engineering, preparing him for his current role as a Ph.D. researcher specializing in renewable energy integration at the Institute of Automation Technology. Markus’s academic path underscores his dedication to advancing sustainable energy solutions and enhancing power grid efficiency through innovative methodologies and advanced technologies.

Experience

🔋 Markus Miller is currently immersed in pioneering research at the University of Bremen, focusing on integrating renewable energy into power grids. His work centers on developing comprehensive methodologies for planning interconnected hybrid and multimodal AC-DC power systems. As part of the DFG SPP 1984 program’s second phase, Markus explores the pivotal role of Smart Power Cells (SPCs) in decentralized power networks. Leveraging AI and mathematical programming solvers, he optimizes SPC operations and planning, tackling challenges such as Distributed Energy Resources (DERs), power generation uncertainties, and storage system operations. Additionally, Markus imparts his expertise as a tutor for “Stochastic Systems,” enhancing students’ grasp and application of probability and stochastic processes in power grid planning.

 

Research Focus

Markus Miller’s current research focuses on optimizing the allocation of renewable energy systems within weak distribution networks. This work, highlighted in the journal article “Optimal allocation of renewable energy systems in a weak distribution network” published in Electric Power Systems Research, aims to enhance the integration of renewable energy sources into power grids. Collaborating with José Luis Paternina Durán, Sergio F. Contreras, Camilo A. Cortes, and Johanna M.A. Myrzik, Markus addresses critical challenges such as grid stability and efficiency. By employing advanced methodologies and leveraging interdisciplinary insights, his research contributes to sustainable energy solutions that are crucial for meeting future energy demands while minimizing environmental impact.

Publication Top Note

Optimal allocation of renewable energy systems in a weak distribution network