Muhammad Hussain Ghazali | Food Science and Engineering | Young Researcher Award

Mr. Muhammad Hussain Ghazali | Food Science and Engineering | Young Researcher Award

South China University of Technology | China

Mr. Muhammad Hussain Ghazali is a doctoral researcher in Food Science and Engineering, recognized for pioneering contributions in meat science, nonthermal preservation technologies, and biobased packaging, with a particular distinction for advancing camel meat research in Pakistan. He holds a Doctor of Veterinary Medicine, an M.Phil. in Meat Science and Technology, and is pursuing a Ph.D. with a specialization in cold plasma–integrated bio-based packaging systems for meat quality and safety monitoring. His professional experience spans research, editorial service, mentoring, and scientific reviewing, including active peer-review contributions for leading international journals and verified reviewer status through global academic platforms. His research focuses on meat quality evaluation, cold plasma applications, sustainable packaging, analytical characterization techniques, and emerging omics-based food quality assessment, supported by competence in advanced data analysis tools. He has contributed to the scientific community through publications, collaborative projects, and active engagement in international research networks across multiple regions. His recognitions include editorial and reviewer certifications, distinctions for peer-review excellence, and involvement with reputable scientific bodies. Demonstrating strong analytical capacity, leadership potential, and a global research outlook, he continues to build a growing academic profile that reflects innovation, scientific rigor, and commitment to advancing food safety and engineering research.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Ghazali, M. H., Bakhsh, M., Zainab, U., Faraz, A., Munir, M. U., Channo, A., … (2023). Camel meat production, consumption and nutritive value: Present status and future prospects. International Journal of Camel Science, 5, 123–136.

2. Bakhsh, M., Ghazali, M. H., Yar, M. K., Channo, A., Kashif, M., Ijaz, M., … (2023). The role of fish in global food and nutrition security: Current aspects and future prospects. University of Sindh Journal of Animal Sciences, 7(4), 23–35.

3. Ghazali, M. H., Keener, K. M., Pan, Y., Zou, S., … (2025). Cold plasma-integrated bio-based packaging for meat quality and safety monitoring: A mini review. Food Wellness, 1(1), 100004.

4. Muhammad Hussain Ghazali, L. B., & Saleem, F. (2025). Cold plasma and high-pressure processing in sustainable meat preservation: A review. Food, Nutrition, and Health, 2(22), 1–14.

5. Shah, S. H. R., Qamar, M. H., Ghazali, M. H., Ali, S., Bilal, M., Fawad, A., Khalil, H. U. R., … (2024). New insights in uterine involution and ovarian resumption in domestic animals. Acta Scientific Veterinary Sciences, 6(6).

Mr. Muhammad Hussain Ghazali’s research advances innovative, sustainable approaches to meat safety and quality, contributing to global food security through nonthermal preservation and biobased packaging technologies. His work supports industry transformation by promoting safer, eco-friendly processing solutions and expanding scientific understanding of underexplored meat resources.

Ilker Acar | Sustainable Water Treatment | Best Researcher Award

Assist. Prof. Dr. Ilker Acar | Sustainable Water Treatment | Best Researcher Award

Research Staff | Ataturk University | Turkey

Asst. Prof. İlker Acar is an accomplished academic and researcher specializing in environmental engineering, with a strong interdisciplinary background in mining and mineral processing. He earned his doctoral degree with a focus on the characterization and utilization potential of industrial by-products and holds undergraduate and graduate qualifications in engineering and natural sciences. Currently serving as an Assistant Professor at Atatürk University, he has extensive professional experience in environmental protection, wastewater treatment, and waste management, contributing to both academic research and applied industry projects. His research focuses on wastewater collection and treatment, pollution prevention, hazardous waste management, geopolymers, composite materials, polymeric adsorbents, and surface chemistry. He has published in high-impact journals such as Sustainability, Chemosphere, and Journal of Sustainable Metallurgy, demonstrating his dedication to sustainable materials and environmental remediation. Dr. Acar has supervised postgraduate theses, participated in academic juries, and played a key role in developing innovative research in environmental technologies. Recognized for his scholarly contributions with a growing citation record, he exemplifies academic excellence and leadership in advancing sustainability-focused research. His continuous commitment to research innovation, mentoring, and collaborative initiatives underscores his strong potential for future advancements and further recognition as a leading figure in his field.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Açışlı, Ö., Acar, İ., & Khataee, A. (2022). Preparation of a surface modified fly ash-based geopolymer for removal of an anionic dye: Parameters and adsorption mechanism. Chemosphere, 295, 133870.

2. Açışlı, O., Acar, I., & Khataee, A. (2020). Preparation of a fly ash-based geopolymer for removal of a cationic dye: Isothermal, kinetic and thermodynamic studies. Journal of Industrial and Engineering Chemistry, 83, 53–63.

3. Acar, I., & Atalay, M. U. (2013). Characterization of sintered class F fly ashes. Fuel, 106, 195–203.

4. Acar, I., & Atalay, M. U. (2016). Recovery potentials of cenospheres from bituminous coal fly ashes. Fuel, 180, 97–105.

5. Acar, I., & Açışlı, O. (2018). Mechano-chemical surface modification of calcite by wet-stirred ball milling. Applied Surface Science, 457, 208–213.

Dr. İlker Acar’s research advances sustainable environmental technologies through innovative use of industrial by-products and waste materials, contributing to cleaner production and circular economy solutions. His work bridges science and industry by developing eco-efficient methods for wastewater treatment and resource recovery, fostering global progress toward environmental sustainability.

Anna Plichta | Engineering | Best Researcher Award

Mrs. Anna Plichta | Engineering | Best Researcher Award

Research and Teaching Assistant Professor, Cracow University of Technology, Poland

Dr. Anna Plichta is a Research and Teaching Assistant Professor at Cracow University of Technology, Poland, where she also works at the International Center of Education. With a multifaceted background in Comparative Literature and Computer Science, she combines insights from the humanities with advanced computational techniques. Dr. Plichta holds a PhD in Computer Science from Politechnika Wrocławska (2019) and has a strong academic foundation with degrees from Jagiellonian University and Politechnika Krakowska. Her interdisciplinary research focuses on machine learning, artificial intelligence, and applied computer science, with practical applications in energy systems, motor diagnostics, and microbiology. With a commitment to educational excellence and international collaboration, Dr. Plichta has been a key figure in research and teaching at the university for over a decade.

Profile

Strengths for the Award

  1. Diverse Research Interests and Impact: Dr. Plichta’s work spans multiple domains including comparative literature, computer science, machine learning, electrical engineering, and applied mathematics. This interdisciplinary approach showcases her ability to bridge distinct fields, offering innovative solutions to complex problems. Notably, her research on bacterial classification using machine learning methods and energy consumption forecasting using machine learning reflects her versatility and the relevance of her work to contemporary scientific and industrial challenges.
  2. High Citation Impact: Her publication titled “Deep learning approach to bacterial colony classification” has received 134 citations, which demonstrates significant influence and recognition in the scientific community. This kind of citation impact highlights the relevance and utility of her research findings.
  3. Technological Innovation: Her contributions to induction motor fault detection using machine learning techniques (e.g., simulated annealing and genetic algorithms) are highly practical, with clear industrial applications. This emphasizes her role in driving innovation in applied fields, particularly in electromechanical systems and energy sectors, making her work not only academic but also relevant to real-world problems.
  4. Academic Leadership and Teaching: As a Research and Teaching Assistant Professor at Cracow University of Technology, Dr. Plichta combines academic instruction with significant research involvement. Her active engagement in the International Center of Education is a testament to her dedication to fostering a new generation of researchers and students.
  5. Publication Quality: Dr. Plichta consistently publishes in peer-reviewed journals and presents at high-level conferences like those organized by the European Council for Modelling and Simulation. This speaks to her engagement with the broader academic community and her ability to produce high-quality research.

Areas for Improvement

  1. Collaboration and Interdisciplinary Work: While Dr. Plichta’s interdisciplinary work is commendable, further expanding collaborations with other research groups and international institutions could enhance the visibility and impact of her work. Expanding collaborative efforts, especially with industry partners, could help bring more practical applications to the forefront.
  2. Public Outreach and Dissemination: While her publications and citations are notable, there could be a more concerted effort to engage with the general public or non-academic stakeholders, particularly in areas like bacterial classification and energy forecasting, where her research could have significant societal impact. This could include public lectures, podcasts, or participation in science communication events.
  3. Further Publishing in High-Impact Journals: Publishing in higher-impact journals (e.g., Nature, IEEE Transactions) could further boost the international recognition of her work. While her current journal choices are respected, elevating the visibility of her research in top-tier outlets may further her career and contribute to the recognition of her as a leading expert in her field.

Education

Dr. Anna Plichta’s academic journey blends the study of literature and technology. She earned a BA in Comparative Literature (2005) and MA in Comparative Literature (2007) from Jagiellonian University. Her fascination with technology led her to pursue an MA in Computer Science (2010) from Politechnika Krakowska, followed by a PhD in Computer Science from Politechnika Wrocławska (2019). Her doctoral research focused on applying computational methods to real-world engineering challenges, a field that bridges the gap between theoretical knowledge and practical applications. With this strong foundation, she applies machine learning and AI techniques to diverse areas such as energy forecasting, motor fault detection, and bacterial classification. Dr. Plichta’s educational background not only demonstrates her expertise in both the arts and sciences but also her commitment to lifelong learning and interdisciplinary research.

Experience 

Dr. Anna Plichta has had a distinguished career as a Research and Teaching Assistant Professor at Cracow University of Technology since 2010. She has been an integral part of the university’s International Center of Education since 2015, fostering international research collaboration. Dr. Plichta’s professional experience spans both teaching and research, with a particular emphasis on computational techniques applied to energy systems, mechanical engineering, and biology. She has developed and taught courses related to machine learning, AI, and applied computer science. Her academic leadership extends to guiding postgraduate students and conducting collaborative research projects. Dr. Plichta’s expertise in energy consumption modeling, motor diagnostics, and microbial classification has positioned her as a thought leader in these domains, contributing to over 17 published works. She is also involved in the advancement of international education, contributing to the university’s global research network.

Research Focus 

Dr. Anna Plichta’s research focuses on applying machine learning and artificial intelligence to solve complex problems in fields ranging from energy systems to biological data analysis. Her work in forecasting energy consumption uses advanced computational techniques to predict energy demands in clusters, supporting sustainable energy solutions. In the area of electromechanical engineering, she has applied genetic algorithms and wavelet analysis to detect faults in induction motors, such as inter-turn short circuits. Additionally, her research in microbiology explores the use of image analysis and neural networks to identify bacterial species, contributing to more accurate and efficient diagnostic methods. Dr. Plichta is deeply invested in interdisciplinary research, bringing together computational methods with practical applications in industries such as energy, engineering, and healthcare. She is particularly interested in improving the accuracy and efficiency of diagnostic techniques and optimizing energy consumption through AI-driven models.

Publication 

  1. Forecasting Energy Consumption in Energy Clusters using Machine Learning Methods 📊💡
  2. Matrix Similarity Analysis of Texts Written in Romanian and Spanish 📚🔍
  3. Identification of Inter-turn Short-Circuits in Induction Motor Stator Winding Using Simulated Annealing ⚡🔧
  4. Application of Genetic Algorithm for Inter-turn Short Circuit Detection in Stator Winding of Induction Motor ⚙️🧠
  5. Recognition of Species and Genera of Bacteria by Means of the Product of Weights of the Classifiers 🦠🔬
  6. Application of Image Analysis to the Identification of Mass Inertia Momentum in Electromechanical Systems with Changeable Backlash Zone ⚙️🔍
  7. Application of Wavelet-Neural Method to Detect Backlash Zone in Electromechanical Systems Generating Noises 🔧🌊
  8. Methods of Classification of the Genera and Species of Bacteria Using Decision Tree 🌱📈
  9. Deep Learning Approach to Bacterial Colony Classification 🧬🤖
  10. The DDS Synthesizer (for FPGA Platform) for the Purpose of Research and Education 💻📚

Conclusion

Dr. Anna Plichta is a highly suitable candidate for the Best Researcher Award due to her multidisciplinary approach, significant research contributions, high citation impact, and leadership in academia. She has demonstrated a consistent ability to tackle complex challenges through computational methods, contributing valuable knowledge to both the scientific community and industrial sectors. Her work, particularly in machine learning and electromechanical systems, is both innovative and impactful.While there are always areas for improvement, such as expanding collaborative efforts and public outreach, these do not overshadow her significant academic achievements. Dr. Plichta’s track record of high-quality research and teaching, along with her contribution to solving real-world problems, make her an excellent contender for the Best Researcher Award.