Oscar Alfredo Jaramillo Salgado | Renewable Energy | Excellence in Scientific Innovation Award

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Dr. Oscar Alfredo Jaramillo Salgado | Renewable Energy | Excellence in Scientific Innovation Award

Researcher | National Autonomous University of Mexico | Mexico

Dr. Oscar Alfredo Jaramillo Salgado is a leading renewable energy researcher whose work has significantly advanced concentrated solar power, small and urban wind systems, applied thermodynamics, and integrated renewable-energy solutions in Mexico and globally. As a principal investigator at UNAMโ€™s Renewable Energy Institute, he has achieved the highest national research distinctions and contributed extensively to national and international scientific collaborations, including key initiatives within the International Energy Agency. His prolific research output includes more than 130 publications across solar and wind energy, supported by strong scientific impact reflected in 2,009 citations by 1,752 documents, 58 documents indexed, and an h-index of 24, demonstrating the depth and reach of his contributions. He has authored influential books, book chapters, and multiple patents, showing a strong commitment to innovation in renewable-energy technologies, with achievements spanning experimental development and analytical modeling. His pioneering contributions include establishing specialized research groups and laboratories in wind energy and medium concentrating solar systems, strengthening Mexicoโ€™s research capacity and technological leadership in sustainable energy. He has also played a major role in academic development through extensive teaching, supervision of graduate-level research, and curriculum design, fostering highly qualified professionals in engineering and energy sciences. His areas of expertise encompass the design, optimization, and exergy-based evaluation of renewable systems, along with hybrid and integrated energy solutions aimed at enhancing efficiency, scalability, and environmental performance. Through sustained scholarly output, leadership in collaborative programs, and strategic contributions to solar and wind energy research, Dr. Oscar Alfredo Jaramillo Salgado continues to shape the advancement of renewable technologies and support the transition toward sustainable energy systems.

Profiles: Scopus | Google Scholar

Featured Publications

Rosa Rodriguez | Sustainability | Outstanding Contributions in Academia Award

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Prof. Dr. Rosa Rodriguez | Sustainability | Outstanding Contributions in Academia Award

National University of San Juan | Argentina

Prof. Dr. Rosa Rodriguez is a distinguished professor at the Universidad Nacional de San Juan, Argentina, with expertise in process engineering and environmental sustainability. She earned her doctoral degrees from the University de Perpignan in France and the Universidad Nacional de La Plata in Argentina, specializing in process engineering and chemical engineering. Her academic journey reflects a strong commitment to advancing sustainable technologies, particularly in renewable energy, environmental protection, and green process design. She has contributed extensively to international research through her publications on biochar applications, hydrocarbon extraction, atmospheric pollutant dynamics, hydroponic systems, biomass valorization, and cleaner production processes. Her notable works include studies on biochar from walnut and almond shells as renewable energy carriers, innovative techniques for pumpkin peel dehydration, the role of biochar and fertilizers in lettuce production, and sustainable methods for furfural and pectin extraction from agro-industrial residues. With a consistent focus on integrating experimental and analytical approaches, she has made impactful contributions to cleaner energy pathways, waste-to-value strategies, and environmental remediation. Her scholarly impact is evidenced by 2,049 citations across 1,416 documents, 74 publications, and an h-index of 31. Beyond her research, she plays an active role in guiding young scholars and fostering collaborations between academic and industrial partners, reflecting her dedication to knowledge transfer and innovation. Her scholarly presence is recognized across multiple academic platforms such as Scopus, SciProfiles, and Loop, where her work continues to gain wide visibility and influence. Through her career, she has established herself as a leader in advancing sustainable process engineering and environmental sciences, bridging theoretical research with practical applications that benefit both industry and society.

Profile: Scopus | Orcid | Linkedin

Featured Publications

Sanchez, E., Zabaleta, R., Navas, A. L., Maldonado, V. N. F., Fabani, M. P., Mazza, G., & Rodriguez, R. (2025). Influence of walnut shell biochar and fertilizer on lettuce production in hydroponic and conventional systems. Agronomy, 15, 658.

Romรกn, M. C., Mut, I., Echegaray, M., Fabani, M. P., Mazza, G., & Rodriguez, R. (2025). Pumpkin peel dehydration using a fluidized bed contactor: A technical and environmental study. Biomass Conversion and Biorefinery, 15, 3345โ€“3360.

Torres-Sciancalepore, R., Nassini, D., Asensio, D., Bohรฉ, A., Rodriguez, R., Fouga, G., & Mazza, G. (2024). Synergistic effects of the mixing factor on the kinetics and products obtained by co-pyrolysis of Rosa rubiginosa rosehip seed and husk wastes. Energy Conversion and Management, 302, 118095.

Fernandez, A., Zalazar-Garcรญa, D., Lorenzo-Doncel, C., Yepes Maya, D. M., Silva Lora, E. E., Rodriguez, R., & Mazza, G. (2024). Kinetic modeling of co-pyrogasification in municipal solid waste (MSW) management: Towards sustainable resource recovery and energy generation. Sustainability, 16(10), 4056.

Sanchez, E., Zabaleta, R., Navas, A. L., Torres-Sciancalepore, R., Fouga, G., Fabani, M. P., Rodriguez, R., & Mazza, G. (2024). Assessment of pistachio shell-based biochar application in the sustainable amendment of soil and its performance in enhancing bell pepper (Capsicum annuum L.) growth. Sustainability, 16, 4429.

 

Muhammad Babar Ramzan | Sustainability | Best Researcher Award

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Dr. Muhammad Babar Ramzan | Sustainability | Best Researcher Award

Assistant Professor | National Textile University | Pakistan

Dr. Muhammad Babar Ramzan is an accomplished academic and researcher serving as an Assistant Professor at the School of Engineering Technology, National Textile University, Faisalabad. With expertise spanning industrial and management engineering, textile engineering, and quality management systems, he combines academic excellence with industry-oriented problem-solving. His professional journey bridges academia and industry, marked by impactful research contributions in sustainability, process improvement, and textile innovation. Through international publications, conference presentations, and funded projects, he has developed a strong reputation for advancing circular economy practices and human-based quality control systems, inspiring innovation in textile engineering and management education.

Professional Profile

Scopus

Orcid

Google Scholar

Education

Dr. Muhammad Babar Ramzan pursued his PhD in Industrial and Management Engineering at Hanyang University, South Korea, where he specialized in composite modeling for evaluation of human-based inspection systems. His research emphasized quality management and advanced optimization methodologies. He also holds an MS degree in Textile Engineering from National Textile University, Pakistan, where he investigated dimensional stability in knitwear. Earlier, he completed a BS in Textile Engineering with a focus on garment manufacturing. This solid academic foundation reflects his continuous pursuit of interdisciplinary knowledge, blending engineering management, textile sciences, and sustainability to address challenges in modern manufacturing environments.

Experience

Dr. Muhammad Babar Ramzan career encompasses an enriching blend of academic and industrial roles. Currently, he is an Assistant Professor at National Textile University, where he has been actively teaching, mentoring, and leading research initiatives. He previously served as Assistant Professor at the University of Management and Technology, Lahore, and Lecturer at The University of Faisalabad. His industrial experience includes leadership roles at Masood Textile Mills Limited, where he gained practical expertise in production operations, quality control, and assurance. This dual exposure allows him to integrate theory and practice, contributing effectively to both academic excellence and industrial competitiveness.

Research Interests

Dr. Muhammad Babar Ramzan research is centered on data-driven process improvement, mathematical modeling, and sustainable industrial practices. His scholarly pursuits explore human-based quality inspection systems, supply chain resilience, lean methodologies, and consumer-focused textile innovation. He is deeply engaged in developing models that enhance efficiency, reduce waste, and promote responsible consumption through circular economy approaches. His interdisciplinary research spans textile engineering, operations research, and industrial engineering, addressing challenges in productivity, environmental impact, and design for sustainability. With a passion for innovation, he continuously investigates novel strategies that merge industry needs with academic insights to foster long-term sustainable growth.

Awards

Throughout his career, Dr. Muhammad Babar Ramzan has been recognized for his academic and research excellence through various professional milestones. His achievements include successfully completing funded research projects sponsored by higher education institutions and industry collaborations. He has been entrusted with national-level responsibilities such as serving as a curriculum reviewer for garment engineering programs, reflecting his expertise and academic leadership. His patents, conference presentations, and impactful journal publications also stand as significant academic honors. Additionally, his guidance in producing industrial innovations like eco-friendly textile processes and sustainable product designs further highlight his contributions to applied research and industry advancement.

Top Noted Publications

Title: A robust possibilistic flexible programming approach toward a resilient and cost-efficient biodiesel supply chain network
Year: 2022
Cited by: 120

Title: Competency framework development for effective human resource management
Year: 2021
Cited by: 92

Title: Effect of inspection performance in smart manufacturing system based on human quality control system
Year: 2018
Cited by: 81

Title: Medicine supply chain model for an integrated healthcare system with uncertain product complaints
Year: 2018
Cited by: 73

Title: Interactive fuzzy multi criteria decision making approach for supplier selection and order allocation in a resilient supply chain
Year: 2019
Cited by: 53

Conclusion

Considering his impactful contributions in academia, industry, and research, Dr. Muhammad Babar Ramzan stands as a strong candidate for the Best Researcher Award. His extensive record of publications, innovation in sustainable textile solutions, active role in higher education, and leadership in research supervision collectively showcase excellence. With further global collaborations and interdisciplinary engagement, he has the potential to make even greater contributions to industrial engineering and sustainable development.

Idan Chiyanzu | Biogas production | Best Researcher Award

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Dr. Idan Chiyanzu | Biogas production | Best Researcher Award

Senior Researcher, Agricultural Research Council, South Africa

๐ŸŒ Dr. Idan Chiyanzu is a seasoned researcher and academic specializing in Renewable Energy and Bioprocess Engineering. With over a decade of experience in academia and industry, he has made significant contributions to the fields of bio-energy, anaerobic digestion, and sustainable agro-industrial applications. Currently, he serves as a Senior Researcher at the Agricultural Research Council (ARC), South Africa, where he leads innovative projects focused on renewable energy and infrastructure. Dr. Chiyanzu is an accomplished author with a strong publication record, an H-index of 7, and over 446 citations on Scopus. ๐ŸŽ“โœจ

Publication Profile

Google Scholar

Education

๐Ÿ“˜ Dr. Chiyanzu holds a Ph.D. in Chemical Engineering (2009) from the University of Cape Town, specializing in Bioprocess Engineering and Industrial Microbiology. His groundbreaking doctoral research explored the biocatalytic applications of thermostable nitrile hydratase. He also earned an M.Sc. in Chemistry (2004) with a focus on antiparasitic protease inhibitors, and a B.Sc. in Chemistry with Education (2000) from the University of Zambia. ๐ŸŽ“๐Ÿ”ฌ

Experience

๐Ÿ”ฌ Dr. Chiyanzu has extensive experience in research and academia, having held various roles, including Postdoctoral Fellow, Assistant Lecturer, and Acting Research Team Manager. Currently, as a Senior Researcher at ARC, he supervises teams working on renewable energy and agroprocessing technologies. His career spans institutions such as the University of Cape Town, North-West University, and Stellenbosch University, where he taught bioprocess engineering and mentored emerging scientists. ๐ŸŒฑ๐Ÿ’ก

Research Interests

๐Ÿ’ก Dr. Chiyanzuโ€™s research focuses on renewable energy technologies, biogas production, and bioenergy process optimization. He is passionate about advancing sustainable agriculture through energy efficiency and innovative biotechnological solutions. His interests also include metabolic pathway reconstruction in microbial systems for bioethanol and bioethylene production. ๐ŸŒพโšก

Awards

๐Ÿ† Dr. Chiyanzu has been recognized with prestigious awards, including the NRF Scarce-Skills Grant for postdoctoral research at North-West University and the NRF Indigenous Knowledge System Grant for his work at the Agricultural Research Council. These accolades highlight his contributions to renewable energy and bioprocess engineering. ๐ŸŒŸ

Publications

Sihlangu E, Luseba D, Regnier T, Magama P, Chiyanzu I, Nephawe KA (2024). “Investigating Methane, Carbon Dioxide, Ammonia, and Hydrogen Sulphide Content in Agricultural Waste during Biogas Production.” Sustainability, 16(12):5145. DOI: 10.3390/su16125145.

Magama P, Chiyanzu I, Mulopo J (2022). “A systematic review of sustainable fruit and vegetable waste recycling alternatives and possibilities for anaerobic biorefinery.” Bioresource Technology Reports, Volume 18, 101031. DOI: 10.1016/j.biteb.2022.101031.

Magama P, Chiyanzu I, Mulopo J (2022). “A parametric experimental validation of a biorefinery concept based on anaerobic digestion of fruit and vegetable waste.” Biofuels, Bioproducts and Biorefining, 16(4): 972-985. DOI: 10.1002/bbb.2324.

Manyako KE, Chiyanzu I, Mulopo J, Abdulsalam J (2022). “Pilot-Scale Evaluation of Concentrating Solar Thermal Technology for Essential Oil Extraction and Comparison with Conventional Heating Sources for Use in Agro-Based Industrial Applications.” ACS Omega, 7(24): 20477-20485. DOI: 10.1021/acsomega.2c02485.

Chiyanzu I (2021). “The reconstruction of metabolic pathways in selected bacterial and yeast strains for the production of bio-ethylene from crude gly.” (Incomplete citation).