Aleksandr Kulikov | Energy and Sustainability | Research Excellence Award

Published on by Research Hypothesis

Prof. Dr. Aleksandr Kulikov | Energy and Sustainability | Research Excellence Award

Prof. Dr. Aleksandr Kulikov | Energy and Sustainability | Research Excellence Award | Lecturer | Nizhny Novgorod State Technical University | Russia

Prof. Dr. Aleksandr Kulikov is a distinguished scholar in electric power engineering, widely recognized for his advanced expertise in relay protection, emergency automation, distributed generation, digital signal processing, and the cybersecurity of modern electric networks. Prof. Dr. Aleksandr Kulikov holds multiple higher education degrees across engineering and economics, including a doctoral-level qualification in electric power systems, complemented by earlier academic work in radar, radio navigation, and economic system reliability. His professional experience spans leadership positions in major energy enterprises, where he served as Deputy Chief Engineer, Director of trunk electric grid operations, scientific supervisor for government-funded technology programs, and a long-serving professor at the Nizhny Novgorod State Technical University. Throughout his career, Prof. Dr. Aleksandr Kulikov has demonstrated outstanding commitment to academic excellence, supervising master’s students, postgraduate researchers, and doctoral candidates, many of whom have successfully defended their dissertations under his mentorship. His research interests cover a wide spectrum of modern power-system challenges, including high-voltage line fault detection, emergency-mode processing, machine-learning-based grid diagnostics, selective control of power-quality indicators, and the reliability of renewable-integrated microgrids. His research skills span analytical modeling, digital signal processing, industrial frequency analysis, reliability assessment, fault location techniques, and the development of novel algorithms and decision-support systems for complex power networks. Prof. Dr. Aleksandr Kulikov has contributed more than three hundred scientific works, including publications in Scopus-indexed and Web of Science–indexed journals, IEEE conference proceedings, and high-impact engineering journals. His inventions and patents further demonstrate his innovative contributions to advancing electric power technologies. Among his numerous awards and honors are prestigious regional, national, and international distinctions, including medals, honorary diplomas, and recognition for excellence in scientific innovation and contributions to the development of electrical grid infrastructure. His leadership roles include membership in dissertation councils, editorial board service for multiple scientific journals, and expert involvement in federal technology-development programs. Prof. Dr. Aleksandr Kulikov continues to advance the field through active research, academic mentorship, and scientific collaboration, maintaining a significant influence on the evolution of intelligent power systems and modern energy engineering. His longstanding dedication to the scientific community, strong record of innovation, and impact on the reliability of national power systems solidify his status as a leading figure deserving of international recognition.

Profile: ORCID 

Featured Publications 

  1. Kulikov, A., Loskutov, A., Ilyushin, P., Kurkin, A., & Sluzova, A. (2025). High-voltage overhead power line fault location through sequential determination of faulted section technologies.

  2. Ilyushin, P., Papkov, B., Kulikov, A., & Suslov, K. (2025). Algorithm and methods for analyzing power consumption behavior of industrial enterprises considering process characteristics.

  3. Kulikov, A. L., Sevostyanov, A. A., & Ilyushin, P. V. (2023). Analysis of electrical-power quality in modern power-supply systems with selective control of several indicators.

  4. Kulikov, A., Ilyushin, P., Loskutov, A., & Filippov, S. (2023). Application of search algorithms in determining fault location on overhead power lines according to the emergency mode parameters.

  5. Kulikov, A., Loskutov, A., Bezdushniy, D., & Petrov, I. (2023). Decision tree models and machine learning algorithms in the fault recognition on power lines with branches.

  6. Kulikov, A., Ilyushin, P., & Suslov, K. (2023). Enhanced readability of electrical network complex emergency modes provided by data compression methods.

  7. Kulikov, A., Ilyushin, P., Suslov, K., & Filippov, S. (2023). Estimating the error of fault location on overhead power lines by emergency state parameters using an analytical technique.

 

 

Amir Hossein Nafez | Environmental Science | Environmental Impact Award

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Dr. Amir Hossein Nafez | Environmental Science | Environmental Impact Award

Academic Member | Isfahan University of medical Sciences | Iran

Dr. Amir Hossein Nafez is a distinguished environmental health engineer whose academic and research career reflects a deep commitment to sustainability, environmental biotechnology, and waste management innovation. He earned his Ph.D. in Environmental Health Engineering from Isfahan University of Medical Sciences, where his doctoral research focused on evaluating sewage sludge composting using biological and environmental parameters to enhance compost maturity and stability. Dr. Nafez also holds a Master’s degree from Tehran University of Medical Sciences and a Bachelor’s degree from Shahid Beheshti University of Medical Sciences, which together built a strong foundation in water, wastewater, and solid waste management. Currently serving as an Assistant Professor at the Department of Environmental Health Engineering, Isfahan University of Medical Sciences, he leads pioneering research projects on solid waste treatment, biosolids management, composting, and microbial risk assessment. His research interests encompass solid waste management, hazardous waste handling, biological waste treatment, composting and vermicomposting, biosolids recycling, and microbial quality assessment. Dr. Nafez has co-authored more than 35 peer-reviewed articles in globally recognized journals, including Waste Management, Environmental Research, Environmental Technology & Innovation, and Air Quality, Atmosphere & Health, where his work on microbial stability, heavy metal assessment, and biochar application in composting has been widely cited. His research skills include advanced laboratory analysis, microbial examinations, leachate treatment, bioremediation, and environmental monitoring. As a proactive academic, Dr. Nafez collaborates with interdisciplinary teams to address complex environmental and public health challenges while mentoring students in environmental sustainability and waste recovery methods. His professional engagements extend to collaborative research on microbial risk mitigation, pollution control, and the development of safe waste disposal practices in healthcare and industrial sectors. Dr. Nafez’s notable contributions have earned him recognition within the scientific community, highlighting his commitment to promoting eco-efficient waste management systems and innovative recycling strategies. He has also contributed to national and international research initiatives aimed at reducing environmental contamination and improving urban health outcomes. Through his extensive research, teaching, and scientific collaborations, Dr. Amir Hossein Nafez continues to influence the advancement of environmental engineering practices globally. His scholarly dedication, technical expertise, and vision for sustainable development underscore his significant role in shaping future environmental health strategies, making him a deserving candidate for recognition and professional distinction in the global research community.

Profile:  Google scholar | Scopus 

Featured Publications

  1. Nikaeen, M., Nafez, A. H., Bina, B., Nabavi, B. F., & Hassanzadeh, A. (2015). Respiration and enzymatic activities as indicators of stabilization of sewage sludge composting. Waste Management, 39, 104–110. (Citations: 112)

  2. Nafez, A. H., Nikaeen, M., Bina, B., & Hassanzadeh, A. (2015). Composting of sewage sludge in different strategies of aeration with a mixture of green plant wastes as bulking agent. Fresenius Environmental Bulletin, 24(6), 2406–2414. (Citations: 58)

  3. Nafez, A. H., Nikaeen, M., Kadkhodaie, S., & Hatamzadeh, M. (2015). Sewage sludge composting: Quality assessment for agricultural application. Environmental Monitoring & Assessment, 187(709), 1–9. (Citations: 85)

  4. Sadeghi, S., Nafez, A. H., Nikaeen, M., Mohammadi, F., & Hadi, M. (2022). Microbial characteristics of municipal solid waste compost: Occupational and public health risks from surface-applied compost. Waste Management, 144, 98–105. (Citations: 47)

  5. Nafez, A. H., Nikaeen, M., Hassanzadeh, A., & Kadkhodaei, S. (2020). Changes in microbial populations during co-composting of dewatered sewage sludge with pruning wastes in windrow piles. Biodiversitas, 21(10), 4655–4662. (Citations: 22)

  6. Sharafi, S. M., Ebrahimpour, K., & Nafez, A. H. (2021). Environmental disinfection against COVID-19 in different areas of health care facilities: A review. Reviews on Environmental Health, 36(2), 193–198. (Citations: 95)

  7. Yavari, A., Nazar, M. M., Sharafi, S. M., & Nafez, A. H. (2022). Evaluation of stability and maturity indices during composting process from a mixture of poultry waste and sawdust by windrow method. Iranian Journal of Health and Environment, 15(4), fa1–fa16. (Citations: 19)