Mehdi Safaei | Sustainable Energy | Renewable Energy Education Award

Assist. Prof. Dr. Mehdi Safaei | Sustainable Energy | Renewable Energy Education Award

Assistant Professor | Istanbul Gelişim University | Turkey

Dr. Mehdi Safaei is an accomplished scholar with over 12 years of teaching and research experience in Industrial Engineering, specializing in supply chain management, logistics optimization, and sustainable supply networks. He earned his Ph.D. in Industrial Engineering (Logistics and Supply Network) from the University of Bremen, Germany in 2014, graduating with magna cum laude distinction and a perfect GPA, supported by the prestigious IGS scholarship. He also holds an M.Sc. and B.Sc. in Industrial Engineering from Sharif University of Technology, Iran, where he ranked first in the highly competitive national entrance examination. Professionally, Dr. Safaei has served as Assistant Professor at Istanbul Gelisim University since 2019, leading TÜBİTAK-funded projects, publishing extensively, and supervising more than 400 undergraduate and 30 graduate theses. His previous roles include Assistant Professor at Razi Vaccine and Serum Research Institute, Lecturer at the University of Tehran and Al-Zahra University, and Research Assistant at BIBA-LogDynamic, Germany, where he received three Best Paper Awards. His research interests include dynamic supply network design, green supply chain management, machine learning in logistics, crisis management, and Industry 4.0 integration. He is skilled in supply chain modeling, project management, risk analysis, and quantitative research, with advanced expertise in simulation, ERP systems, and statistical analysis. A dedicated mentor and collaborator, he has translated key logistics texts, authored two books, and published 40+ journal and conference papers in reputed outlets such as IEEE, Elsevier, and Scopus-indexed journals. His professional affiliations include INFORMS, CSCMP, EurOMA, IISE, and IAENG, reflecting his active engagement with the global research community. Dr. Safaei’s outstanding achievements have earned him honors such as “Magna Cum Laude” recognition, national top rankings, and multiple international awards. Dr. Safaei’s growing academic impact is reflected in 132 citations, 17 documents, and an h-index of 7, demonstrating his significant and sustained influence in the field of industrial engineering and sustainable supply chain management.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Alsharif, A. H., Salleh, N. Z. M., Baharun, R. B., & Safaei, M. (2020). Neuromarketing approach: An overview and future research directions. Journal of Theoretical and Applied Information Technology, 98(7), 915–925. Cited by 65

2. Safari, Y., Abdollahi, S. A., Mahmoudi, M., Safaei, M., Taghinia, F., & Pasha, P. (2023). Numerical study of heat transfer of wavy channel supercritical CO2 PCHE with various channel geometries. International Journal of Thermofluids, 18, 100330. Cited by 32

3. Mosier, W., Elhadary, T., Elhaty, I. A. M., & Safaei, M. (2020). Crisis management and the impact of pandemics on religious tourism. Dublin Institute of Technology Conference Proceedings. Cited by 30

4. Safaei, M. (2014). An integrated multi-objective model for allocating the limited sources in a multiple multi-stage lean supply chain. Economic Modelling, 37, 224–237. Cited by 26

5. Safaei, M., & Thoben, K. D. (2014). Measuring and evaluating of the network type impact on time uncertainty in the supply networks with three nodes. Measurement, 56, 121–127. Cited by 20

Leyla Akbulut | Sustainable Energy Policies | Best Innovation Award

Ms. Leyla Akbulut | Sustainable Energy Policies | Best Innovation Award

Lecturer at Alanya Alaaddin Keykubat University, Turkey

Leyla Akbulut is a dedicated academic and researcher in the field of Electrical and Electronics Engineering, with a strong professional focus on renewable energy systems, energy efficiency, and distribution network optimization. She has combined academic teaching, applied research, and project leadership to contribute significantly to sustainable energy transitions. Her career demonstrates a unique blend of theoretical expertise and practical implementation, particularly in solar energy integration, energy performance contracting, and smart grid applications. Beyond her technical contributions, she has actively participated in cross-disciplinary projects that connect academia, industry, and government institutions, making her work relevant to both scientific advancement and societal needs. Known for her innovation-driven research, she has also earned recognition from prestigious organizations at both national and European levels. Her leadership in energy management initiatives, coupled with an active role in advancing education, positions her as an influential voice in the global move toward sustainable energy solutions.

Professional Profile 

Google Scholar | Scopus Profile | ORCID Profile 

Education

Her academic journey began with a solid foundation in Electrical and Electronics Engineering, which she pursued through undergraduate and graduate studies. She completed her bachelor’s studies with a focus on power systems and energy distribution, later strengthening her expertise with a master’s degree centered on electrical distribution optimization. Her doctoral research advanced these foundations by focusing on cutting-edge approaches for optimizing power distribution networks through innovative algorithms and efficiency-oriented frameworks. This academic progression reflects her continuous pursuit of excellence, bridging core engineering concepts with applied problem-solving in renewable energy systems. Her academic path has equipped her with in-depth technical knowledge, advanced mathematical modeling skills, and strong problem-solving abilities, essential for addressing modern challenges in sustainable energy. Her education has not only shaped her expertise but has also provided her with the necessary analytical and leadership skills to engage in interdisciplinary projects that integrate engineering, sustainability, and innovation.

Experience

Leyla Akbulut’s professional experience spans academia, industry, and research, showcasing a dynamic career that connects technical expertise with practical application. In academia, she serves as a lecturer, teaching courses in high voltage engineering, power system analysis, renewable energy, and distribution systems. Beyond teaching, she has taken on administrative and leadership roles, such as energy management coordination, ensuring institutional compliance with sustainability and efficiency goals. Her industrial experience includes roles in electrical distribution companies, where she contributed to R&D projects, grid modernization, and urban development projects as a site manager and systems engineer. She has also been actively involved in national-scale projects for the installation of solar energy plants, energy performance contracting, and grid optimization, serving both as project leader and collaborator. This diverse career trajectory has enabled her to combine academic rigor with hands-on technical expertise, making her contributions impactful across education, industry, and applied innovation in energy systems.

Research Interest

Her research interests lie at the intersection of renewable energy, energy efficiency, and advanced optimization of power systems. She focuses on the design, modeling, and analysis of sustainable energy systems, with special attention to photovoltaic projects, smart grids, and energy performance contracting. She is particularly interested in exploring how solar and biomass systems can be integrated into circular energy solutions for campuses and communities, advancing eco-friendly and cost-effective models. Additionally, her work investigates the application of metaheuristic algorithms for demand-side management, energy cost optimization, and efficiency improvements in electrical distribution networks. She is also keen on exploring interdisciplinary dimensions of energy research, such as economic feasibility, regulatory frameworks, and digitalization of power systems. Her research philosophy emphasizes innovation that combines environmental sustainability with practical applicability, aiming to create solutions that not only address technical challenges but also contribute to global energy transition and climate change mitigation efforts.

Awards and Honors

Throughout her career, Leyla Akbulut has received multiple prestigious recognitions that highlight both her academic excellence and her innovative contributions to energy research. She has been honored by national institutions for her efficiency-enhancing projects, reflecting her role in advancing applied research that directly impacts society. Internationally, her work has gained visibility through recognition by the European Commission, showcasing her ability to bring forward innovative and entrepreneurial approaches to renewable energy solutions. These awards emphasize her leadership in pioneering projects that improve sustainability and energy efficiency at institutional and community levels. In addition to formal awards, she has also been invited to present her work at scientific meetings and conferences, further confirming her position as a respected contributor in her field. Such distinctions not only validate her research but also demonstrate her influence in bridging academic innovation with real-world energy challenges and sustainable development goals.

Research Skills

Her research skills span a wide spectrum of analytical, technical, and interdisciplinary capabilities. She is proficient in advanced algorithmic modeling, including the use of genetic algorithms and mixed-integer linear programming for optimization of distribution systems. She has extensive experience in renewable energy integration, particularly in solar power plant installations and energy performance contracting frameworks. Her skills also extend to economic analysis of renewable energy projects, where she employs regression models and efficiency evaluations to assess feasibility and scalability. Beyond technical expertise, she has demonstrated strong leadership in managing collaborative research projects, coordinating teams of academics and practitioners from different sectors. She is equally skilled in preparing scientific publications for high-impact international journals, with experience in collaborative writing and interdisciplinary research dissemination. Her combined expertise in theory, application, and project management makes her a versatile researcher capable of producing innovative, sustainable, and impactful solutions in the energy domain.

Publication Top Notes

Title: Economic Efficiency of Renewable Energy Investments in Photovoltaic Projects: A Regression Analysis
Authors: A. Akbulut, M. Niemiec, K. Taşdelen, L. Akbulut, M. Komorowska, A. Atılgan, …
Journal: Energies
Year: 2025
Citation: 1

Title: Review of Metaheuristic Algorithms for Energy Efficiency, Demand Side Management and Cost Estimation
Authors: L. Akbulut, K. Taşdelen, A. Çoşgun
Journal: Rocznik Ochrona Środowiska
Year: 2025
Citation: 1

Title: Analysis of Electrical Distribution Network Voltage Configuration with Mixed Integer Linear Programming Algorithm and Genetic Algorithm in Terms of Energy Cost
Authors: L. Akbulut, S.S. Tezcan, A. Coşgun
Journal: Electrica
Year: 2020
Citation: 1

Title: Dağıtım Şebekesi Gerilim Konfigürasyonunun Karışık Tamsayı Lineer Programlama Algoritması ile Enerji Maliyeti Yönünden Araştırılması
Authors: L. Akbulut, S.S. Tezcan, A. Coşgun
Journal: Mühendislik Bilimleri ve Tasarım Dergisi
Year: 2019
Citation: 1

Title: Solar-Powered Biomass Revalorization for Pet Food and Compost: A Campus-Scale Eco-Circular System Based on Energy Performance Contracting
Authors: L. Akbulut, A. Coşgun, M.H. Aldulaimi, S.O.W. Khafaji, A. Atılgan, M. Kılıç
Year: 2025

Conclusion

In summary, Leyla Akbulut is a highly deserving candidate for the Best Innovation Award. Her pioneering research in renewable energy optimization, sustainable electricity distribution, and innovative campus-scale eco-energy systems demonstrates both technical excellence and societal impact. Her leadership in national projects, coupled with international publications and recognition by European and national institutions, underscores her innovation-driven contributions. With her strong academic background, professional expertise, and demonstrated capacity for impactful applied research, she stands out as a researcher who can continue driving cutting-edge solutions for sustainable energy futures, making her a worthy recipient of this award.