Abdullatif Hakami | Energy | Innovative Research Award

Innovative Research Award

Abdullatif Hakami
Researcher Abdullatif Hakami
Affiliation University of Bisha
Country Saudi Arabia
Scopus ID 57295821700
Documents 19
Citations 288
h-index 6
Subject Area Energy
Event Global Scholar Awards
ORCID 0000-0002-2639-9780

Abdullatif Hakami
University of Bisha

Abdullatif Hakami
is an academic researcher at the University of Bisha, Saudi Arabia, whose research primarily focuses on energy engineering, renewable energy technologies, sustainable power systems, energy optimization, and intelligent computational methods. His scholarly work contributes to advancing efficient energy utilization and environmentally sustainable engineering solutions through multidisciplinary research and peer-reviewed scientific publications.[1]

Abstract

Abdullatif Hakami has developed an emerging research profile within energy engineering through investigations involving renewable energy technologies, optimization techniques, intelligent computational models, and sustainable energy management. His publications address engineering challenges associated with power generation, energy efficiency, and environmental sustainability while encouraging innovative analytical approaches for practical applications. Supported by peer-reviewed research, measurable citation performance, and interdisciplinary collaboration, his work contributes to scientific understanding of modern energy systems and demonstrates continuing commitment to advancing sustainable engineering solutions, technological innovation, and knowledge dissemination within the international research community.[2]

Keywords

Renewable energy, energy optimization, sustainable energy, photovoltaic systems, power systems, machine learning, artificial intelligence, energy efficiency, smart grids, engineering optimization.

Introduction

Abdullatif Hakami investigates contemporary energy challenges through research emphasizing renewable technologies, optimization algorithms, and sustainable engineering applications. His studies integrate computational methodologies with practical energy solutions, supporting scientific progress toward efficient resource utilization, environmental responsibility, and resilient power infrastructure across diverse engineering disciplines.[1]

Research Profile

Abdullatif Hakami maintains research interests spanning renewable energy systems, optimization methods, intelligent computing, sustainable engineering, and energy management. His scholarly publications demonstrate interdisciplinary collaboration while addressing technological improvements that strengthen energy performance, operational reliability, and environmentally responsible engineering development through scientific investigation.[3]

Research Contributions

Abdullatif Hakami contributes to advancing sustainable energy research by developing optimization strategies, evaluating renewable technologies, and applying computational intelligence within engineering systems. His investigations enhance understanding of efficient energy utilization while supporting innovative methodologies that address evolving industrial and environmental energy requirements.[4]

Publications

Abdullatif Hakami has published peer-reviewed research concerning renewable energy technologies, optimization algorithms, photovoltaic performance, intelligent engineering systems, and sustainable power applications. His publications provide scientifically validated findings that support academic researchers, engineers, policymakers, and professionals working toward efficient and sustainable energy solutions globally.[2]

Research Impact

Abdullatif Hakami demonstrates growing scholarly influence through nineteen Scopus-indexed publications, two hundred eighty-eight citations, and an h-index of six. These academic indicators reflect increasing recognition, scientific relevance, and meaningful contributions supporting innovation within renewable energy engineering and sustainable technological research.[1]

Award Suitability

Abdullatif Hakami demonstrates suitability for the Innovative Research Award through sustained scholarly productivity, interdisciplinary energy investigations, and meaningful scientific contributions addressing sustainable engineering challenges. His publication record, research quality, and measurable academic impact reflect commitment to advancing innovation within contemporary energy science.[1]

Conclusion

Abdullatif Hakami continues contributing valuable knowledge to sustainable energy engineering through research integrating optimization, renewable technologies, and intelligent computational approaches. His scientific achievements support practical engineering advancement while strengthening collaborative research, environmental sustainability, and future innovations addressing global energy challenges effectively.[2]

References

  1. Elsevier. (n.d.). Scopus Author Details: Abdullatif Hakami, Author ID 57295821700. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57295821700
  2. ORCID. (n.d.). Abdullatif Hakami Research Profile.
    https://orcid.org/0000-0002-2639-9780
  3. Google Scholar. (n.d.). Abdullatif Hakami Citation Profile.
    https://scholar.google.com/citations?hl=en&user=xI7caqMAAAAJ
  4. Hakami, A. (n.d.). Simulation-based design of ultra-fast dynamic torque control for electric vehicle permanent magnet motor drives.
    https://doi.org/10.3390/en19133085
  5. Global Scholar Awards. (n.d.). Official Award Website.
    https://globalscholarawards.com/

Bahareh Heidary | Energy | Women Researcher Award

Dr. Bahareh Heidary | Energy | Women Researcher Award

Assistant Professor | University of Tehran | Iran

Dr. Bahareh Heidary is an emerging scholar at the University of Tehran, Iran, recognized for her interdisciplinary contributions to sustainable development, water governance, and agricultural policy research. With 6 published documents, 103 citations, and an h-index of 4, she has built a growing academic footprint focused on understanding the socio-environmental challenges faced by farming communities. Her research examines how individual, social, and institutional characteristics shape adaptive capacity in response to water and energy crises, emphasizing evidence-based approaches to enhance resilience in resource-scarce environments. Dr. Heidary’s 2025 open-access article in Water Policy, “Examining the impact of farmers’ individual and social characteristics on enhancing adaptive capacity to water and energy crises,” demonstrates her methodological rigor and commitment to addressing real-world sustainability issues through empirical analysis. She frequently collaborates with national and international researchers, integrating perspectives from environmental management, rural livelihoods, social sciences, and resource economics to generate holistic insights relevant to policymakers, water management institutions, and development agencies. Her work contributes significantly to global conversations on climate adaptation, sustainable agricultural systems, and equitable resource management. By identifying key behavioral and community-level drivers of adaptive decision-making, Dr. Heidary provides practical guidance for designing resilience-oriented policies and supporting vulnerable rural populations. Her emerging scholarship reflects both academic excellence and societal relevance, positioning her as a promising researcher dedicated to advancing sustainable and resilient solutions at the intersection of environmental change, agriculture, and community development.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

Heidary, B., Hassan-Beygi, S. R., Ghobadian, B., & Taghizadeh, A. (2013). Vibration analysis of a small diesel engine using diesel–biodiesel fuel blends. Agricultural Engineering International: CIGR Journal, 15(3), 117–126. Cited by: 65

Heidary, B., Hashjin, T. T., Ghobadian, B., & Roshandel, R. (2018). Optimal integration of small-scale hybrid solar–wind RO–MSF desalination system. Renewable Energy Focus, 27, 120–134. Cited by: 55

Akbarnia, A., Farhani, F., & Heidary, B. (2013). Economic comparison of tillage and planting operations in three tillage systems. Agricultural Engineering International: CIGR Journal, 15(4), 180–184. Cited by: 13

Heidary, B., Hassan-Beygi, S. R., & Ghobadian, B. (2013). Investigating a power tiller vibration transmissibility using diesel–biodiesel fuel blends under stationary conditions. Journal of Mechanical Engineering and Technology (JMET), 5(1). Cited by: 12

Heidary, B., Hashjin, T., Ghobadian, B., & Roshandel, R. (2019). Performance analysis of hybrid solar–wind RO–MSF desalination system. Resource-Efficient Technologies. Cited by: 10