Graduate Master Degree at Tarbiat Modares University, Iran
L. Saberi is an accomplished researcher in the field of electrical power engineering with expertise in integrated energy systems, optimization, and uncertainty modeling. With a strong academic background and extensive research contributions, Saberi has made significant advancements in sustainable energy management and system operations. Their work focuses on developing innovative methodologies for optimizing hybrid energy networks, ensuring security-constrained power flow, and integrating renewable resources efficiently into existing energy infrastructures.
Profile
Orcid
Education
L. Saberi obtained their Master of Science degree in Power Electrical Engineering from Tarbiat Modares University (TMU), Tehran, Iran, in 2016. Their thesis focused on the operation of microgrids equipped with thermostatically controlled loads using a rescheduling strategy under the supervision of Dr. Mohsen Parsa Moghaddam. They earned their Bachelor of Science in Electrical Engineering from the University of Guilan, Iran, in 2013, where they ranked among the top three students in their cohort. Their strong academic record and research potential led to outstanding performance in national entrance examinations for higher education.
Experience
Saberi has held multiple professional roles, including serving as a Medical Device Importers Technical Assistant at Nortec Pharmed Company from 2016 to 2020. Their expertise extends to consultancy in medical product technologies, where they received certifications from Bionmed Technologies GmbH, Germany. Additionally, they have contributed to the power engineering research community through extensive peer-reviewing roles for esteemed journals such as the International Journal of Energy Research and the International Journal of Power Electronics and Drive Systems. Their work spans both academic and industrial applications, reflecting a blend of theoretical knowledge and practical implementation.
Research Interests
Saberi’s research interests include energy efficiency, energy storage, and the optimization of hybrid energy systems incorporating natural gas, heat, cooling, and hydrogen. Their work focuses on security-constrained unit commitment, optimal power flow, and decision-making under uncertainty. Saberi has contributed significantly to developing efficient optimization techniques and mathematical programming approaches to address nonconvex and nonlinear challenges in power systems. Their studies also encompass machine learning algorithms for energy management, offshore and onshore renewable energy integration, and sustainable fuel technologies.
Awards and Honors
Saberi’s academic excellence has been recognized through prestigious achievements, including ranking 99th in the Iranian University Entrance Exam for a master’s degree in Electrical Power Engineering in 2014. They also placed in the top 0.6% among more than 350,000 participants in the national entrance examination for a bachelor’s degree in 2009. These distinctions reflect their outstanding academic and analytical capabilities, paving the way for their contributions to the energy research sector.
Selected Publications
L. Saberi, M. P. Moghaddam (2025). “Optimal Scheduling of Integrated Electricity-Gas Network Considering Topology Control Actions: A Two-Stage Hybrid Robust–Stochastic Approach,” IET Generation, Transmission & Distribution. (DOI: 10.1049/gtd2.70022)
Cited by multiple research articles focusing on hybrid optimization in power systems.
L. Saberi, M. I. Alizadeh, M. P. Moghaddam (2022). “Optimal Scheduling of Flexible Ramp Product and Emerging Flexible Resources Considering Short-Term Variability Impacts in Power System with High RESs Penetration: A Novel Robust UC Approach,” International Journal of Electrical Power & Energy Systems. (DOI: 10.1016/j.ijepes.2022.108279)
Highly cited in research studies on power system flexibility and renewable energy integration.
Comprehensive research (2023-2024). “Developing Hybrid Optimization Techniques with Application to Integrated Energy System Operation, Planning, and Economics.”
Contributed significantly to hybrid energy system modeling and operational efficiency.
Project Title (2021). “Flexibility Contribution of HVAC Loads in a Multi-Stage RUC with a Joint Energy and Ramp Reserve Scheduling.”
Implemented affinely adjustable robust optimization (AARO) for improved power system planning.
Project Title (2021). “Optimal Demand Response Strategies to Mitigate Wind Power Variability and Gas Supply Uncertainty in a Multi-Resolution Robust Security Constrained Unit Commitment.”
Modeled hybrid energy system operations considering uncertainty in wind and gas supply.
Survey Title (2022). “Techno-Economic Assessment of Green Fuels Application on a Wind-Dominated Zero-Emission Energy System.”
Evaluated offshore renewable energy systems with hydrogen co-generation strategies.
Security Constrained Optimal Power Flow Research (2025).
Ongoing research exploring security and economic implications in modern power grids.
Conclusion
L. Saberi is a dedicated researcher with expertise in power system optimization, energy storage, and hybrid energy network planning. Their academic and professional journey reflects a strong commitment to advancing energy management solutions through robust mathematical programming and machine learning techniques. Saberi’s research contributions have significantly impacted the field, promoting sustainable energy transition and enhancing the flexibility and reliability of power systems worldwide.