Dr. Ramūnas Deltuva is an Associate Professor (Dr. Engineer) in the Department of Electrical Power Systems at Kaunas University of Technology (KTU), Lithuania. Having earned his doctorate at KTU, he began his academic journey in 2009, initially as a doctoral student and lecturer, steadily advancing through the ranks to his current position.

Dr. Deltuva specializes in electrical power engineering, with expertise in the analysis and simulation of power systems, electromagnetic field distribution, high-voltage transmission lines, and stability during synchronous–island mode transitions. His extensive publication record includes 23 peer‑reviewed works, among them journal articles, conference papers, and technical books. Notably, he authored the IgMin Research paper “Compatibility Analysis of Frequency Containment Reserve and Load Frequency Control Functions” (2024), contributing critical insights into power system desynchronization, stabilization, and synchronization with Continental Europe.

On ResearchGate, Ramūnas highlights his commitment to bridging theory and practice. His pedagogical focus emphasizes project-based learning, the practical application of theoretical concepts, and proactive integration of current industry trends into teaching. He regularly supervises both undergraduate and graduate theses in areas such as circuit analysis, power system dynamics, smart grids, and electrical safety.

Active in international forums like Baltic TSO dispatch workshops, Dr. Deltuva incorporates global best practices into KTU’s curriculum. His primary goal as an educator and researcher is to cultivate creative problem solvers equipped for modern electrical engineering challenges, ensuring both academic rigor and professional excellence for his students.

Dr. Ramūnas Deltuva’s research primarily focuses on electrical power systems, with special emphasis on power grid stability, synchronous and islanded operation, and frequency containment strategies. He investigates the dynamic behavior of transmission networks during desynchronization and re-synchronization processes, contributing to safer and more efficient integration with continental power systems. His work also explores electromagnetic field analysis in high-voltage lines, load frequency control mechanisms, and simulation modeling of complex grid structures. Dr. Deltuva is actively involved in advancing smart grid technologies, enhancing energy security through real-time monitoring and control systems. Additionally, his research includes renewable energy integration, distributed energy resource management, and fault detection in transmission infrastructure. Through participation in European research forums and academic-industry collaborations, he contributes to the development of sustainable, resilient, and intelligent power systems. His interdisciplinary approach merges engineering principles with digital innovation, making significant contributions to Lithuania’s and Europe’s evolving energy landscape.