About Me

I am a chemical engineer and research professional specializing in electrochemical energy systems and sustainable fuel technologies. My work focuses on improving the technical performance and economic feasibility of next-generation hydrogen production pathways.

I completed my Master’s degree in Chemical Engineering with a focus on process systems engineering, where my thesis explored the techno-economic analysis and optimization of alkaline water electrolysis within Power-to-Methanol processes. This work combined rigorous process modeling with economic assessment to evaluate pathways toward scalable and cost-competitive green fuels.

Research Focus

My primary research interest lies at the intersection of electrochemistry, process engineering, and energy system optimization. I am particularly motivated by the challenge of transitioning low-carbon technologies from laboratory environments to industrial deployment.

Key areas of interest include:

• Alkaline and pressurized water electrolysis
• Power-to-X technologies
• Techno-economic and lifecycle assessment
• Dynamic process modeling
• Advanced control strategies for energy systems
• Integration of renewable energy with chemical production

Technical Expertise

My experience spans both simulation and applied engineering workflows. I regularly work with process modeling tools, data-driven analysis, and system-level optimization approaches to evaluate complex energy technologies.

I am especially interested in developing intelligent operational strategies that enhance efficiency, reduce costs, and enable flexible operation under renewable power fluctuations.

Career Vision

My long-term goal is to contribute to the development of industrial-scale sustainable energy systems by bridging the gap between academic research and real-world implementation. I am driven by the belief that hydrogen and synthetic fuels will play a critical role in decarbonizing hard-to-abate sectors.

I am always open to research collaborations, academic partnerships, and discussions related to electrochemical systems and future energy infrastructure.

Beyond Research

Outside of engineering, I enjoy exploring emerging technologies, building technical tools, and continuously expanding my interdisciplinary knowledge across energy, economics, and control systems.