Broad Research Areas

Adsorption Science: Investigating adsorption isotherms, kinetics, and surface interaction mechanisms to understand and optimize adsorbate–adsorbent behavior for energy and environmental applications.

Entropy & Entransy Analysis: Evaluating thermodynamic and thermal transport losses in energy systems to improve efficiency and guide advanced system design.

Biosorbents: Developing and optimizing biomass-derived sorbents—such as biochar, activated carbon, and composites—for sustainable applications in energy conversion, storage, and purification.

Microfluidics: Designing and developing microscale heat exchangers and flow structures aimed at enhancing heat and mass transfer performance in compact thermal systems.

AI/ML & Computational Fluid Dynamics (CFD): Applying artificial intelligence, machine learning, and CFD for multiobjective optimization, predictive modeling, and performance enhancement of advanced thermal and energy systems.

Application Domains:  Refrigeration & Heat Pump Systems, Atmospheric Water Harvesting, Carbon Capture & Environmental Remediation, Hydrogen Storage, Thermal & Energy Storage, Water Treatment and Purification.