1AI-Driven Metamaterial Photonic Sensors for Environmental Monitoring Applications
2High-Throughput Screening of Materials for Carbon Capture and Utilization Using Molecular Simulations and Machine Learning
3Conceptualizing a Floating Refinery and its Process Units using Hexapod Mechanics and Multiphysics Modeling
4Data-driven approaches for real-time optimal power dispatch in distribution systems
5Conceptualizing a Mini-Haber Process: A Microplant powered by Green Hydrogen
6Optimal Designs of Structured Catalytic Surfaces for Syngas to Liquids Production for aiding the Energy Transition
7Modeling of Electrified Structured Reactors for NetZero
8Development of Energy Management Platform for Combined Power Dispatch of Electricity and Hydrogen Production in a Microgrid with Capabilities to Provide Ancillary Services
9Decarbonizing the Fossil Fuel Sector Through Life Cycle Assessment and Materials Development for High-Temperature Fuel Cells
10Conceptualizing Development of Liquid Hydrogen Storage and Vehicular Transportation
11Integrating Battery Energy Storage Systems for Grid Stability in the UAE: Addressing the Water-Energy Nexus and Desalination Demand with Renewable Energy
12Optimizing Battery Electric Vehicles (BEVs) Efficiency Through AI-Driven Predictive Thermal Management Using Route Data
13Optimizing Building Energy Consumption with Integrative Approaches in Middle Eastern Climate for Sustainable Urban Development
14Identifying Novel and Optimal Routes for Decarbonisation Using Large Language Models (LLMs)
15Climate-Justified Process Optimization Using Deep Learning
16Techno Economic Analysis of the Energy Transition Pathways including the System Integration Costs and the Ancillary Benefits
“Elevating Horizons Through Discovery and Ingenuity”