It is instructive to acknowledge the complex interplay among AI, energy availability, and decarbonisation. While the AI ...

Assistant Professor of Electrical and Computer Engineering Jason Eshraghian is reimagining how artificial intelligence can ...

The 1980s were vested in exploring the use of vanadium species in flow batteries. Sum et al. (1985a; 1985b) investigated the use of vanadium (II), (III), (IV), and (V) in ...

While AI adoption is global, the study highlights clear regional differences shaped by regulation, market structure, and risk ...

GreenTech secures ₹30 crore in funding to enhance wind asset management and capitalize on India's growing renewable energy market.

The study identifies a less visible but increasingly important countertrend: the rapid growth in energy consumption driven by AI itself. Training large machine learning models, running continuous ...

Virescent Ventures has been confirmed as the Australian partner in a AUD $50 million funding round for Melbourne-based IND ...

This transformative role of AI supports the achievement of United Nations sustainable development goals (SDG) 7 (affordable ...

Artificial Intelligence (AI) systems need to be powered.

In an RL-based control system, the turbine (or wind farm) controller is realized as an agent that observes the state of the ...

This AI decade truly represents: a fundamental renegotiation of power, responsibility, and the future of human agency.

Fluid–structure interaction (FSI) governs how flowing water and air interact with marine structures—from wind turbines to underwater cables—and is critical for safe renewable energy development.