Contrary to popular belief, recent electricity price hikes are not yet driven by AI demand. Instead, they reflect a system that had already become less reliable due to the retirement of dispatchable coal power and increased dependence on intermittent renewables. The grid was already tight before the current demand wave hit.

China's dominance in clean energy technology presents a deep paradox: it is funded by fossil fuels. Manufacturing solar panels, batteries, and EVs is incredibly energy-intensive. To meet this demand, China is increasing its coal imports and consumption, simultaneously positioning itself as a climate 'saint' for its green exports and a 'sinner' for its production methods.

Contrary to common assumptions, China's future natural gas demand growth will be led by the industrial sector, not power generation. Policy support for manufacturing and lower global LNG prices are expected to drive significant coal-to-gas switching in industrial processes, while gas in the power sector remains a secondary source to balance renewables.

While controversial, the boom in inexpensive natural gas from fracking has been a key driver of US emissions reduction. Natural gas has half the carbon content of coal, and its price advantage has systematically pushed coal out of the electricity generation market, yielding significant climate benefits.

Poorer countries, unburdened by legacy fossil fuel infrastructure, have a unique advantage. They can bypass the dirty development path of wealthy nations and build their energy systems directly on cheaper, more efficient renewable technologies, potentially achieving energy security and economic growth faster.

Charts showing plummeting solar and wind production costs are misleading. These technologies often remain uncompetitive without significant government subsidies. Furthermore, the high cost of grid connection and ensuring system reliability means their true all-in expense is far greater than component costs suggest.

The economic model for renewable energy is the inverse of fossil fuels. While building wind or solar farms requires significant initial capital investment, their ongoing operational costs are minimal. This suggests that as Europe advances its green transition, its long-term energy cost competitiveness will dramatically improve.

The political challenge of climate action has fundamentally changed. Renewables like solar and wind are no longer expensive sacrifices but the cheapest energy sources available. This aligns short-term economic incentives with long-term environmental goals, making the transition politically and financially viable.

The global energy transition is also a geopolitical race. China is strategically positioning itself to dominate 21st-century technologies like solar and EVs. In contrast, the U.S. is hampered by a legacy mindset that equates economic growth with fossil fuels, risking its future competitiveness.