In this episode, Matt and Georgia sit down with Brad Young (Capgemini Invent) and Alistair Adams (Solution Energy) for a fast-moving conversation about AI’s exploding energy appetite and what it means for the future of data centers, power grids, and sustainability. From geopolitical tension to geothermal innovation, this one covers the full energy spectrum.

What We Covered:

- AI’s Energy Crunch AI growth is driving unprecedented demand for power. Hyperscalers like Meta, Google, and Microsoft are signing multi-billion-dollar infrastructure contracts at record pace, stretching grids and reshaping global infrastructure priorities. - The Rise of “Power-First” Google’s “power-first strategy” shows the new reality: build data centers where the power is, not where the people are. Nvidia’s Jensen Huang agrees—co-locating at generation sites may be the future. Reliable, renewable baseload power is now the real competitive edge. - Water: The Silent Crisis Energy gets the headlines, but water is just as critical. Google already uses ~70 billion litres annually for cooling—on track to rise tenfold. Innovations like geothermal heat rejection (e.g., the Pawsey supercomputer in WA) offer promising alternatives. - Renewables: What Actually Works Not all green energy is created equal. Wind and solar can’t deliver the 24/7 baseload those massive GPU clusters require. That leaves geothermal and nuclear as the only scalable clean options—though nuclear remains politically fraught in markets like Australia.

Regional Realities

- Australia: Victoria faces a looming 1.5 GW gap with coal retirement. - UK: Grid constraints limit data center growth. - US: Federal policy is leaning hard into nuclear and geothermal for AI. - Europe: Regulation is reshaping the tech landscape—for better or worse.

Cloud’s Hidden ESG Problem

Most cloud usage sits in companies’ Scope 3 emissions. As ESG rules tighten, lack of transparency from hyperscalers becomes a real compliance exposure. - Social License Becomes Strategy Community pushback is halting billion-dollar projects. The new game: secure energy, protect water, and bring the community with you. “Permission-based infrastructure” is quickly becoming the norm. - AI, Talent & the Enterprise Gap We discuss the widening skills challenge—junior staff struggle to validate AI outputs, and enterprises claiming “we don’t have use cases” are already falling behind. - Greener Compute Through Smart Pricing Dynamic cloud pricing tied to renewable availability is on the horizon—think “off-peak compute,” automatically routing workloads to greener grids.

Standout Insights

- We’re in the “Nokia 3210 era” of AI—25+ years of disruption ahead. - Robotics is still more marketing than reality. - Enterprise AI adoption is early; the real environmental impact is still to come.

Key Takeaways

- Data center location will follow energy, not geography. - Community permission is as critical as capital. - Water use must be part of every sustainability conversation. - Geothermal and nuclear are the only viable clean baseload options. - The next decade will be messy as demand outpaces grid upgrades. - Hyperscalers are accelerating renewable markets—out of necessity. - ESG exposure from opaque cloud emissions is rising fast.

Conclusion

AI’s growth is forcing a complete rethink of how we power digital infrastructure. The winners will be those who can solve the combined puzzle of clean energy, water management, community trust, and transparent reporting—at a speed the grid has never been asked to move before.