EnergySignal is the intelligence layer for matching them. The platform maps stranded, curtailed, and underutilised energy against the compute infrastructure that needs it.
Get in touchIn specific markets including Chile, Ireland, and the United Kingdom, wind and solar curtailment has reached between five and fifteen percent. In the United States, data centre demand is expected to reach 606 TWh by 2030, up from 147 TWh in 2023.
Energy is being wasted at the scale of compute's demand. Most of it sits in places the grid cannot reach. The infrastructure to match supply with demand has not yet been built.
Flared gas is shown as thermal energy equivalent, the total energy contained in the gas. Converted to electricity at typical generation efficiency, the same volume yields roughly 600 to 750 TWh, still on the order of global data centre demand.
EnergySignal sits between energy asset owners and compute infrastructure operators. The platform monitors global stranded, curtailed, and underutilised energy, identifies viable colocation opportunities, and structures the introductions that turn matched supply and demand into executed deals. Origination today is done by the EnergySignal team.
Flared gas, curtailed renewables, stranded hydro, geothermal, biogas, landfill gas, mine methane, and behind-the-meter industrial energy. All tracked by source, location, and availability profile.
Power profile, location, regulatory environment, offtake structure, and execution feasibility. Each factor assessed against deployment requirements for modular data centres and HPC infrastructure.
EnergySignal works with energy asset owners and compute infrastructure operators independently or together. Each opportunity is qualified, commercially framed, and brokered through to executed deals.
The energy industry is shaped by forces operating at very different scales. International policy frameworks sit at one end, the individual who signs a deal at the other. EnergySignal is built to read both.
At the macro level, frameworks such as the Circular Carbon Economy, a G20-recognised approach structured around reducing, reusing, recycling, and removing carbon, shape how operators and governments think about waste, efficiency, and the productive use of energy. At the micro level, every opportunity comes down to a specific asset, a specific operator, and a specific decision. We track the policy and we understand the person.
Counterparties who want to align their projects with these frameworks can, and we help them do it. Our role is to understand the landscape clearly enough to identify viable opportunities and put the right parties together.
EnergySignal tracks stranded and underutilised energy across every major producing region. Active origination focuses on jurisdictions with workable regulatory frameworks, credible offtake structures, and existing or emerging compute infrastructure demand.
For over a decade I have worked in close, trust-based dialogue with senior individuals across industry. Energy came up again and again, at every level, as the recurring strategic concern almost no one was addressing directly.
What I saw was a structural gap. Energy is wasted at enormous scale in places the grid cannot reach, while the demand for compute is growing faster than the infrastructure to power it. Very few individuals were working to bridge where energy is stranded and where it is needed.
EnergySignal is the tool I built to act on what I observed. It is the intelligence layer that makes the match visible, and the practice that turns it into executed deals.