Dedicated Behind-The-Meter Power For Data Centers, Industrial, And Defense.
Reserve capacity in our Phase 1 100–300 MW combined-cycle natural gas project, or in a modular 10 MW RICE unit deployment sized to your campus - up to 400 MW per site for liquid-cooled high-density data centers. Power online approximately 24 months from Notice to Proceed; initial capacity is targeted to come online in Q3 2028.
Tell us your MW need and target go-live window. We'll respond within 1 business day.
Built For Mission-Critical Operations
Modular Target Reliability
Firm delivery designed around N+2 - natively achieved through 10 MW RICE units, or via redundant trains in our combined-cycle gas turbine architecture. Both topologies include POD A and B demarcation, segmented MV electrical architecture, UPS-backed controls, and black start.
CHP Available Where Beneficial
Combined heat and power can be added without retrofit risk - converting waste heat into usable thermal energy for adjacent facilities, campus loads, district heating, or industrial steam offtakers.
Optional Cyber-Isolated Control Systems
Optional cyber-isolated control architecture to segregate plant controls from customer networks, with hardened interfaces tailored to hyperscaler, industrial, or defense security expectations.
Proof, Not Promises
Leadership team with experience commissioning 10+ GW across large-scale power assets. See past experience →
Why Teams Choose Smartland Energy
| What You Get | How It Helps You |
|---|---|
| Capacity range: 100–400 MW per site | 100–300 MW per site for traditional air-cooled deployments; up to 400 MW per site for liquid-cooled high-density compute, where higher rack density concentrates more MW into a smaller physical footprint |
| Modular 10 MW RICE units or combined-cycle gas turbines | Architecture is matched to your load shape - ramp behavior and rolling maintenance get RICE; steady high-efficiency baseload gets CCGT. Both scale to the upper end of the capacity range |
| Fast start and load following generation | Handles volatile AI and HPC ramps without forcing you to oversize utility capacity |
| Transparent metering and settlement at the POD | Clean billing, clean audits, and less time arguing about what was delivered |
| Fuel price risk options | Indexed, capped, collared, or hedged structures that match your risk tolerance |
| Modular build and phased capacity | Add capacity in 10 MW units (RICE) or in train-level phases (CCGT) without redesigning the entire plant or stranding early capex |
| Permitting and compliance execution plan | Reduces schedule surprises and keeps operations aligned with emissions and reporting requirements |
| Bankable contracting structure with clear remedies | Turns “reliability talk” into enforceable SLA terms your procurement team can underwrite |
| CHP available where beneficial | Future-add thermal recovery without retrofit risk, where utilization economics justify it |
Core Principle
Continuously Balanced To Your Demand
On-site generation, battery storage, and intelligent control systems work together to balance your load in real time - sized precisely to your demand and brought online when you need it.
Balanced in real time
Next Steps
Reserve capacity
Tell us your expected MW draw, ramp profile, and target go-live date.
Align technical specs
Our engineers map architecture (RICE vs. CCGT), interconnect, heat recovery (optional CHP), and security requirements.
Execute PPA
Lock in long-term, cost-predictable power.