Utility-Scale

Unlock 10× more locations for wind development.

Up to 60% lower installation costs. The lowest LCOE in the market — starting at $16/MWh. Viable projects where legacy turbines can't operate.

Cost Comparison

The most affordable wind-scale power, period.

Mattur delivers up to 60% lower installation costs and the lowest LCOE in the market—starting at $16/MWh. The result: faster payback, stronger returns, and viable projects in far more locations than any competing technology.

Installed Capital Cost ($/kW)

$13k

$9k

$6k

$3k

Mattur

Solar PV

Wind (Onshore)

Natural Gas

Geothermal

Wind (Offshore)

Coal

Nuclear

$75

$150

$225

Levelized Cost of Energy ($/MWh) Source: Lazard Levelized Cost of Energy Analysis, June 2024

By the Numbers

Twice the Output. Half the Cost

More Annual Energy Produced

Nearly twice the electricity from the same footprint as legacy wind farms.

Lower Installed Cost per kW

~$1,017/kW vs ~$2,436/kW for legacy onshore turbines.

Starting LCOE ($/MWh)

The lowest LCOE in the market. Faster payback. Stronger returns.

Same wind, more power

Mattur's modular wind system unlocks sites legacy turbines can't — transforming overlooked land into high-return energy assets.

Mattur Wind Turbine

2.0 m/s

Cut-In Wind Speed

Mattur's efficient turbines unlock 90% of U.S. land where legacy turbines fail.

U.S. Wind Resource Map Showing Areas Deployable by Mattur
Mattur Operates in Wind Classes 1–10

Size Comparison

Legacy Turbine

3.5–4.5 m/s

Cut-In Wind Speed

Legacy wind turbines need strong winds moving in specific directions before generating power.

U.S. Wind Resource Map Showing Areas Deployable by Legacy Turbines
Legacy Turbines Limited to Classes 1-4

Instead of ever-larger machines, Mattur scales like solar or data centers — horizontally, with compact units that add output acre by acre. This maximizes energy density, adapts to land constraints, and delivers utility-scale performance where others can't. Our proprietary design drives lower costs, faster payback, and a broader wind market.

Reengineered from the Ground Up

Every component built to capture more energy in more places.

From its wind-accelerating diffuser to its ultra-dense power output, Mattur's system delivers over 3× the power density of traditional onshore turbines.

Self-Orienting Design

Passive 360° auto-slew captures wind from any direction — no motors, no complexity. The turbine faces into wind automatically, reducing mechanical overhead and eliminating a common failure point in legacy yaw-drive systems.

Diffuser Shroud

Boosts incoming wind speed by up to 1.5×, accelerating airflow through the rotor for wind-class performance in a compact 5m frame. The shroud is the core reason Mattur operates effectively where legacy machines stall.

PulseTech Generator

A network of micro-generators optimized for low-speed efficiency. Reduced torque enables earlier cut-in at ~2.0 m/s, extracting power from wind conditions that legacy turbines ignore entirely.

Intelligent Inverter

Optimized for real-time power extraction with seamless over-the-air updates from the Adaptix AI system. The inverter continuously adapts its extraction strategy as wind conditions and fleet-wide data evolve.

Adaptix AI

Manages and optimizes the full system using live wind and fleet-wide performance data. Adaptix continuously refines extraction strategy across every turbine in the fleet — improving performance over time via OTA updates.

Twice the Output. Half the Cost.

A step-change in energy density and capital efficiency.

Capacity

2.25× More Installed Capacity

Mattur's compact turbine layout enables 141.93 MW of installed capacity on the same land footprint that yields only 63 MW with legacy machines. More units per acre, more generation per dollar.

Capital Efficiency

58% Lower Installed Cost/kW

Smaller turbines, streamlined manufacturing, and vertical integration drive installed cost to ~$1,017/kW — vs ~$2,436/kW for legacy onshore wind. Faster payback. Stronger project economics.

Power Density

3× Power Density

700 W/m² vs 200–350 W/m² for large onshore turbines. Mattur extracts dramatically more power from each square meter of rotor area — making it one of the most efficient wind systems ever built for utility-scale deployment.

Technical Specifications

Every design decision drives performance.

Our diffuser shroud accelerates airflow. PulseTech micro-generators minimize torque to spin earlier. The intelligent inverter maximizes energy extraction and adapts via OTA updates. Adaptix AI continuously optimizes system performance. Together, they deliver a fast-ramping power curve that starts earlier, runs longer, and captures more wind across more hours.

Mattur Wind Turbine — Unit Specifications
Turbine Type	DAWT (Diffuser-Augmented Wind Turbine)
Hub Height	15 m
Rotor Diameter	5 m
Rated Power	14 kW
Cut-In Wind Speed	~2.0 m/s
Rotor Area	~20 m²
Power Density	700 W/m²
Wind Classes	1–10 (legacy limited to 1–4)

Turbine Type	Rated Power	W/m²
Mattur Wind Turbine (DAWT)	14 kW	700 W/m²
Large Onshore (utility)	2–5 MW	200–350 W/m²
Mid-size Community Wind	100–500 kW	150–300 W/m²
Small Wind (<100 kW)	1–50 kW	100–250 W/m²

Performance and cost comparisons based on a modeled repowering of the Dry Lake I Wind Power Project in Navajo County, Arizona. LCOE source: Lazard Levelized Cost of Energy Analysis, June 2024.