80% of industrial land in LATAM & USA has wind no turbine could use. We built the one that can.
Companies need reliable power they control — and the cost of not having it keeps climbing.
That excludes 80% of industrial territory in LATAM and the USA, where winds sit between 4 and 7 m/s. The land with the demand doesn't have the wind speed — until the turbine changes.
Four to six peak hours a day, 30–100 m² per kW, and interconnection queues of three to seven years in key US markets. It can't cover industrial base load alone.
The wind was always there. We built the machine that can finally use it.
Our blade design originates in the aerodynamics of winged seeds — geometries nature refined for millions of years to generate lift at low speeds. It preserves laminar flow where conventional flat blades stall.
Instead of extracting wind energy in a single plane, our rotor captures it across sequential stages — the same principle Charles Parsons used in 1884 to shatter the efficiency ceiling of single-stage steam expansion. It's where our name comes from.
Field-validated in Colombia in 2026: 6–10 kW of real output at 4–7 m/s wind. Not a simulation — a machine running in the field, backed by five years of low-wind operating data no competitor holds.
| Metric | Parsons Kinetics | Conventional small wind |
|---|---|---|
| Optimized wind range | 4–7 m/s | ≥8–10 m/s |
| Power coefficient (Cp) | ≥45% ¹ | ~28–35% |
| Output @ 4–7 m/s | 6–10 kW ¹ | <3 kW |
| LCOE pathway | ≤$65/MWh | $90–140/MWh |
| Generation window | 24/7 wind | Variable |
¹ Field-validated, Colombia 2026 · IEC certification in process · Patents pending on axial blade geometry
Built for industrial and commercial sites generating behind the meter — factories, cold storage, hotels, agro-processing. Minimal footprint, day-and-night generation, and a complement to solar where the roof is already full.
Commercial sites & distributed installations
Industrial base-load generation
Energy as a Service. Zero upfront investment — pay only for the energy generated. Monitoring and maintenance included, long-term predictable pricing, and decarbonization without owning infrastructure.
Our prototype has been generating 6–10 kW in real conditions in Colombia since 2026 — the culmination of five years of R&D, simulation, and iteration.
Fortune Global 500 energy and environmental-services companies have signed for first installations in 2026, with expansion opportunities of 100–300× per account.
Our climate impact has been validated through a third-party Climate Impact Forecast process, with a significant verified reduction potential.
Parsons Kinetics is a deep-tech company founded in 2021, with a multidisciplinary team across Colombia, Denmark, France, and the Netherlands — engineers, scientists, and operators backed by mentors from Vestas, Shell, and the European energy industry.