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Engineered for Humanity

The Wind Turbine
Reinvented.

Sylentra's MAG-LEV wind turbine delivers 1MW from a 14-foot diameter unit — silent, grid-independent, EMP-resistant, and deployable in 2–4 days. Protected by 10 US patents spanning 2018 to 2026. Commercial deployment targeted Q1 2027.

The MAG-LEV Turbine → Investor Information
97%+ Uptime (MAG-LEV)
1 MPH Cut-in wind speed
2–4 Days Installation time
10 US Patents
The Challenge

America needs to double its electricity output. Now.

The new administration has declared this a national priority. Wind, solar, geothermal, coal, and natural gas cannot close this gap fast enough. Nuclear will take 25+ years. Sylentra's MAG-LEV turbine is targeted for commercial deployment in Q1 2027 — silent, grid-independent, and scalable.

Every $50M invested → 160–200 mW/month of clean, grid-independent power

See the Numbers →
The Technology

Three converging innovations.
One turbine nothing else can match.

Each breakthrough compounds the last. Together they produce 1MW from a 14-foot diameter unit that ships on a standard flatbed — and outperforms a conventional 2.2MW turbine by 53%.

Innovation 1 — Magnetic Levitation

Zero friction. 97%+ uptime.

The rotor floats on a magnetic field — eliminating every bearing, every gearbox, every friction-based component that causes noise, maintenance cost, and downtime in conventional turbines. No lubrication. No mechanical wear. No upper wind limit. Silent operation at <32 dB.

97%+
Uptime
<32 dB
Library quiet
Zero
Mechanical wear
None
Upper wind limit
Technical Details →
Innovation 2 — EHD Ionic Wind

Active aerodynamics. Starts at 1 MPH.

High-voltage electrodes (10–40kV) embedded in each blade ionize incoming air, energizing the boundary layer and increasing lift-to-drag ratio. In self-start mode, the EHD system initiates rotation from zero RPM — no wind required. Result: +15–20% power coefficient improvement. The lowest cut-in speed of any turbine in existence.

1 MPH
Cut-in speed
+20%
Efficiency gain
10–40kV
Electrode voltage
3 Patents
Protected IP
EHD Details →
Innovation 3 — Multi-Surface Generation

Three generators. One rotation.

Sylentra extracts power from three independent generation surfaces within a single rotating turbine: the Halbach axial flux generator at the base, 64 stator coils on the central shaft, and 128 NdFeB N52/N55 magnets embedded in the rotor interior. Three compounded outputs from one rotation event — without additional moving parts.

3
Generation surfaces
93–95%
Generator efficiency
1 MW
Combined output
No gearbox
Direct coupled
Generation System →
Production Reality

The Production Truth

Nameplate ratings are fiction. What matters is actual MWh delivered per month — in the real world, under real conditions.

Sylentra MAG-LEV — 1 MW

489 MWh

per month — actual

✅ 97%+ uptime — MAG-LEV, no bearings, no gearbox

✅ 70% effective capacity factor

✅ Starts at 1 MPH. Self-starts from zero RPM.

✅ No upper cut-out speed — runs through any storm

Conventional Wind — 2.2 MW

320 MWh

per month — actual

❌ 2.2 MW nameplate — rarely reached

❌ ~10% of time at rated output

❌ ~30% maintenance downtime

❌ Shuts down above 17–25 m/s wind

Solar — 2 MW

257 MWh

per month — actual

❌ 2 MW nameplate

❌ Daylight hours only

❌ Weather-dependent output

❌ Zero output at night

Sylentra 1 MW outproduces a conventional 2.2 MW turbine by 53% — and produces 91% more than 2 MW of solar.

You've been buying nameplate. Start buying production.

Intellectual Property

10 US Patents. An Unassailable Moat.

Five issued US patents (2018–2021) protect the core turbine and generator technology. Five additional provisional patents filed March 2026 lock priority dates on next-generation innovations through March 2027. No competitor can build what Sylentra has built — legally or practically.

✅ ISSUED — ACTIVE PROTECTION

5 Granted US Patents — 2018 to 2021

These patents are fully granted, active, and enforceable. They protect the core turbine disc, Halbach generator, and rotor technology that forms the foundation of Sylentra's 1MW output.

US 10,033,314 B2 · Issued July 2018

Modified Halbach Array Generator

The original coreless axial-flux Halbach array generator — achieving 93–95% efficiency at just 5% the weight of a conventional generator of equivalent power. The architecture that makes 1MW from 14ft physically possible.

US 10,100,809 B2 · Issued October 2018

Wind Turbine Disc Facilitating Laminar Flow

The turbine disc geometry that maintains laminar airflow through 360° of rotation — the foundation of the air drum effect, where each blade flies into the energized wake of the blade ahead in a self-reinforcing acceleration loop that exceeds the Betz limit.

US 10,693,402 B2 · Issued July 2020

Modified Halbach Array Generator — Advanced

Refined Halbach array architecture with coil cartridge isolation — enabling individual segment output control and the direct-coupled, gearbox-free operation that eliminates the #1 source of maintenance cost and downtime in conventional wind turbines.

US 11,053,912 B2 · Issued July 2021

Wind Turbine Disc Facilitating Laminar Flow — Gen 2

Next-generation laminar flow disc — the complete aerodynamic system enabling Sylentra's 5-blade VAWT to extract energy circumferentially rather than frontally. Validated across multiple prototype scales from 3kW through 100kW.

US 11,204,016 B1 · Issued December 2021

Lightweight Rotor for Supporting Laminar Flow

The lightweight rotor system engineered for the extreme surface speeds required to achieve 1MW output — maintaining aerodynamic geometry under centrifugal load while keeping total mass within flatbed transport limits. The engineering that makes the 14ft commercial unit possible.

🔒

7 Years of Granted Protection

Five issued US patents spanning 2018–2021. Fully granted, fully active, fully enforceable. The foundation technology is legally locked.

📋 FILED — PRIORITY LOCKED THROUGH 2027

5 Provisional Patents — Filed March 2026

Five new patents filed pro se as Micro Entity in March 2026, protecting next-generation EHD and MAG-LEV innovations. Priority dates locked through March 2027.

App #64/005,720

EHD Ionic Wind Boundary Layer Control

Protects embedded high-voltage electrodes that ionize incoming air and energize the blade boundary layer — enabling generation at wind speeds where every other turbine stalls.

App #64/005,724

Multi-Surface Simultaneous Electromagnetic Generation

Protects the architecture of generating electricity from three independent surfaces within a single rotating turbine — multiplying output without adding moving parts.

App #64/012,663

Adaptive Hybrid MAG-LEV Bearing System

Protects the magnetic levitation bearing that eliminates all mechanical contact — the source of 97%+ uptime, zero maintenance cost, and silent operation.

App #64/012,670

Dual-Mode EHD Self-Starting + Boundary Layer Control

Protects the dual-mode EHD system that self-starts from zero RPM (no wind required) and continuously optimizes aerodynamic efficiency in operation.

App #64/012,674

Wind Turbine Blade with Integrated EHD (All Materials)

A material-agnostic claim blocking competitors from integrating EHD ionic wind technology into turbine blades regardless of blade composition.

📅

Priority: March 2026–2027

Filed March 2026. Micro Entity status. Non-provisional filing due March 2027. First-to-file precedence on every next-generation innovation.

Sylentra integrated system — composite unit with MAG-LEV turbine

Composite structure + MAG-LEV turbine — complete self-contained unit

Second Sylentra integrated unit deployed at commercial facility

A second unit — same system, different deployment site

Two separate integrated units deployed at different sites — proving this is a repeatable, scalable system, not a one-off prototype.

Where It Deploys

Silent. Compact. Grid-independent.
Goes where no other turbine can.

14-foot diameter. Ships on a standard flatbed. No zoning exclusions for noise. No grid dependency. Deployable in 2–4 days at any of these critical infrastructure contexts — and many more.

💾

Data Centers

Primary or backup power. Silent campus deployment. EMP-resistant. Grid-independent. Scales to any load.

✈️

Airports

Critical national infrastructure. Compact footprint. Resilient through any weather event or emergency.

🛡️

Defense / Government

EMP-hardened power for command centers, bases, and secure facilities. Operates independently of the national grid.

🏥

Hospitals

Continuous clean power where interruption is not an option. Silent enough to install adjacent to patient facilities.

🏙️

Urban Rooftops

Silent operation enables deployment in dense urban environments where conventional turbines are strictly prohibited.

🏭

Industrial Campuses

Manufacturing facilities, distribution centers, and industrial parks — continuous on-site power at a fraction of grid cost.

🌍

Remote Operations

Mining, agriculture, offshore platforms, and rural communities beyond the grid's reach — where diesel is the only alternative today.

📡

Telecoms / Cell

Tower power for telecoms infrastructure. Consistent output at any wind speed. No grid dependency. No fuel logistics.

Proof of Concept

Prototypes validated. Full-scale in Production Q4, 2026.

We don't deal in theory. We build things. Sylentra has constructed MAG-LEV wind turbine prototypes across multiple scales — from 3kW to 100kW — validating the core technology. Performance projections are grounded in AI modeling, CFD simulation (SolidWorks Flow), FEMM magnetic field analysis, and physical prototype data. Our Gen 1 commercial 1MW unit at 14ft diameter is in active development. Independent 3rd-party validation of the full-scale unit is expected late Q3 2026 — actual output may exceed the modeled 1 MW figure.

Investors are not betting on whether the technology will work. They are funding the scale-up of validated technology — with $2B+ in LOIs already signed — at the moment of maximum national need.

Investor Information →

Composite material developed

Closed molecular crosslink structure engineered and validated

Real-world applications built

Fencing (Australia), housing structures, shipping containers

5 smaller-scale MAG-LEV prototypes built & tested

Core technology validated across multiple smaller-scale prototype units

Go-to-market unit in production

Full commercial system currently being manufactured

Independent 3rd-party validation — Q3 2026

Performance certification of full-scale commercial unit by independent testing authority

Commercial deployment

Targeted Q1 2027 — pending current capital raise

Sylentra MAG-LEV turbine farm at sunset — dense deployment showing 50× power density advantage
Deployment at Density

100 units. 100 MW.
Same 50 acres as one conventional turbine.

Conventional turbines require 50-acre spacing to avoid wind interference. Sylentra's vertical axis design benefits from adjacent airflow — enabling deployment at densities that horizontal turbines physically cannot match.

Performance Details →
Real Technology. Real Deployments.

Built and deployed across two continents.

Sylentra MAG-LEV turbine on school rooftop with sports field below

Rooftop deployment — silent, urban-compatible

Sylentra MAG-LEV turbine operational at dusk — control unit visible

Operational at dusk — control system and full unit

Sylentra MAG-LEV turbine spinning at sunset

MAG-LEV turbine — operational at sunset

"We believe that the materials we build with and the energy we harness define the kind of future we create. Sylentra exists to engineer both — better."

Engineered for Humanity

Ready to learn more?

The window is open.

2.9-year payback. $4.7M net in 10 years at market rate. The Gen 1 1MW turbine is in production. $2B+ in LOIs are signed. Independent 3rd-party validation expected Q3 2026. Commercial deployment targeted Q1 2027.

Investor Information Get in Touch