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🏆 CES 2026 Innovation Award · 🎨 iF Design Award 2026 · 📬 437 Inbound Inquiries · 🌍 30+ Countries · 💰 $200B TAM · 🔬 PCT/KR2023/019844 · ⚡ 4 m/s Cut-in Speed · 🔇 ≤45dB Silent Operation · 💵 Pre-Seed $1M SAFE · 🏆 CES 2026 Innovation Award · 🎨 iF Design Award 2026 · 📬 437 Inbound Inquiries · 🌍 30+ Countries · 💰 $200B TAM · 🔬 PCT/KR2023/019844 · ⚡ 4 m/s Cut-in Speed · 🔇 ≤45dB Silent Operation · 💵 Pre-Seed $1M SAFE ·
★ CES 2026 → 437 Inbound Leads ★ iF Design → Urban Deploy Approved PCT/KR2023/019844 Pre-Seed Open

Wind Energy Reimagined for Cities.

GeoWind's patented icosahedral VAWT scales from a 3.5cm desk ornament to a city-scale flagship — one geometry, one patent, infinite scale. GW1800 is our commercial target today. GW-Omega is where this ends up. 437 inbound inquiries. Zero marketing spend.

Inbound Inquiries
Countries
$200B
TAM by 2030
$0
Marketing Spend

Cities Need Wind Energy.
No One Built It Yet.

Cities consume 75% of global energy but generate less than 5% locally. Conventional turbines were designed for empty fields — not urban environments.

💡
75%
Urban Energy Gap

Cities consume 75% of global energy but generate less than 5% locally. No viable small-scale urban wind solution existed — until now.

🚫
60–80dB
Conventional Wind Fails Cities

Traditional turbines need high steady wind and large land. 60–80dB noise makes them completely incompatible with urban environments.

📡
$50K+
Climate Data Blind Spots

Cities lack hyper-local weather data. Existing monitoring stations cost $50K+ each, leaving urban climate intelligence fragmented and inaccessible.

0%
No Scalable Solution

From rooftop micro-generation to utility-grade wind — no single platform has bridged this gap across energy generation and climate data. Until GeoWind.

Zero Wiring. Zero Maintenance.
Infrastructure Reinvented.

GeoWind is not a "high-output wind turbine." It's a geometry-based platform — one icosahedral design that scales from IoT sensor nodes to utility-grade power, proven to outperform competing blade geometries of identical size at every scale.

🔌
Zero Wiring Cost (CAPEX Disruption)

No external power line needed. Install instantly on remote highways, urban parks, or any already-paved surface — no excavation, no conduit. Eliminates wiring CAPEX entirely.

🔩
10+ Year Zero-Maintenance Design

The icosahedral truss distributes vibration and load evenly across 20 faces — minimal blade stress, no structural deformation even in typhoon-force conditions. Designed for locations no one can reach.

📡
Self-Powered Smart City IoT Node

Powers CCTV, environmental sensors, and streetlights off-grid — while simultaneously streaming real-time wind, temperature, humidity, and pressure data. The energy-autonomous core of smart city infrastructure.

🧠
AI Climate Intelligence Grid

Every turbine is a climate data node. Creates hyper-local city-wide weather maps in real time — at 1/10th the cost of conventional weather stations ($50K+) with 10× the density.

🔇
≤45dB — Urban Anywhere

Quieter than a library. Schools, hospitals, residential buildings, public spaces — every environment where conventional turbines are banned outright.

Cut-In Wind Speed 4 m/s
Noise Level ≤45 dB (Library-quiet)
Wind Capture 360° Omnidirectional
External Wiring Required Zero (Off-Grid)
Maintenance Cycle 10+ Years Zero
Structural Frame Icosahedral Truss (20 faces)
vs. Tesup (GW600, same frame) Higher Output ✓ (lab-verified)
GW1200 Entry Output (@5m/s) ~109W — real commercial use
Monitoring 24/7 AI Sensors
International Patent
PCT/KR2023/019844
🇰🇷 KR  ·  🇺🇸 US  ·  🇨🇦 CA  ·  🇪🇺 EU  ·  🇨🇳 CN  ·  🇯🇵 JP  ·  🇮🇳 IN  ·  🇻🇳 VN
Academic Validation
📄 arXiv · 🔬 Zenodo · 🌐 WIPO Patent

One Geometry. Infinite Scale.

Every GeoWind product — from a 3.5cm desk ornament to a utility-scale GW-Omega — shares exactly one design principle. The icosahedral geometry doesn't change. Only the edge length does.

One patent covers them all  ·  One supply chain serves them all  ·  This is not a product line — it's a platform.
GW3.5
3.5cm
Desk
ornament
GW600
1.2m
Tech proof
vs Tesup
GW1200
2.4m
Entry point
~109W @5m/s
GW1800
3.5m
Current target
~242W @5m/s
GW3600
7.0m
Near-term
~950W @5m/s
GW-X · GW-Ω
City-scale
Long-term
vision
Edge length: 3.5mm → 600mm → 1,200mm → 1,800mm → 3,600mm → ∞  ·  Same icosahedral geometry throughout  ·  PCT/KR2023/019844 covers all
Proof
GW600
Technology Reference

Not our volume product — our proof. In direct blade-swap testing against Tesup's equivalent model on an identical frame, GW600's icosahedral geometry produced measurably higher output.

Edge: 600mm → ⌀ 1.2m
@5m/s: ~28W  ·  IoT / Sensor power
Entry
GW1200
Commercial Entry Point

Where useful power begins. GW1200 produces enough electricity for real commercial applications — rooftop supplemental power, EV charging support, campus energy nodes — without grid connection.

Edge: 1,200mm → ⌀ 2.4m
@5m/s: ~109W  ·  @7m/s: ~299W
★ Now
GW1800
Primary Target · 2026

Our current commercial focus. At 3.5m diameter, GW1800 delivers practical power for highways, coastal installations, ports, and industrial sites — the deployment scenarios with the clearest ROI today.

Edge: 1,800mm → ⌀ 3.5m
@5m/s: ~242W  ·  @7m/s: ~665W
Roadmap
GW3600+
Beyond · GW-X · GW-Ω

The geometry has no upper limit. GW3600 targets utility-scale deployment at ~950W per unit. GW-X enables modular array configurations. GW-Ω is the city-infrastructure flagship — same icosahedral principle, urban-grid scale.

GW3600 → ⌀ 7.0m · ~950W @5m/s
GW-X → Modular array · scalable
GW-Ω → City infrastructure flagship
1
Patent
PCT/KR2023/019844 covers every model from GW3.5 to GW-Ω
1
Geometry
Icosahedral structure — same design logic at every scale
Scale
No upper limit. Edge length is the only variable.

The Awards Opened Doors.
People Walked Through.

Skeptics say awards don't matter. Here's the data: CES 2026 generated unsolicited inbound inquiries from countries — with zero paid marketing. The award didn't prove the technology. The people who found us afterward did.

Inbound inquiries from countries — $0 paid marketing
87 🇮🇳 India
20 🇺🇸 USA
15 🇲🇽 Mexico
9 🇦🇺 Australia
6 🇬🇧 UK
4 🇸🇬 Singapore
+more 🌍 countries
🏆
CES 2026 Innovation Award

Sustainability & Energy Transition category. Validates technical completeness, market readiness, and pilot program potential. Reduces market risk for investors.

🎨
iF Design Award 2026

Confirms urban and public environment installation viability. Validates user acceptance, regulatory compliance, and deployment feasibility in city environments.

12 A+ Priority Leads

Temasek Foundation (SG), Taiwan manufacturer with Americas export network, UK/EU distributors. Real enterprise relationships — not cold outreach.

🏭
Pilot Sites Active

Korea (Oido Museum, Ganghwa Island display), Vietnam, and Canada pilots actively progressing. Real deployments generating real data.

🤝
Manufacturing Partnerships

SMTech Korea · DAC · Helinox. Active manufacturing network ready to scale. SemoNemo (China network) + 트리백 (Gimpo factory showroom) for mass production.

💰
Unit Economics Proven

Avg. price $15,000/unit. Cost reduction roadmap: ₩2.5M → ₩800K per unit at mass production scale. Royalty income begins 2027.

Inquiry Intelligence
Inquiries.
See Where They Came From.

Every inquiry mapped by country, industry, and intent. Zero paid marketing. Browse the interactive global pipeline — no sign-in required.

View Inquiry Map
Live
Inquiries
Live
Countries
$0
Marketing

The World Is Building It.

Before we spend a dollar on marketing, independent makers worldwide are replicating GeoWind's geodesic blade geometry — and lab testing confirms the aerodynamic advantage.

🛠️
Grassroots Replication
Independent makers worldwide are independently fabricating GeoWind's geodesic VAWT geometry and sharing results online — with zero involvement from GeoWind.
What this signals to investors
The technology is intuitive enough that strangers build it unprompted. This is authentic product-market fit — not a marketing claim.
Patent moat remains intact
DIY experiments validate the geometry. GeoWind holds PCT/KR2023/019844 across 8 jurisdictions — community enthusiasm, commercial exclusivity.
Category creation confirmed
When people build alternatives themselves, it proves no commercial solution exists. GeoWind is the only company professionalizing this category.
⚗️
Comparative Test Results
In a controlled blade-swap experiment, GeoWind's geodesic blade was mounted on the same frame as a competing blade of identical diameter. The result:
Higher Output
GeoWind blade vs. competing blade
identical frame · identical wind conditions
Same frame, same wind, more power. The aerodynamic advantage is in the geometry — not the scale. This holds regardless of wind speed.
GW600 realistic output: At urban wind speeds (3–5 m/s), GW600 reliably powers IoT sensors, environmental monitors, and mobile device charging — exactly what infrastructure nodes need.
The geometry scales. The efficiency advantage demonstrated in the GW600 blade test applies directly to GW1200 and GW1800 — where real power output numbers become commercially significant.
Test Documentation
Full comparative test data available to verified investors upon request.

CFD-Verified Aerodynamics.

SolidWorks Flow Simulation and independent CFD analysis confirm the icosahedral blade geometry's aerodynamic advantage — across wind speeds, rotation directions, and blade configurations.

GW45 Blade Curvature Analysis
SolidWorks · Curvature Analysis
GW45 Blade Surface Curvature
Icosahedral face geometry produces consistent curvature distribution across all 20 blade faces — the structural basis for omnidirectional wind capture.
GW80 ISO View Velocity X Axis CFD
CFD · Velocity Field · X-Axis
GW80 Omnidirectional Flow Capture
360° velocity field visualization confirms uniform wind capture regardless of inflow direction — a key advantage over conventional HAWT and standard VAWT designs.
CFD Torque Analysis 0m/s Wind CW vs CCW
SolidWorks Flow Simulation · 0 m/s Ambient Wind
Torque Asymmetry: CW vs CCW Rotation
CCW · −10 rad/s (95.5 rpm)
−91.54 Nm
축동력 0.915 kW
CW · +10 rad/s (95.5 rpm)
+135.98 Nm
축동력 1.36 kW
CFD Torque Analysis 10m/s Wind
SolidWorks Flow Simulation · 10 m/s Ambient Wind
Upcycled Wind Scenario — High Velocity Performance
CCW · −10 rad/s
−46.295 Nm
축동력 0.463 kW
CW · +10 rad/s
+227.807 Nm
축동력 2.278 kW
💡 Upcycled Wind 적용 시나리오: 냉각탑·환기구 등 10 m/s 폐기류에서 CW 회전 시 2.278 kW — 자연풍 대비 약 37× 에너지 밀도 (V³ 법칙).
Blade Shape CFD Comparison
CFD · Blade Geometry Optimization
기준형상 vs 모서리 라운드(20mm) 비교
동일 조건(바람 0 m/s, CCW 95.5 rpm)에서 블레이드 엣지 처리에 따른 토크 차이 분석. 기준형상 −91.54 Nm → 라운드 적용 −89.27 Nm. 형상 최적화 여지 확인.
Full Simulation Data
Complete CFD dataset, SolidWorks files, and GW-LT-001 lab test report available to verified investors upon NDA.

The Cost of Not Knowing.

May 31, 2026. Harbin, China. A city of 10 million people. Zero warning.

🌪️
Real Event · May 31, 2026

Day turned to night in seconds.

A catastrophic dust storm carrying 148 km/h winds struck Harbin, Heilongjiang — a city of 10 million, located over 1,000 km from the nearest desert. Trees collapsed. Buildings were torn apart. A roller coaster stopped mid-air, passengers suspended helplessly above the ground.

The storm was not predicted at street level. There was no hyper-local warning. People were caught completely off guard.

148 km/h
Peak wind speed · Harbin, May 31 2026
130+ Cities
Affected by China's 2026 sandstorm events · AQI 500 max recorded in Beijing
$6.5B/yr
Average annual dust storm damage in China alone (HowStuffWorks / UN data)
What exists today
National weather stations placed kilometers apart, measuring regional averages
No data on which street, which intersection, which building will be hit — and when
Monitoring stations cost $50,000+ each — too expensive to deploy at city block density
Roller coasters, outdoor events, highway traffic — no automated micro-warning system
With GeoWind Climate Grid
Nodes deployed at block-level density across cities — self-powered, no wiring required
Micro-pressure drops and wind-speed anomalies detected 20–30 minutes before impact
Automated alerts to outdoor facilities, traffic systems, and emergency services
The roller coaster stops before the storm arrives. People evacuate. Lives are saved.
The Investor Thesis
"The value of hyper-local climate data
cannot be measured in kilowatt-hours.
It is measured in lives."

GeoWind's turbines generate energy as a byproduct. What they generate as a primary output — real-time, hyper-local climate intelligence at city-block resolution — is infrastructure that no government, no tech company, and no weather service has been able to deploy at scale. Until now.

$50K+
Cost per conventional
weather station
vs.
GeoWind
Self-powered · zero wiring
10× density · 1/10th cost
Priceless
Value of early warning
in extreme weather events
📊
Full Investor Deck

Extreme weather is the market signal.
GeoWind is the infrastructure.

The Harbin event is one data point. Our investor deck covers the full climate data thesis — market sizing, unit economics, the AI grid roadmap, and why no one has solved this until now.

Full climate data market analysis
Technology & unit economics
18-month deployment roadmap
View IR Deck Request via Email

A $200 Billion
Market Untouched.

Decentralized renewable energy and urban microgrid market (BloombergNEF). Growing at 18% CAGR — with zero viable urban wind incumbent.

Total Addressable Market
$200B
Global Market by 2030

Decentralized renewable energy & urban microgrid market. 12M+ rooftop-eligible urban buildings worldwide. Asia-Pacific, N. America, Coastal.

Serviceable Addressable Market
$18B
Urban Small Wind + Climate Data

Focus markets: Korea, Vietnam, Canada, and initial global expansion. High urban density, strong sustainability mandates, growing ESG investment requirements.

GeoWind 3-Year Target
$150M
Korea + Vietnam + Canada

1,000 units deployed by 2028 · $13M revenue target · Profitability within 30 months post-seed · Data subscription platform launches Q1 2027.

Join the Pre-Seed Round.

We are raising $1M on a SAFE instrument at $10M post-money valuation. Award-validated technology. Global demand proven. Manufacturing-ready.

Pre-Seed Round
$1M
SAFE · $10M Post-Money Valuation
Enterprise Value (KR Assessed) ₩13B
Instrument SAFE Note
2026 Revenue Target $1.1M (30–50 units)
2027 Revenue Target $8M (200–300 units)
2028 Revenue Target $13M (1,000 units)
Profitability Within 30 months post-seed
Mass Production Setup (₩2.5M → ₩800K tooling) 50%
AI Data Platform (Climate Data Subscription) 35%
IP Maintenance & Operations 15%
🏭
Q3 2026
Mass Production Launch

Manufacturing scale-up with SemoNemo + 트리백 Gimpo factory. Unit cost drops from ₩2.5M to ₩800K.

📦
Q4 2026
50 Units Deployed

Korea pilot completions + Vietnam & Canada deliveries. $1.1M revenue. Royalty income pipeline established.

🤖
Q1 2027
Data Platform Beta

GeoWind Climate Grid AI platform beta launch. Real-time microclimate dashboards for cities, researchers, and ESG funds.

💵
Q3 2027
Subscription Revenue Begins

Data-as-a-Service revenue stream activated. 200–300 units sold. $8M annual revenue run rate.

🏆
Awards as Evidence, Not Decoration

Skeptical of awards? Fair. Here's what matters: CES triggered 437 inbound inquiries with $0 spend. iF unlocks urban deployment approvals. The trophies sit on a shelf — the pipeline they created is what's on the cap table.

🔬
Defensible IP Moat

PCT international patent pending in 8 jurisdictions on the core icosahedron VAWT geometry. Durable competitive advantage with zero direct competitor.

📈
Proven Global Demand

437 inbound inquiries from 30+ countries with $0 marketing spend. 12 A+ enterprise leads including Temasek Foundation. Authentic product-market fit.

🌐
Dual Revenue Model

Hardware sales + recurring SaaS from climate data subscriptions. Diversified, scalable business model evolving into the first open renewable data infrastructure.

🏙️
Infrastructure CAPEX Disruption

Eliminates excavation and conduit costs for CCTV, sensors, and streetlights via off-grid power. A direct smart city budget reducer — the killer B2G reference case.

🌱
ESG + SDG Aligned

Supports UN SDG 7, 11, 13. Perfect fit for ESG mandates, ODA funding, CSR programs, and government sustainability initiatives globally.

Investor Quote
"GeoWind reduces market risk through CES and installation risk through iF Design. Combined, they accelerate adoption speed — the key metric for scaling deployment."
— Investment thesis, dual award analysis
Request Investment Information

Built by Believers.

A team that combines deep technical invention, serial entrepreneurship, and senior corporate leadership.

👨‍💼
YoungJune Jeon
Founder & CEO

Mechanical designer & patent holder. Leads R&D, secured CES 2026 & iF Design Award. Founded GeoWind 2024. Driving global expansion and investor relations from Seoul, Korea.

🏗️
Jeong Bo Lee
Chief Operating Officer

Serial entrepreneur in exhibition & installation. Secured the Oido Museum project — GeoWind's flagship Korean pilot. Deep network in the Korean smart-city ecosystem.

📊
Moo Hwan Bae
Chief Strategy Officer

Former Lotte Group Corporate Planning. Leads VC relations and government funding strategy. Brings institutional credibility to GeoWind's fundraising and strategic partnerships.

Young Ju Kim
Executive Advisor
Veteran cybersecurity executive. Former CTO & R&D Director. Technology innovation & corporate strategy.
Sang Wook Han
Strategic Advisor
Senior industry advisor with deep expertise in Korean manufacturing and export networks.
Chang Sun Pyun
Strategic Advisor
Strategic advisor supporting GeoWind's government relations, institutional partnerships, and policy positioning.

Let's Build This Together.

We welcome serious inquiries from venture capital, angel investors, government partners, and strategic corporate partners.

✉️
Email
info@geowind.kr
📱
Phone / WhatsApp
+82-10-2662-1327
📍
Headquarters
Seoul, Korea (KST)
We're Open To
Venture Capital Angel Investment Government Grants Corporate Partnership Global Distribution Media / Press
Request Information
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