GeoWind has engineered the world's first icosahedron-frame vertical-axis wind turbine — turning every urban rooftop, port, and campus into a clean energy and climate intelligence asset.
Over half the world's population lives in cities — yet urban areas have almost no local renewable energy infrastructure. Cities import nearly 100% of their power.
Centralized power grids cost over $2 trillion annually to maintain globally. A single point of failure — weather, cyberattack, or equipment failure — can blackout millions.
Despite billions of square meters of rooftop space in cities worldwide, urban wind energy penetration is effectively zero. Existing turbines are too loud, too large, and too inefficient.
"Wind turbines were designed for empty fields. Nobody designed one for the city — until now."
Conventional horizontal-axis wind turbines need high, steady wind speeds, generate significant noise, require large footprints, and pose risks to birds and people. They simply cannot be deployed in urban environments.
Meanwhile, cities are sitting on vast, untapped wind resources — rooftop turbulence, coastal breezes, canyon-effect wind channels between buildings. This energy is invisible and uncaptured.
GeoWind was founded to solve this problem at its root — by reimagining the geometry of wind capture itself.
The icosahedron — 20 equilateral triangular faces — is the geometric form closest to a perfect sphere. It's found in viral capsids, carbon molecules, and architectural domes. GeoWind puts it to work capturing urban wind.
The geodesic structure captures wind from all 360° simultaneously — no yaw mechanism needed. Omnidirectional capture in turbulent urban airflow where conventional blades fail entirely.
Every turbine is a smart sensor node. Onboard sensors stream real-time wind speed, temperature, humidity, and air quality data to our AI grid — creating hyper-local climate maps of cities.
The geometry eliminates harmonic blade noise. At ≤45dB, GeoWind turbines are quieter than a library — enabling deployment in schools, hospitals, residential buildings, and public spaces.
Conventional turbines need 10+ m/s wind to generate meaningful power. GeoWind starts at just 4 m/s — harnessing the gentle urban gusts that fill every city every day.
Three purpose-built models: GW600 (portable/demo), GW1200 (rooftop), GW1800 (campus/port). Stackable, array-ready, and deployable without heavy equipment or specialized crews.
Hardware sales plus recurring SaaS revenue from the GeoWind Climate Grid API — providing cities, developers, and researchers with real-time hyperlocal climate intelligence.
PCT International Patent: PCT/KR2023/019844
Academic Publication: arxiv.org/abs/2603.00017
Zenodo DOI: 10.5281/zenodo.19640089
The combined global market for urban-scale wind energy systems and real-time urban climate intelligence platforms, growing at 18% CAGR.
Focus markets of Korea, Japan, Southeast Asia, and the Americas — high urban density, strong sustainability mandates, and growing ESG investment requirements.
Commercial rooftop installations, smart city infrastructure, and port/industrial microgrid deployments — the highest-value, fastest-adoption segments.
Scale production of GW1200 and GW1800, advance GW1800 Air Tent Edition for CES 2027, and expand AI climate grid capabilities.
Establish distribution partnerships in India, Southeast Asia, and the Americas — where inbound demand is already strongest.
Hire engineering, sales, and business development talent to support rapid scaling across target markets.
Advance PCT patent prosecution and establish regional IP protection in key markets.
CES 2026 + iF Design Award — two of the world's most competitive innovation platforms — confirm the breakthrough nature of GeoWind's technology.
PCT international patent pending on the core icosahedron VAWT geometry creates a durable competitive advantage in a market with no direct competitor.
Unsolicited inbound partnership inquiries from 10+ countries with zero marketing spend demonstrates authentic product-market fit across global markets.
Hardware sales + recurring climate data SaaS creates a diversified, scalable business model with strong unit economics at scale.
Inventor of the icosahedron VAWT technology. Led GeoWind from concept to dual award-winning product. Driving global expansion and investor relations from Seoul, Korea.
Multidisciplinary team covering mechanical engineering, embedded systems, AI/ML, and materials science — advancing the GeoWind product roadmap toward CES 2027.
Growing network of energy industry veterans, smart city specialists, and cleantech investors providing strategic guidance across technology, go-to-market, and fundraising.