Advanced Green Energy Technologies
Engineering Solutions
That Don't Exist Yet.
Breakthrough engineering solutions for water, energy, and transport — addressing critical global challenges with proprietary technologies. Seeking strategic partners and investors.
Years of Research
Patents
Scientific Publications
01 — About
A Lifetime of Scientific Innovation
Dr. Gennadiy Varpakhovich is a Doctor of Science in Physics and Functional Electronics with over 40 years of experience in aerothermodynamics, heat transfer, and energy systems. His career spans fundamental research, applied engineering, and breakthrough inventions.
Holder of 2 patents and numerous inventions, author of 34 scientific publications. His work bridges theoretical physics with practical engineering solutions that address real-world challenges in water scarcity, climate control, and sustainable transportation.
D.Sc. Physics & Functional Electronics
2 Patents, Numerous Inventions
34 Scientific Publications
40+ Years of Research
Principal Investigator
Gennadiy Varpakhovich
Chief Scientist & Inventor
Pennsylvania, USA
D.Sc. in Physics and Functional Electronics. Over 40 years of research in aerothermodynamics and energy systems. Visionary behind all key innovation areas.
Chief Scientist & Inventor
02 — Projects
Key Innovation Areas
Each project applies advanced engineering principles to solve critical real-world challenges.
Atmospheric Water Generation
A proprietary atmospheric water generation system with dramatically higher efficiency than existing solutions. Applicable to residential and commercial HVAC, indoor pool climate control, agricultural irrigation, military field operations, and emergency water supply. Technical details available under NDA.
Technology
Details Available
Anti-Icing for Airships
Advanced anti-icing technology for hybrid airships using aerothermodynamic principles. Enables safe operation in cold weather conditions, expanding the operational envelope for next-generation lighter-than-air vehicles used in cargo transport and surveillance.
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Hybrid Tethered Aerostat Surveillance
Persistent aerial surveillance platform using tethered aerostats with advanced sensor arrays. Cost-effective alternative to satellite and drone systems for border security, disaster monitoring, and communications relay. Continuous operation capability.
Transport with Energy Recuperation
Vehicles with advanced energy recuperation systems for maximum efficiency.
Technology
Aerothermodynamic Air Dehumidification
Our next-generation technology is based on an aerothermodynamic mechanism of moisture phase separation, delivering a qualitative leap in specific productivity compared to conventional compressor-based systems.
Aerothermodynamic cycle diagram: from air intake to clean water collection
The Phase Machine — Overview
How we turn atmospheric moisture into electricity and clean water
Active Dehumidifiers
Indoor Systems
Next-generation active air dehumidifiers designed for indoor use have virtually no climate limitations and can operate effectively across a wide range of conditions.
Autonomous Water Generators
Atmospheric Systems
The productivity of autonomous wind-powered atmospheric water generators depends on external environmental factors. The system utilization coefficient can vary significantly depending on the operating region.
Operating Parameters
Key Advantages of the Aerothermodynamic Approach
Compared to conventional compressor-based atmospheric water generators
Extended Utilization Coefficient
Ability to operate effectively across a wider humidity range, including conditions where conventional systems lose efficiency.
Qualitative Productivity Leap
The aerothermodynamic moisture phase separation mechanism delivers up to 50x increase in specific productivity compared to compressor-based systems.
Low Humidity Advantage
Particularly significant advantage at reduced relative humidity, where conventional system efficiency drops sharply while our technology maintains high productivity.
Technology Comparison
AGET Aerothermodynamic Approach vs Conventional Compressor-Based AWG
| Parameter | Compressor-Based AWG | AGET Aerothermodynamic |
|---|---|---|
| Specific Productivity | Baseline (1x) | Up to 50x higher |
| Min. Humidity (RH) | > 70% for effective operation | > 55% (extended range) |
| Temperature Range | +5...+35 °C | +15...+35 °C |
| Energy Efficiency | Standard | 40-60% higher |
| Low RH Performance | Sharp efficiency drop | Maintains high productivity |
| Power Source | Grid electricity | Wind / autonomous |
| Compressor Moving Parts | Yes (wear, maintenance) | No (aerodynamic principle) |
| Refrigerants | Required (environmental risk) | Not required |
| Scalability | Limited by compressor capacity | Modular, linear scaling |
| Noise Level | High (compressor) | Low (aerodynamic) |
* Data based on laboratory testing and theoretical calculations. Actual performance may vary depending on operating conditions.
This new technology significantly improves the efficiency of atmospheric water generation and expands its practical applications — from autonomous water supply systems and active indoor dehumidifiers to agriculture and sustainable development infrastructure.
Practical Applications
Use Cases
Our aerothermodynamic technology solves real-world challenges across industries — from climate control to autonomous water supply.
Indoor Pool Climate Control
Eliminate excessive humidity, condensation damage, and corrosion in indoor pool facilities. Our system maintains optimal 50-60% RH without the energy penalty of compressor-based dehumidifiers.
Commercial HVAC Integration
Seamlessly integrate with existing HVAC systems in office buildings, hospitals, and data centers. Reduce cooling loads while maintaining precise humidity control.
Agricultural Irrigation
Autonomous atmospheric water generation for remote agricultural operations. Wind-powered systems provide sustainable water supply independent of grid electricity.
Military & Emergency Response
Portable, autonomous water generation for military field operations, disaster relief, and humanitarian missions. No dependence on water supply infrastructure.
Industrial Dehumidification
Protect manufacturing equipment, prevent moisture-related defects, and maintain product quality in warehouses, pharmaceutical plants, and food processing facilities.
Residential Water Supply
Clean drinking water from air for off-grid homes, island communities, and arid regions. Scalable modular design adapts to household or community needs.
Want to learn how our technology can help your business?
Discuss Your Project03 — Publications & Achievements
Scientific Foundation
Decades of peer-reviewed research and patented innovations form the backbone of our technology.
Patents
Registered Inventions
Scientific Publications
Years of Research
Complete Publication List (34)
Calculation of apodization of interdigital SAW transducer
Co-authors: G. I. Veselov
Calculation and minimization of SAW propagation losses in interdigital structures
Co-authors: E. S. Slesarev
Optimization of excitation pulse parameters for acoustoelectronic code-forming devices
Vector method for photomask synthesis for submicron dimensions on large substrates
Co-authors: E. S. Slesarev
Practical matching circuit designs for SAW devices using acoustic transformer
Acoustoelectronic devices in complex signal processing systems
Mathematical model of interdigital SAW transducer with long-line effects
Research on low-loss SAW filter comb
Co-authors: S. I. Orlov
Method and device for IDT on SAW with minimal acoustic beam diffraction
Method for object identification and apparatus for its implementation
Theoretical foundations of SAW code-forming devices for identification systems (D.Sc. Dissertation)
Justification and calculation of SAW code-forming devices in microwave range (Ph.D. Dissertation) — This pioneering work laid the foundations for passive RFID technology in Russia
Research Areas
News & Updates
Latest Publications
Expert articles on dehumidification technology, atmospheric water generation, and energy innovation.
Pulcinella's Secret — The Founder's Story
Every morning for 25 years, I clocked in at MTA New York. Every night, I went home — and engineered the future in silence. The full story of how the Phase Machine was born.
Read full articleYour Home Produces More Energy Than You Think. No One Just Knew How to Capture It.
Every day, the air around your home absorbs and releases thousands of watts of hidden energy. For the first time in history, we have learned to harness it with the Phase Machine.
Read full articleYour Basement Is Slowly Eating Your House. Here's How to Stop It.
In the U.S., roughly 90% of single-family homes are wood-framed. But they share a vulnerability rarely discussed: moisture. The Phase Machine offers a radical new defense.
Read full articleWhat If Your House Could Make Water Out of Thin Air?
Instead of purifying problematic water — create it from scratch with specified characteristics using the aerothermodynamic Phase Machine.
Read full article04 — Partnership
Seeking Strategic Partners
We are actively seeking partnerships with industry leaders, research institutions, and investors to bring these technologies from concept to market.
HVAC Industry
Companies like Desert Aire, Therma-Stor, Munters, and Daikin who can integrate our dehumidification technology into existing product lines.
Government & Defense
Agencies such as ARPA-E, DOE, FEMA, and USDA interested in water security, emergency response, and surveillance capabilities.
Research Institutions
Universities and national laboratories for joint research, prototype development, and technology validation.
Investors & Grants
Venture capital firms and grant programs (NSF SBIR $275K, ARPA-E) to fund prototype development and market entry.
06 — FAQ
Frequently Asked Questions
Learn more about our technologies, approach, and partnership opportunities.
AGET develops proprietary atmospheric water generation technology that is dramatically more efficient than conventional systems. The technology is based on decades of scientific research and is protected by patents. Detailed specifications are available to qualified partners under NDA.
Have more questions? Contact us at [email protected]
05 — Contact
Let's Build the Future Together
Interested in our technology? Reach out to discuss partnership opportunities, licensing, or investment.
Direct Contact
Phone
(347) 822-1899
[email protected]
Gennadiy Varpakhovich, D.Sc.
Location
Pennsylvania, USA