GVER Cavitational Hydrodynamic Rotary Heat Steam Generators

1. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Models GVER-011, GVER-022, GVER-037 Advanced Steam Generation Technology GverLab - Laboratory of Alternative Energy Website: www.gver.dx.am YouTube Channel: GverLab Videos Development: Designed and produced by GverLab with Ukrainian partners Technology: Hydrodynamic Cavitation Steam Generation GverLab - Advanced Energy Solutions | Page 1 1/15

2. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Hydrodynamic Cavitation Heating Process Physical Mechanism of Cavitation Heating Hydrodynamic cavitation is a highly efficient process that converts mechanical energy into thermal energy through the controlled formation, growth, and violent collapse of vapor bubbles in liquid water. 1. Bubble Formation (Nucleation) When liquid water is subjected to rapid pressure reduction through rotary motion, vapor cavities (bubbles) form spontaneously when the local pressure drops below the saturated vapor pressure of water. This occurs at specific nucleation sites within the rotating chamber. 2. Bubble Growth (Expansion) The newly formed vapor bubbles rapidly expand as they move through the low-pressure region. During this phase, the bubbles can grow to sizes several times their original diameter, filled with water vapor and dissolved gases. 3. Violent Collapse (Implosion) As the bubbles move to higher pressure regions, they undergo catastrophic collapse. The inward momentum of surrounding liquid causes extremely rapid compression of the vapor within the bubble, generating extreme local conditions. Critical Parameters During Bubble Collapse: • Temperature: Up to 20,000 K (19,727°C) in microseconds 2/15

3. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators • Pressure: 100-5000 bar (1,450-72,500 PSI) • Energy Release: ~4×10⁻⁵ joules per bubble • Collapse Duration: Microseconds to nanoseconds 4. Energy Transfer to Bulk Liquid The enormous energy concentrated in each collapsing bubble is rapidly transferred to the surrounding liquid through heat conduction and shock wave propagation. This process heats the bulk liquid efficiently without external heating elements. GverLab - Advanced Energy Solutions | Page 2 3/15

4. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators GVER Technology Advantages Superior Energy Efficiency 1.5× higher steam output compared to conventional electric steam generators at the same power consumption. Conversion efficiency reaches approximately 2 kg of saturated steam per 1 kW of electrical input. Explosion Safety Unlike conventional boilers, GVER generators operate without high- pressure steam accumulation, eliminating explosion risks. The continuous process design ensures safe operation under all conditions. Water Quality Independence Can utilize any water quality without chemical treatment, scale inhibitors, or water softening. The cavitation process itself helps break down scale and deposits. Multi-Output Versatility Single unit capable of producing: Saturated steam at 150°C Steam-water mixtures Hot water at various temperatures Adjustable pressure outputs (0.4-0.5 MPa) Rapid Startup & Response 4/15

5. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Instant startup capability with no warm-up time required. Ideal for cyclical operations and short-term steam demands. Minimal Maintenance No heating elements to replace, no scale buildup issues. Maintenance limited to periodic water filter checks and motor control monitoring. Mobile & Autonomous Operation Fully portable when equipped with internal combustion engine. Self- contained operation suitable for remote locations and mobile applications. GverLab - Advanced Energy Solutions | Page 3 5/15

6. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators GVER-011 Heat Generator & Mixer GVER-011 Compact Model Under Development Technical Parameter Specification Units Electric Power Consumption 11 kW Heat Production Rate 10600 ccal/H Max fluid temperature 95 °C Working Pressure 4 (0.4 MPa) kg/cm² Energy Efficiency ~1.2 Operating Mode Continuous/Intermittent - Water Quality Requirements Any (no treatment required) - Startup Time Instant seconds 6/15

7. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Target Applications: Small-scale industrial processes, laboratory applications, food service, small greenhouses, residential steam cleaning, workshop applications. Design Features: Entry-level hydrodynamic cavitation steam generator optimized for smaller operations requiring reliable, efficient steam production with minimal maintenance requirements. GverLab - Advanced Energy Solutions | Page 4 7/15

8. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators GVER-022 Steam Generator GVER-022 Universal & Compact Models Available - Tested June 2023 Technical Parameter Specification Units Electric Power Consumption 22 kW Steam Production Rate 40 kg/hour Working Steam Temperature 150 °C Working Pressure 4 (0.4 MPa) kg/cm² kg steam/kW Energy Efficiency 1.82 Compact & Universal Available Models - June 25, 2023 Testing Status Successfully tested Operational Flexibility Steam/Hot Water/Mixture - 8/15

9. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Proven Performance: Successfully demonstrated in comprehensive testing program. Video documentation available showing actual steam generation performance under industrial conditions. Target Applications: Medium-scale industrial processes, food processing, concrete curing, greenhouse operations, small manufacturing facilities, institutional heating systems. GverLab - Advanced Energy Solutions | Page 5 9/15

10. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators GVER-037 Steam Generator GVER-037 Universal Model Latest Model - 2024 Technical Parameter Specification Units Electric Power Consumption 37 kW Steam Production Rate 70 kg/hour Water-Steam Mixture Output 180 kg/hour Working Steam Temperature 150 °C Working Pressure 5 (0.5 MPa) kg/cm² kg steam/kW Energy Efficiency 1.89 Development Year 2024 - Model Type Universal - Enhanced Capacity: Highest output in the GVER series with improved efficiency and dual-output capability (pure steam 10/15

11. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators and steam-water mixture). Target Applications: Large-scale industrial processes, major food processing facilities, large concrete operations, industrial heating systems, power plant auxiliary applications, large- scale cleaning operations. GverLab - Advanced Energy Solutions | Page 6 11/15

12. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Industrial Applications Construction & Infrastructure Food & Beverage Industry • Meat processing and disinfection • Dairy sterilization and cheese production • Brewing and beverage production • Canned food manufacturing • Sausage production processes • Steam curing of concrete and reinforced concrete products • Production of paving slabs, curbs, decorative stones • Heating of building foundations and wells • Cable duct and communication line heating Agriculture & Greenhouse Industrial Heating • Soil steaming and disinfection • Air humidification in greenhouses • Mushroom cultivation and substrate preparation • Feed pellet production • Seed treatment processes • Hot water supply for industrial buildings • Fuel oil and thick fuel heating • Pipe defrosting operations • Viscous material heating • Container and tank steaming Paper & Wood Processing Service Industries • Pulp and paper production • Corrugated packaging manufacturing • Plywood production processes • Wood drying and humidity control • Automotive cleaning and repair • Laundry and dry cleaning operations • Sauna and spa facilities • Commercial kitchen operations • Industrial cleaning services 12/15

13. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators • Lumber processing operations Universal Compatibility: GVER steam generators can replace conventional boilers in virtually any application requiring steam, hot water, or steam-water mixtures, while providing superior efficiency and safety. GverLab - Advanced Energy Solutions | Page 7 13/15

14. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Contact Information & Technical Support GverLab - Laboratory of Alternative Energy Official Website: www.gver.dx.am YouTube Channel: GverLab Videos Technical Documentation: Available on website Video Demonstrations: Live testing and operation videos available Development Partnership GVER steam generators are designed and produced by GverLab in collaboration with Ukrainian engineering partners, combining advanced theoretical research with practical industrial experience. Technical Support Services • Complete installation guidance • Operational training programs • Maintenance scheduling and support • Performance optimization consulting • Custom application engineering Quality Assurance All GVER models undergo comprehensive testing programs with documented performance verification. Testing results and operational videos are publicly available for review. 14/15

15. GVER Cavitational Hydrodynamic Rotary Heat Steam Generators Innovation Focus: GverLab continues to advance hydrodynamic cavitation technology, with ongoing research into enhanced efficiency, expanded applications, and next-generation steam generation solutions. Environmental Impact: GVER technology represents a significant advancement in sustainable steam generation, offering reduced energy consumption, elimination of chemical water treatment, and zero emissions during operation. GverLab - Advanced Energy Solutions | Page 8 15/15