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The Vertical Silo -Variable Closed-Loop System
The Vertical Silo solves existing challenges in the wind turbine and solar panel industries. We are trading resistance for distance in a compound lever.
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Disaster Relief
Sets up in hours and provides power for disaster areas.
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Military Applications
One of the biggest issues with our military is portable power overseas. By using the Vertical Silo and patented lever arms, a military truck can carry a silo that is completely powered by the sun.
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Eliminates Noise and Radar Interference
Using the vertical silo option eliminates noise and radar interference
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Flip turbines horizontally and stack vertically
By rotating the patented turbine blades horizontally and then stacking the vertically in the silo, we can place 1,500 turbines in the same square feet as you can place 150 existing turbines.
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Turbines in Desert Regions Powered by the Sun
By placing the vertical Silo option in the desert, we can rotate turbines by only using the sun.
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Home Turbines with Solar or Wind
By using our Hybrid option, a standard wind turbine can operate safely from the wind or sun. If there is no wind one day and the sun is shining, the turbine will operate all day. Doubling the total power output for the day.
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Maritime Silos
By using the Vertical Silo option in cargo ships, there can be substantial savings on fuel if the sun is shining.
Physicy Meets Energy: Patented Turbine Harnesses Mechanical Advantage Through Archemedies' "Law of the Lever"
Uses Archimedes’ “Law of the Lever” and compact ducted assist units to increase torque and operate in low-wind environments with Built-In Solar Thermal Management
- Works in low or no wind
- Retrofit for existing turbines
- Higher energy density per square foot
- All models have thermal management built-in to lower resistance to recover net losses
- Roadmap to 80% Efficiency
The Problem Statement
Conventional renewable energy architectures often treat inherent conversion losses as immutable constraints rather than engineering challenges.
- Photovoltaic (PV) Thermal Degradation: PV modules exhibit pronounced performance degradation as operating temperatures rise. When surface temperatures exceed Standard Test Conditions (STC of 25°C / 77°F), overall PV efficiency can degrade by up to 25%, a direct result of the semiconductor materials’ negative temperature coefficient.
- Wind Energy Inefficiencies: Horizontal-axis wind turbines (HAWTs) typically plateau at approximately 35% aerodynamic efficiency. Furthermore, these systems are constrained by meteorological intermittency, demand low spatial energy density (large footprints), and rely on conventional airfoil geometries. These traditional blades suffer from substantial parasitic drag and suboptimal torque generation near the rotor hub, culminating in profound structural and mechanical inefficiencies.
The Architectural Solution
Our methodology eschews the incremental optimization of legacy designs in favor of resolving systemic inefficiencies at the architectural level.
- Mechanical Optimization of Wind Capture: To mitigate aerodynamic limitations, our proprietary architecture applies to Archimedean principles of leverage by displacing primary force application to the distal extremity of the rotational structure. This maximizes the arm, exponentially enhancing torque generation. In this “Lever” configuration, conventional airfoil blades are entirely obsolete. Eliminating the inner blade sections eradicates the associated parasitic drag—traditionally a primary vector for efficiency loss—resulting in a mechanically optimized drivetrain that demonstrates superior force-to-energy conversion efficacy.
- Active Thermal Management for PV: To counteract thermal degradation inherent in solar applications, the system embeds active thermal management directly into its structural architecture. Integrated ducted fans induce forced convective airflow across the PV array, facilitating rapid heat dissipation as a byproduct of standard operation. This active thermal regulation suppresses the temperature coefficient penalty, recuperating unavoidable efficiency losses, and significantly elevating the baseline output of the solar array.
The Paradigm Shift
By re-evaluating baseline operating conditions, mechanical dynamics, and systems integration, this technology is engineered to maximize net thermodynamic and mechanical efficiency, transcending historical performance boundaries. This paradigm shift acknowledges that contemporary energy density targets require a fundamental, ground-up redesign rather than marginal iterations on obsolescent platforms.
By performing a root-cause analysis on the barriers to efficiency scaling, our research has not only addressed core conversion losses but has also resolved systemic mechanical and aerodynamic engineering bottlenecks that have persisted for a century.
Projected Efficiency Ratings Based on “NET” efficiency instead of conforming to historical performance limits.
Solar Panel Efficiency Rating
Wind Turbine Efficiency Rating
Solar Wind Turbine Projected Efficiency Rating
Strategic Corporate Alliance Model
We are intentionally circumventing conventional venture capital and retail equity markets to pursue strategic corporate alliances within the renewable energy sector. Our target demographic comprises Tier-1 electric utilities, original equipment manufacturers (OEMs) in wind energy, and enterprise-scale solar developers.
Target Partner Profile
The optimal partner is an established industry leader possessing the requisite engineering acumen to identify the fundamental physical constraints and efficiency loss factors in current energy generation paradigms. Crucially, they must possess the technical infrastructure to empirically validate our technology’s efficacy in mitigating these systemic inefficiencies.
Development Phase & Capital Requirements
Having successfully concluded theoretical validation and resolved core engineering barriers, we are seeking a $2 million capital injection. This funding is strictly allocated for the fabrication, empirical testing, and rigorous operational validation of nine distinct prototype iterations.
Strategic Value Proposition
This alliance framework offers a distinct competitive advantage for an enterprise partner:
Synergistic R&D Integration:
The $2M capital requirement aligns seamlessly with the established R&D expenditure frameworks of enterprise energy providers. It represents a mathematically low-risk, high-upside allocation within a broader advanced renewables portfolio.
Proprietary IP Acquisition:
In consideration for funding the prototype fabrication and validation phases, the corporate partner will be granted the right of first refusal (ROFR) and priority licensing access to the resulting intellectual property portfolio.
Aligned Strategic Objectives:
We are actively avoiding passive capital. We seek a technically proficient stakeholder committed to deploying disruptive, next-generation energy infrastructure at a commercial scale.
Introduction to Archimedes' "Law of the Lever"
Solar Wind Turbine
Diverse Models for Various Geographical Areas
USPTO PAT NO 12504001
USPTO PAT NO 12504001
Contact Information
Solar Wind Turbine With Lever Assist
Robert Wajda
Box 551293
Jacksonville, FL 32255
Phone: 904-631-8499
EMail: Robert@SolarWindTurbine.com
Investor Connect
In the arena of innovation encompassing today’s fast-paced research and development standards in keeping stride with competition in various competitive markets, it is rare to find an invention or novel concept that can provide such positive organic influence on two entirely different environmental sectors at the same time. (More…)
Robert G. Wajda, born February 1, 1968, is an American inventor and entrepreneur who specializes as a product visionary for innovations geared toward the future. (More…)
Intellectual Property
US PAT NO. 11699760
US Publication #2023-0383728-A1