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Net Zero CO2

Solutions to Reduce Global Greenhouse Gas Emissions, Net Zero CO₂ Energy Generation, Convert Biomass, Reduce Water Scarcity, & Desalinization

EPA chart depicting greenhouse gas emissions

• Net Zero CO₂ Energy Generation
• Desalinization & Water Reclamation
• Biomass Conversion
• Production of Bio-Fuels & Other Higher Carbon Chain Products
• Greenhouse Gas Reduction
• Super-Critical CO₂
• Alternative Energy

BioEnergy Corporation has efficient innovative cost-effective solutions for industry and governments to provide sustainable, uninterrupted continuous net zero CO₂ energy generation, biomass conversion and reduction in water scarcity.

BioEnergy Corporation uses disruptive nanotechnology methods to reclaim natural resources to provide sustainable global solutions for energy, water and secure food supplies.

The developer of patent pending proprietary Stoichiometric Decomposition & Recombination (SDR) Nanotechnology Processes that offers a unique approach to significantly reduce greenhouse gas (GHG) emissions to provide sustainable, uninterrupted continuous net zero CO₂ power without incorporating wind or solar, and to convert biomass to usable products, and provide desalination, water purification and potable water creation.

Understanding the Global Problem

The greenhouse effect occurs when radiant heat from the sun is captured in the lower atmosphere of the earth to cause a warming effect (Global Warming) that results in an overall temperature increase of the earth’s atmosphere. The effect is induced by what is referred to as greenhouse gases (GHG). Increasing global temperatures are causing a broad range of changes. Amounts and patterns of precipitation are changing, sea levels are rising and land ice is melting due to the ocean’s thermal expansion. The total annual power of hurricanes has increased markedly since 1975 because their average intensity and duration have increased (in addition, there has been a high correlation of hurricane power with tropical sea-surface temperature). The largest source of GHG emissions is anthropogenic from human activities, such as the burning of fossil fuels for electricity, heat, and transportation.

The graphic below shows the percentage of greenhouse gas emissions:

BioEnergy’s SDR Nanotechnology Solution:

Our teams work in parallel development of the SDR Nanotechnology Process Systems and the charting of greenhouse gas reductions and product logistics.

Our SDR Power Generation System (SDR-PWD) — can function as a mobile or stationary small footprint energy generation system that can generate megawatts of sustainable continuous uninterrupted power to the grid with "net-zero CO₂" emissions and net–zero emissions of other greenhouse gases at a cost less than 3¢ per kWh, without incorporating wind or solar.

Our SDR Biomass Conversion System (BHF-SDR) — can reduce nutrient loads and rapidly decompose biomass from waste digesters, agricultural waste slurries, and plant-based biomass and convert the constituents to fertilizers, bio-diesel, bio-jet fuel and to other higher carbon molecular chain products.

Our Biomass Conversion Constituent Assessment (BCCA) Team — correlates greenhouse gas (GHG) reduction analysis for economic, downstream and climate change impact (BCCA/GHG Assessment).

Our SDR Water Creation/Desalination System (WCD-SDR) — can significantly reduce the energy required in desalination processes by altering the molecular structure of salts in brackish water to cause the salts to become buoyant and drop-out while leaving behind potable water. The SDR Nanotechnology processes can be used to recombine hydrogen and oxygen to produce potable water (H₂O) without using electrolysis or reverse osmosis process methods.

SDR Water Remediation & Purification System (WRP-SDR) — can be used to effectively destroy pathogens, decompose and remediate contaminates in existing water to provide safe potable water.

Impact of BioEnergy Corporation's SDR Nanotechnology Per Sector

The graph below reflects the greenhouse gases produced per sector:

Sector Impacts

Referring to the per-sector GHG Emissions chart above, our mobile SDR Nanotechnology can be deployed in various process configurations to service multiple applications to significantly reduce GHG emissions across all sectors, to provide sustainable uninterrupted continuous power, and to efficiently convert biomass and CO₂ emissions to usable products and also to produce potable water.

The following notes the per-sector impact benefits of the SDR Nanotechnology:

Power Stations, Residential, Commercial, and Other Sectors

BioEnergy’s mobile SDR Net Zero CO₂ Energy Generation Technology is capable of providing megawatts of sustainable, continuous uninterrupted electric power to the grid while generating “Net-Zero CO₂” emissions at a cost less than 3¢ per kilowatt hour (kWh). By connecting to a CE, we can efficiently convert the exhaust constituents generated from the combustion process using our proprietary SDR Nanotechnology process to quickly and efficiently decompose the exhaust constituents, sequester oxygen, and then recombine the carbon and hydrogen as bio-fuel, which is then be fed back into the CE.

Agricultural, Waste Treatment, and Transportation Fuel Sectors

Our mobile SDR Nanotechnology processor can reduce nutrient loads and rapidly decompose biomass having a centipoise value (cP) greater > than 1 and more than 10,000, such as from waste digesters, agricultural waste slurries, and plant-based biomass, to create fertilizers, bio-fuels, and other higher molecular carbon chain products for resale.

Waste Water Treatment Sectors

Our mobile SDR Nanotechnology processor can be used to effectively destroy pathogens and to remediate contaminates to produce potable water. This technology can also rapidly liberate constituents such as hydrogen and oxygen from raw sewage, manure waste lagoons, digesters, brackish water and hydrocarbons, then recombine the constituents of hydrogen and oxygen to produce potable water (H₂O) without using electrolysis or reverse osmosis process methods.

Industrial Processing Sector

Our mobile SDR Nanotechnology processor can efficiently capture and convert the GHG exhaust constituents of CO₂ (carbon dioxide) from Industrial Processes to bio-fuels and to other higher molecular carbon chain products.

Fossil Fuel Retrieval Processing and Distribution Sectors

Our mobile SDR Nanotechnology processes are able to rapidly decompose refinery process plant byproduct constituents, and then recombine the constituents to create usable fuels and other higher carbon chain products.

Customer Profile

BioEnergy’s customers:

generate significant biomass
desire to reduce greenhouse gas (GHG) emissions
require significant use of clean water in their process operations
are subject to governmental and institutional regulations governing their discharge
have valid concerns about contamination and pathogens
are actively searching for innovative energy, water and greenhouse gas reduction solutions

Executive Team

F. Lee Simmons, Jr.
President and CEO

Barbara Guth, Vice President
International Environmental Relationships

George E. Economou, Vice President
Technical Sales and Implementation

Marla Gamze, Vice President
Geographic Information Systems

Susan Wu
Chief Technology Officer

Chester Radek
Advisory Board Member

Jason San Souci
GIS and IT Specialist

The key managers of the firm have built close working relationships that have been forged at numerous technological, environmental, energy and compliance organizations. The team has an extensive experience base in research & development, consulting, manufacturing, financial management and engineering projects for both government and commercial entities. As the developer of the SDR Nanotechnology Processes, BioEnergy’s President & CEO, F. Lee Simmons, is uniquely qualified to lead the team to success in the global market.