THE Scientific Private Membership Association of

Net Zero Infrastructure

ENERGENE's network of carbon sequestering Intellectual Property (IP) involves collabrating with scientific/academic research groups to foster a ground up different approach for giga-ton scale carbon removal. Only together can a sustainable holistic big picture approach work out the technology details that will help us complete this picture to get there. Join us on this journey on solving the world's hardest problem in the most cost effective way.

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About Us

CRISPR

NOBEL PRIZE WINNING TECHNOLOGY THAT CAN CHANGE THE WAY WE POWER EVERYTHING

SCIENCE

WHITE PAPER ON HOW TO IMPACT INDUSTRIES IN SUCH A WAY THE TOTAL GROSS CARBON IS ELIMINATED FOR WORLD ECOSYSTEM

INVEST

FIND OUT HOW YOU CAN GET INVOLVED BY INVESTING AND PROFITING IN ENERGENE TECHNOLOGIES

Processes of Carbon Sequestration

Read more in our ECS plan

How to Change Carbon Impact

Read more in our white paper.

ENERGENE can significantly reduce the greenhouse fuel gas emissions in all six industries of carbon emissions by using 2020 NOBEL PRIZE winning technology to specially craft a custom solution for each one and then use the same tech to combine the six specific solutions into one.

Invest in Energene projects with NFT, Crypto or Crowdfunding

PBR (PhotoBioReactor)

Energene Carbon Sequestration captures and converts carbon dioxide (CO2) from flue gas produced during electricity production and converts it to 10+ cash crops to combat climate change. It uses machine learning enhanced genetically modified algae and a special device called a photobioreactor (PBR).

ECS aims to sequester gigatons of carbon, reducing greenhouse gas emissions in electricity generation. It also helps sequester agriculture emissions, as well as transportation and industrial sources. One single solution that can be applied to 4 of the 6 major carbon producing sources increases return on investment for scalability and sustainability. Electricity/Heat production, Agriculture, Transportation and Industry. Other energies and building tech has future benefit planned after initial implementation.

Electricity Production

Energene uses A.I. Machine Learning models to utilize DeepCRISPR to modify algae species (Chlorella Vulgaris) with key traits to improve crop yields. PBR: The PBR captures CO2 from coal/gas-fired power plants and converts it into 10+ cash crops for scalability and sustainability. Carbon Neutral low cost: Electricity, Carbon Credits, Hydrogen, Potable Water, Desalination, Nitrogen Fertilizer, Food stocks, Agriculture Feed stocks, Green Crude Oil products, Oxygen production.

Our Civilization faces significant challenges in achieving net-zero. To put it simply, ECS  technology addresses the critical issue of climate change and nature loss caused by excessive CO2 emissions from fossil fuel powerplants. By capturing and converting CO2 into valuable products, it directly reduces greenhouse gas emissions; This reduction in emissions would help stabilize global temperatures, mitigate extreme weather events, and slow the melting of polar ice caps. ENERGENE is modular in shipping containers and can be deployed globally in existing coal/gas plants, Industrial point sources of carbon output, and subsequently agriculture, transportation once initialized.

Climate Impact

Additionally, the technology’s ability to produce potable water and desalinate seawater tackles water scarcity, a growing concern due to climate change. The production of nitrogen fertilizer supports sustainable agriculture, reducing the need for synthetic fertilizers that can harm ecosystems. Solving these problems would be transformative as it promotes a circular economy, enhances energy security, and fosters environmental resilience. It would lead to healthier ecosystems, improved air and water quality, and a more sustainable future for all.

Our team is working with special microalgae that we’ve modified to be better at converting carbon dioxide (CO2) to oxygen from flue gases in electricity production. These tiny algae are like nature’s superheroes—they can be harnessed by a PBR to absorb CO2much more efficiently than regular plants in dirt. By fine tuning the algae’s genetic code, we hope to supercharge and widen their effective application range of CO2-converting abilities. We’re using artificial intelligence to speed up this process and optimize our algae/cash crop dataset to remove the most carbon in a local area. It’s like giving our green allies a turbo boost to fight climate change quickly. Once the PBR's are deployed, the cash crops can be A.I. analyzed to provide the top profit cash crops to grow in that area to keep expanding Energene into other local carbon industries to enhance the reach and environmental impact.

Sustainability

Adopting photobioreactors globally to sequester CO2 from fossil fuel power plants could revolutionize environmental and economic landscapes. In the short term, this technology would significantly reduce greenhouse gas emissions, mitigating climate change and improving air quality. The production of carbon-neutral electricity, hydrogen, and crude oil would diversify energy sources, enhancing energy security. Additionally, generating potable water and desalination would address water scarcity issues, while nitrogen fertilizer production could boost agricultural yields. In the long term, widespread adoption could lead to substantial carbon credits, incentivizing further green investments. The continuous supply of oxygen would benefit ecosystems and human health. Overall, this technology promises a sustainable, circular economy, reducing reliance on fossil fuels and fostering global environmental resilience.

Furthermore this solution is designed as a modular assembly in shipping containers so it can be easily manufactured and transported around the world for ease of implementation on existing coal/gas plants, removing giga-tons of carbon and helping sway our impact on our atmosphere in the other direction.  Installed inside a standard shipping container the logistics of transporting this technology to the carbon producing facilities and implementation a breeze for all customers. Low operational costs and high profit cash crops make sustainability easy to build and sustain as a foundation for all the other stages of carbon reduction to be built upon.

Discover how Energene is going to remove giga-ton’s of carbon in this whitepaper

Energene has a multi-stage approach:
1.  Carbon Sequestration through PBR’s (Photo Bio-Reactor)on non-residential point sources
2. Energene’ s products are powered without producing greenhouse flue gases expand the reach of Energene into other sources of perpetual carbon offenders for example refrigeration/AC industry.
3. Energy Buffer plan to streamline Energene Capture Utility (ECU) with the most energy dense storage and buffer systems to increase reliability and applications across the energy landscape.
4. Capture new energy sources previously untapped and use ECU to store that energy to reduce our need to produce more output. Also implement new plans to increase efficiency of buildings with modular design reducing the overall baseline needed.
5. Capture the large natural sources of carbon that dwarf the levels emitted by civilization hotspots across the globe.

These stages are employed in all six industries of carbon and greenhouse gas emissions to reduce civilization's carbon footprint significantly as well as the natural sources to bring a total net carbon loss measured in Gigatons. They are deployed separately. Our own crypto-currency Energenium are for making a stable currency; based on carbon industry technologies that employ these stages. We also have Energene’ s NFT’s to augment crowdfunding opportunities to raise capital and interest without strings of investors pulling this scientific private membership association down into the red from day one. With grants and donations being the last part of this initial puzzle, we will be able to network and legislate into local markets our stages with mass production shipping container logistics and contracts without diluting the strength of the association. This will enable us getting up off the ground with the greatest chance of success. These initial hurdles are the greatest challenge for a new organization to overcome and survive the first five years of implementation.

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Meet the Energene Team

Sterling Smith
CEO

Sterling Smith has a EE degree w/ telecom emphasis w/ 6 issued patents and has over 27 years of product development experience. He has spent 22 years in High Voltage Grid Design and Renewable energy plants such as Nevada Solar One plant at Nellis AFB. He has designed smart grid systems from Generation, Substation, Transmission and Distribution from coast to coast for the largest utilities in the US such as Duke Energy, AEP, PG&E and many others. He has lead and supervised projects worth up to 4 billion dollars and provided value to shorten the delivery time by 8 months for a year long project from his expertise and innovation ability to execute and finish ideas. He has started engineering contractor offices from scratch and helped hire and train the whole engineering dept and establish rapport and work from clients successfully in multiple different states. He has done field inspections for the projects he has designed to make sure quality is high. He has designed renewable energy plants over 475MW with attached BESS systems. He helped lead a team three different times that inspects and evaluates 710,000 miles of distribution grid for fire risk in California to identify areas of fire starting concern. He designs Carbon Sequestration systems and Microbial Fuel Cell systems to recapture energy in waste. He has also been state certified in the securities finance industry, licensed real estate agent, and entrepreneur looking to use all his expertise and experience to give back to the community. Sterling is married and a step-father of six. sterling@energen3.com

Diego Tapias P.E.
COO

Diego Tapias has 4 engineering & research degrees and is pursuing a double doctorate at UC Berkeley CA. He is extremely competent research manager currently researching solutions to the toughest problems in the world. Diego is an experienced research manager that has developed Microbial Fuel Cell Energy Generating Water Purification; Contact lenses that can read bio signs and transmit data to cell phones; to phone apps designed to calculate and stop pandemic spreads of bio-chemical attacks or virus outbreaks. He also was one of the lead engineer designing computer chips at INTEL Computers and programming, machine learning and robotic applications of work tasks. He knows how to put a team of professionals together to make a project a reality. He is fiscally accountable and capable of championing large projects across borders. Diego was the lead specialist for the generation plants at NV energy and currently works as a renewable energy analyst at NV Energy. He is also married and a father of two. diego@energen3.com

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