ELPHICAPTURE™

INNOVATIVE PHYSICO-CHEMICAL TECHNOLOGY FOR

CAPTURE AND UTILIZATION OF CARBON DIOXIDE (CCU)

Carbon 2 Energy Global Technology Group, LLC is pleased to introduce ElphiCapture™, a pioneering carbon capture and utilization (CCU) technology engineered to address the unique challenges posed by fossil fuel combustion plants’ hot flue gasses. Developed by Professor Zheko Ganev and “Elphi Tech” OOD in Stara Zagora, Bulgaria, ElfiCapture™ represents a quantum leap in the quest for sustainable energy solutions, offering a cost-effective and environmental conscious approach to carbon dioxide (CO₂) mitigation.

The key to ElphiCapture™’s efficacy is its innovative CO₂ conversion technology, which meticulously disassembles CO₂ molecules, liberating carbon and oxygen atoms for subsequent utilization. By strategically removing one oxygen atom, the liberated carbon is then transformed into carbon monoxide (CO), laying the foundation for downstream processes.

In tandem with CO production, ElphiCapture™ seamlessly integrates a methanization stage, wherein CO is combined with hydrogen to produce a synthetic natural gas (SNG). This synergistic process not only mitigates CO₂ emissions but also generates a marketable energy resource, thereby offsetting operational costs and enhancing overall economic viability. Several options for marketable products are available in both gas and liquid form.

With ElphiCapture™, Carbon 2 Energy Global Technology Group, LLC pioneers a transformative approach to carbon capture and utilization, demonstrating a steadfast commitment to sustainability and innovation. By harnessing the latent potential of carbon dioxide emissions, ElphiCapture™ heralds a new era of environmental stewardship and energy efficiency in fossil fuels combustion plants worldwide.

At its core, ElphiCapture™ employs a highly specialized process tailored to the specific condition encountered in thermal power plants. By harnessing advanced chemical engineering principles, ElphiCapture™ effectively captures CO₂ from hot flue gases, transforming it into valuable commercial products while minimizing environmental impact.

Crucially, ElphiCapture™ is engineered to ensure economic feasibility, with implementation cost carefully optimized to undercut conventional carbon dioxide allowances procurement expenses. Moreover, revenue generated from the sale of SNG or other selected end-product further bolsters the technology’s commercial appeal, offering a compelling incentive for widespread adoption across the energy, cement, pulp and paper sectors to name a few.

DEVELOPING CCU SOLUTIONS

Introducing a paradigm-shifting advancement in carbon capture and utilization technology: our patented, world-leading solution sets a new standard in the global pursuit of sustainable energy solutions. Developed to address the complex challenges of fossil fuels combustion emissions, our innovative system represents a breakthrough in environmental stewardship and resource optimization.

Following purification, the refined flue gases are directed through our cutting-edge cavitation torsion installation, a revolutionary system designed for unparalleled carbon dioxide capture efficiency. This innovative approach ensures the effective extraction of CO₂ from the gas stream, setting the stage for downstream processing.

Our technology represents not only a groundbreaking solution for carbon dioxide mitigation but also a pathway to energy independence and resource optimization. By seamlessly integrating innovative processes and advanced engineering principles, we pave the way for a cleaner, greener future, where environmental responsibility and economic prosperity go hand in hand.

Join us in redefining the possibilities of carbon capture and utilization with our unparalleled technology.

At the heart of our technology lies a comprehensive process that begins with the treatment of raw, multi-component flue gases, boasting a significant CO₂ content of up to 15%. These gases, originating from fossil fuels combustion, undergo meticulous purification and sulfur gas conversion, where compounds such as sulfur dioxide (SO₂), carbon disulfide (CS₂), and hydrogen sulfide (H₂S) are transformed into element sulfur (S₂), mitigating harmful emissions, and enhancing environmental compliance.

In our integrated multi-component physico-chemical plant, captured CO₂ undergoes a transformative conversion process, culminating in the production of carbon monoxide (CO). This critical intermediate serves as the cornerstone for subsequent synthesis of i.e. synthetic natural gas (SNG) within our state-of-the-art facility.

Within the SNG synthesis plant, energy-stimulated physico-chemical reactions drive the methanization of CO with hydrogen, facilitating the conversion of CO into valuable SNG or alternative low carbon liquid fuels. Hydrogen, an essential component for this process, is generated through hydrolysis within a microchannel plasma reactor, ensuring a sustainable and efficient supply chain.