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A World of Renewable Energy, Anywhere, On Demand

THE STANDARD CARBON TECHNOLOGY

As a decarbonization solution, CO2 conversion to carbon-neutral pipeline-grade natural gas (e- RNG) is a lucrative alternative to permanent sequestration. Seamlessly bridging renewable and natural gas energy networks makes the CARBON BRIDGE a robust solution for a renewable future and a smart investment opportunity.

As a seasonal energy storage technology, market price volatility is leveraged to produce an energy storage chemical - natural gas - connecting renewables to capacity markets. It is also a powerful grid stabilizer that accelerates the renewable transition.

The CARBON BRIDGE is a profitable clean energy solution that simultaneously generates two revenue streams.

CARBON BRIDGE KEY PERFORMANCE INDICATORS

Annual clean hydrogen production capacity per 40ft module.

284,000 kg

Continuous CO2 point-source capture from exhaust emissions.

90%

Annual clean e-RNG production capacity per 40ft module.

27,800 MMBtu

Annual CO2 processing capacity of the 40ft modular design.

1420 Metric Tonnes

Every aspect of the process design emphasizes integration and efficiency. Dedicated carbon capture, electrolysis, and reactor elements are integrated within a standard modular unit. Heat and water transfer is utilized throughout the system to minimize waste and optimize thermal and economic efficiency.

Carbon capture from exhaust emissions using a chemical solvent. The CO2 is liquified and consumed as a carbon feedstock in Phase III. Whether the CO2 is immediately used, or stored externally for later use, depends on use-case priorities and availability of excess electricity.

CARBON CAPTURE : Phase I

Alkaline electrolysis separates water into its basic elements; Hydrogen (H2) and Oxygen (O2). H2 is instantly fed into the Phase III e-RNG reactor which evades technical and safety challenges. A patent-pending automated algorithm determines the operational timing of electrolysis based on the arbitrage opportunity. Water is sourced from exhaust vapor, showcasing cyclic and efficient use of resources.

ELECTROLYSIS : Phase II

e-RNG synthesis occurs as H2 from Phase II is instantly combined with the pure CO2 from Phase I in a thermal (200° C) catalytic reactor. The e-RNG produced seamlessly integrates into the conventional natural gas infrastructure, energy markets, and end-use cases.

e-RNG Reactor: Phase III

PATENT INFORMATION

Core process, controls and modularization is patent protected as well as heat-transfer and configuration which increase efficiency and scalability. Electrolyzer hardware and software is patent pending. All current and future patents are owned by Standard Carbon Technology LLC.

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