18585417. USE OF A FUEL CELL TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM simplified abstract (Chevron Phillips Chemical Company LP)

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USE OF A FUEL CELL TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM

Organization Name

Chevron Phillips Chemical Company LP

Inventor(s)

James Hillier of Kingwood TX (US)

USE OF A FUEL CELL TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18585417 titled 'USE OF A FUEL CELL TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM

Abstract: Processes and systems that utilize a fuel cell for carbon capture from a petrochemical stream that contains hydrogen and methane. The petrochemical stream can be the tail gas of a hydrocarbon cracking system, or any other petrochemical stream containing hydrogen and methane. The petrochemical stream can be separated into a hydrogen product stream and a methane product stream, before sending the methane product stream to the fuel cell. The fuel cell converts methane to carbon dioxide and hydrogen to water, while generating electricity that can be used to power equipment.

  • Simplified Explanation:

A fuel cell is used to capture carbon from a petrochemical stream containing hydrogen and methane by converting methane to carbon dioxide and hydrogen to water, while generating electricity.

  • Key Features and Innovation:

- Utilizes a fuel cell for carbon capture from petrochemical streams. - Separates the petrochemical stream into hydrogen and methane product streams. - Converts methane to carbon dioxide and hydrogen to water. - Generates electricity to power equipment.

  • Potential Applications:

- Carbon capture in petrochemical industries. - Energy generation from methane conversion. - Environmental sustainability in petrochemical processes.

  • Problems Solved:

- Reducing carbon emissions from petrochemical streams. - Efficient utilization of hydrogen and methane. - Generating electricity from carbon capture processes.

  • Benefits:

- Lower carbon footprint in petrochemical industries. - Energy generation from waste streams. - Enhanced environmental sustainability.

  • Commercial Applications:

Carbon capture technology for petrochemical industries: Market Implications and Potential Commercial Uses.

  • Questions about Carbon Capture Technology:

1. How does the fuel cell convert methane to carbon dioxide and hydrogen to water? The fuel cell utilizes electrochemical reactions to convert methane and hydrogen into carbon dioxide and water, while generating electricity.

2. What are the potential environmental benefits of using a fuel cell for carbon capture in petrochemical processes? Using a fuel cell for carbon capture can help reduce carbon emissions, improve air quality, and enhance environmental sustainability in petrochemical industries.


Original Abstract Submitted

Processes and systems that utilize a fuel cell for carbon capture from a petrochemical stream that contains hydrogen and methane. The petrochemical stream can be the tail gas of a hydrocarbon cracking system, or any other petrochemical stream containing hydrogen and methane. The petrochemical stream can be separated into a hydrogen product stream and a methane product stream, before sending the methane product stream to the fuel cell. The fuel cell converts methane to carbon dioxide and hydrogen to water, while generating electricity that can be used to power equipment.