18599601. USE OF METHANE PYROLYSIS TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM simplified abstract (Chevron Phillips Chemical Company LP)
Contents
USE OF METHANE PYROLYSIS TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM
Organization Name
Chevron Phillips Chemical Company LP
Inventor(s)
James Hillier of Kingwood TX (US)
Michael S. Webster-gardiner of Humble TX (US)
USE OF METHANE PYROLYSIS TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18599601 titled 'USE OF METHANE PYROLYSIS TO DECARBONIZE A HYDROCARBON CRACKING SYSTEM
The abstract describes a process and system that utilizes methane pyrolysis for carbon capture from a petrochemical stream containing hydrogen and methane. The petrochemical stream can be the tail gas of a hydrocarbon cracking system or any other stream with hydrogen and methane. The process involves separating the stream into hydrogen and methane product streams, with the methane stream sent to a methane pyrolysis unit to convert methane to solid carbon and hydrogen.
- The innovation involves utilizing methane pyrolysis for carbon capture from petrochemical streams.
- The process separates the petrochemical stream into hydrogen and methane product streams before converting methane to solid carbon and hydrogen.
- This technology helps capture carbon emissions from petrochemical processes, contributing to environmental sustainability.
- By converting methane to solid carbon, the process helps reduce greenhouse gas emissions and mitigate climate change.
- The system can be integrated into existing petrochemical plants to enhance carbon capture and utilization efforts.
Potential Applications: - Carbon capture and utilization in petrochemical industries - Mitigating greenhouse gas emissions from hydrocarbon cracking processes - Enhancing environmental sustainability in the petrochemical sector
Problems Solved: - Capturing carbon emissions from petrochemical streams - Reducing greenhouse gas emissions from methane in petrochemical processes
Benefits: - Environmental sustainability through carbon capture and utilization - Reduction of greenhouse gas emissions and contribution to climate change mitigation - Integration into existing petrochemical plants for enhanced carbon capture efforts
Commercial Applications: Title: Methane Pyrolysis for Carbon Capture in Petrochemical Industries This technology can be commercially used in petrochemical plants to capture and utilize carbon emissions, improving environmental sustainability and meeting regulatory requirements. The market implications include increased demand for carbon capture technologies in the petrochemical sector.
Questions about Methane Pyrolysis for Carbon Capture: 1. How does methane pyrolysis contribute to carbon capture in petrochemical processes?
- Methane pyrolysis converts methane into solid carbon, capturing carbon emissions from petrochemical streams.
2. What are the potential environmental benefits of utilizing methane pyrolysis for carbon capture in petrochemical industries?
- The process helps reduce greenhouse gas emissions, mitigate climate change, and enhance environmental sustainability.
Original Abstract Submitted
Processes and systems that utilize methane pyrolysis 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 a methane pyrolysis unit. The methane pyrolysis unit converts methane to solid carbon and hydrogen.