17821046. CYCLOPROPENIMINES FOR MINERALIZATION OF CARBON DIOXIDE simplified abstract (INTERNATIONAL BUSINESS MACHINES CORPORATION)
CYCLOPROPENIMINES FOR MINERALIZATION OF CARBON DIOXIDE
Organization Name
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventor(s)
Luis M. Campos of New York NY (US)
Nathaniel H. Park of San Jose CA (US)
James L. Hedrick of Pleasanton CA (US)
CYCLOPROPENIMINES FOR MINERALIZATION OF CARBON DIOXIDE - A simplified explanation of the abstract
This abstract first appeared for US patent application 17821046 titled 'CYCLOPROPENIMINES FOR MINERALIZATION OF CARBON DIOXIDE
Simplified Explanation
The patent application discloses a process, apparatus, and cyclopropenimine (CPI) material for generating metal carbonates by reacting carbon dioxide (CO) with CPI and forming a reaction mixture comprising water, metal cations, and a product of the reacting.
- Metal carbonates are generated by reacting carbon dioxide with CPI.
- The process involves forming a reaction mixture with water, metal cations, and the product of the reaction.
- The apparatus facilitates the generation of metal carbonates using the disclosed process and materials.
- CPI plays a crucial role in the reaction to produce metal carbonates efficiently.
Potential Applications
The technology can be used in:
- Carbon capture and storage processes
- Manufacturing of metal carbonates for various industrial applications
- Environmental remediation projects
Problems Solved
- Efficient generation of metal carbonates
- Reduction of carbon dioxide emissions
- Simplification of the carbonate production process
Benefits
- Environmentally friendly method for producing metal carbonates
- Cost-effective process for carbon capture and storage
- Versatile applications in different industries
Original Abstract Submitted
A process, apparatus, and cyclopropenimine (CPI) material for generating metal carbonates are disclosed. Generating the metal carbonates comprises reacting carbon dioxide (CO) with CPI. Generating the metal carbonates also comprises forming a reaction mixture comprising water, metal cations, and a product of the reacting.