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Data for the simulation of different CO2 utilization processes.

Gerardo G Esquivel-Patiño1, Fabricio Nápoles-Rivera1

  • 1Chemical Engineering Department, Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Michoacán 58060, México.

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Summary
This summary is machine-generated.

This study provides simulation data for chemical processes converting captured carbon dioxide (CO2) into valuable products like formic acid, syngas, and methanol. These simulations aid in analyzing and optimizing CO2 utilization for sustainable chemical production.

Keywords:
CO2 utilizationGlobal-warming potentialPost-combustion carbon capture

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Area of Science:

  • Chemical Engineering
  • Process Simulation
  • Carbon Capture and Utilization (CCU)

Background:

  • Chemical process simulation offers critical data for analysis, optimization, and economic evaluation.
  • Carbon dioxide (CO2) is an abundant feedstock for producing value-added chemicals and fuels.
  • Utilizing captured CO2 from power plants is key for sustainable industrial practices.

Purpose of the Study:

  • To present foundational data for simulating chemical processes that convert captured CO2.
  • To explore the production of formic acid, syngas, and methanol from CO2.
  • To establish a basis for analyzing CO2-derived chemical manufacturing.

Main Methods:

  • Data generation for chemical process simulation.
  • Focus on processes utilizing captured carbon dioxide (CO2).
  • Simulation of formic acid, syngas, and methanol production pathways.

Main Results:

  • The study provides essential data for simulating CO2 conversion processes.
  • It lays the groundwork for analyzing the feasibility of producing chemicals from captured CO2.
  • The data supports the integration of CO2 capture with chemical synthesis.

Conclusions:

  • Simulation data is crucial for advancing the analysis and optimization of CO2 utilization technologies.
  • The presented data facilitates the study of converting captured CO2 into valuable products.
  • This work supports the development of sustainable chemical production routes using CO2 as a feedstock.