CO2 reuse chemically

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G1814 V1 Article

CO2 reuse chemically

Authors : Association record, Laurent DUMERGUES

Publication date: September 10, 2024 | Lire en français

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Overview

ABSTRACT

Carbon dioxide (CO2) can be used in many ways as a raw material or chemical reagent. The chemical conversion of CO2 used as a feedstock is achievable by different techniques: mineralization, organic synthesis, hydrogenation, dry reforming, electrolysis, thermolysis, etc. The products obtained have applications as energy products, chemicals, building materials, etc. Choosing an appropriate CO2 reuse technology will depend on technical and economic requirements (such as the CO2 purity needed, technological maturity, cost-effectiveness, etc.) and also environmental and social criteria.

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 INTRODUCTION

The fight against climate change represents a major challenge for contemporary society. Therefore, the control of atmospheric CO 2 emissions is a priority in policies aimed at limiting global warming. Viewing CO 2 as a valuable resource opens up new perspectives, both environmentally and economically. There are various industrial applications that capitalize on CO 2 . These include, for example, biological valorization pathways or direct utilization without transformation, which, so far, only allow for a limited volume utilization of CO 2 . Another approach to valorization, through chemical transformation, uses CO 2 as a reactant to produce a valuable or energy-rich product.

This article will outline the primary techniques used to valorize CO 2 by chemical means such as mineralization, organic synthesis, hydrogenation, dry reforming, electrolysis, photocatalysis, thermochemistry... Developments in certain valorisation techniques are closely monitored by the scientific and industrial community, notably in the case of methanation, which potentially enables the direct transformation of CO 2 from a combustion facility into “renewable” methane.

Despite the interesting potential for CO 2 utilization, different valorization pathways are not at the same stage of technological maturity. They continue to face specific challenges related to technical and technological aspects, expertise, resource supply, and economic viability, particularly when transformed CO 2 competes with fossil resources in the energy market.

Nota:

CO 2 valorization pathways directly without transformation, or after biological transformation, are covered in article [G 1 816] ”CO 2 uses – Part 1: Direct pathways and pathways with biological transformation”.

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KEYWORDS

thermochemistry   |   materials   |   electolysis   |   energy   |   Chemistry   |   methanation   |   Ex-situ mineralization   |   chemical synthesis   |   hydrogenation   |   power to gas

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