Formic acid synthesis using CO2 as raw material: Techno-economic and environmental evaluation and market potential

Abstract: Available online xxxKeywords: Carbon dioxide utilisation Process modelling Conceptual design Formic acid synthesis Hydrogen carrier Storage of renewable electricity a b s t r a c tThe future of carbon dioxide utilisation (CDU) processes, depend on (i) the future demand of synthesised products with CO 2 , (ii) the availability of captured and anthropogenic CO 2 , (iii) the overall CO 2 not emitted because of the use of the CDU process, and (iv) the economics of the plant. The current work analyses the mentioned… Show more

“…A1.2 and A1.3 represent the best champion data available in the literature regarding FA production by ER in terms of concentration. Their estimated values of CF were then compared with those CF values corresponding to the FA conventional (A CONV ) process [27] and the simulated CO 2 utilization alternative based on homogeneous catalysis of CO 2 and H 2, which was found in the literature (A JCR ) [6]. On one hand, a comparison between the CF values of the three novel ER alternatives (A1.1, A1.2, and A1.3) and the CF of A CONV was performed in order to provide an overview of the main remaining challenges to achieve at least carbon neutral cycle of FA production by ER (which is still in development) compared to the conventional route.…”

“…It is worth mentioning that no direct emissions from the ER process are considered. Also, it must be highlighted that the CF calculation was run only for the A1.1, A1.2, and A1.3 alternatives, as the CF values for A CONV and A JCR were provided by the corresponding references [6,7,27]. Ecoinvent database was used to obtain the CO 2 equivalent emissions for the requested resources such as conventional FA production, H 2 O, H 2 , O 2 , and steam [27], and the CO 2 equivalent emissions for the requested PV solar energy were based on the results of a previous study [31].…”

“…On one hand, it has been already demonstrated that in the alternative of homogeneous catalysts, hydrogen synthesis is the weak spot [6]. It should be further studied and optimised, as it would be one of the main contributors to the high environmental costs through electricity consumption (indirect emissions).…”

“…Some of the main available processes to convert CO 2 into FA are homogeneous catalysis [6][7][8], heterogeneous catalysis [9][10][11][12], photocatalytic reduction [13], and electrochemical reduction (ER) [14,15], which share a substantial input of energy per unit of reduced CO 2 [6]. These CO 2 utilization technologies for production of FA are currently found at different stages in terms of maturity.…”

Formic Acid Manufacture: Carbon Dioxide Utilization Alternatives

“…A1.2 and A1.3 represent the best champion data available in the literature regarding FA production by ER in terms of concentration. Their estimated values of CF were then compared with those CF values corresponding to the FA conventional (A CONV ) process [27] and the simulated CO 2 utilization alternative based on homogeneous catalysis of CO 2 and H 2, which was found in the literature (A JCR ) [6]. On one hand, a comparison between the CF values of the three novel ER alternatives (A1.1, A1.2, and A1.3) and the CF of A CONV was performed in order to provide an overview of the main remaining challenges to achieve at least carbon neutral cycle of FA production by ER (which is still in development) compared to the conventional route.…”

“…It is worth mentioning that no direct emissions from the ER process are considered. Also, it must be highlighted that the CF calculation was run only for the A1.1, A1.2, and A1.3 alternatives, as the CF values for A CONV and A JCR were provided by the corresponding references [6,7,27]. Ecoinvent database was used to obtain the CO 2 equivalent emissions for the requested resources such as conventional FA production, H 2 O, H 2 , O 2 , and steam [27], and the CO 2 equivalent emissions for the requested PV solar energy were based on the results of a previous study [31].…”

“…On one hand, it has been already demonstrated that in the alternative of homogeneous catalysts, hydrogen synthesis is the weak spot [6]. It should be further studied and optimised, as it would be one of the main contributors to the high environmental costs through electricity consumption (indirect emissions).…”

“…Some of the main available processes to convert CO 2 into FA are homogeneous catalysis [6][7][8], heterogeneous catalysis [9][10][11][12], photocatalytic reduction [13], and electrochemical reduction (ER) [14,15], which share a substantial input of energy per unit of reduced CO 2 [6]. These CO 2 utilization technologies for production of FA are currently found at different stages in terms of maturity.…”

Formic Acid Manufacture: Carbon Dioxide Utilization Alternatives

“…[4] However, the use of solvent allows the reaction to become exergonic, for example with ΔG°2 98K = À 4 kJ mol À 1 in the aqueous phase. [7] An obvious path towards commercialization is to decrease the operating cost by using heterogeneous catalysts and their recycling, or ideally to operate the reaction under continuous flow through a reactor where a catalyst is packed inside. Transition metal complexes containing Ru, Ir, Rh, Pd, Ni, Fe, Ti, or Mo (Ru and Ir in particular), [5] are known for moderate to excellent catalytic activities.…”

Continuous Hydrogenation of Carbon Dioxide to Formic Acid and Methyl Formate by a Molecular Iridium Complex Stably Heterogenized on a Covalent Triazine Framework

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