The electrochemical conversion of excess CO2 into valuable chemicals, such as carbon monoxide (CO) and formic acid (HCOOH) offers the possibility of combating climate change, while simultaneously providing sustainable raw materials for the chemical industry. The system design choice has large implications for the economic competitiveness of such processes. The impact of low-temperature electrolyser design on the economic potential of CO and HCOOH production was investigated alongside an environmental assessment of the required chemical plants. Six different cell architectures were analysed in a base and an optimistic case scenario with a target production of 75 and 100 tProduct/day, respectively, and a projected plant lifetime of 25 years. ...
Abstract Recently, research on the electrocatalytic CO2 reduction reaction (eCO2RR) has attracted co...
To date, the decarbonization of the world economy and storage and production of energy from alternat...
Carbon dioxide (CO2) utilization alternatives for manufacturing formic acid (FA) such as electrochem...
Carbon capture and utilization (CCU) is an emerging technology for reducing the CO2 concentration in...
This paper focuses on the study of the environmental and economic feasibility of the formic acid (FA...
The direct electrochemical conversion of captured CO2 technology has received global attention as an...
Summary: The electrochemical reduction of CO2 has emerged as a promising alternative to traditional ...
Electrocatalytic transformation of carbon dioxide (CO2) and water into chemical feedstocks offers th...
The emergence of global warming phenomena that has adversely affected the world today has been large...
The development of sustainable energy technologies is critically needed to reduce greenhouse gas emi...
Due to rising concerns about climate change, a lot of research is currently underway with respect to...
Electrochemical CO2 reduction is a potential approach to manufacture carbon-neutral fuels and chemic...
Direct electrochemical reduction of CO2 to C2 products such as ethylene is more efficient in alkalin...
The future of carbon dioxide utilisation (CDU) processes, depend on (i) the future demand of synthes...
The atmospheric concentration of anthropogenic greenhouse gases (GHGs) has increased substantially i...
Abstract Recently, research on the electrocatalytic CO2 reduction reaction (eCO2RR) has attracted co...
To date, the decarbonization of the world economy and storage and production of energy from alternat...
Carbon dioxide (CO2) utilization alternatives for manufacturing formic acid (FA) such as electrochem...
Carbon capture and utilization (CCU) is an emerging technology for reducing the CO2 concentration in...
This paper focuses on the study of the environmental and economic feasibility of the formic acid (FA...
The direct electrochemical conversion of captured CO2 technology has received global attention as an...
Summary: The electrochemical reduction of CO2 has emerged as a promising alternative to traditional ...
Electrocatalytic transformation of carbon dioxide (CO2) and water into chemical feedstocks offers th...
The emergence of global warming phenomena that has adversely affected the world today has been large...
The development of sustainable energy technologies is critically needed to reduce greenhouse gas emi...
Due to rising concerns about climate change, a lot of research is currently underway with respect to...
Electrochemical CO2 reduction is a potential approach to manufacture carbon-neutral fuels and chemic...
Direct electrochemical reduction of CO2 to C2 products such as ethylene is more efficient in alkalin...
The future of carbon dioxide utilisation (CDU) processes, depend on (i) the future demand of synthes...
The atmospheric concentration of anthropogenic greenhouse gases (GHGs) has increased substantially i...
Abstract Recently, research on the electrocatalytic CO2 reduction reaction (eCO2RR) has attracted co...
To date, the decarbonization of the world economy and storage and production of energy from alternat...
Carbon dioxide (CO2) utilization alternatives for manufacturing formic acid (FA) such as electrochem...