5/30/2023 0 Comments Formulir spt 1770 ss excelThe CO producing systems showed an on average 22% greater performance improvement in the optimistic case, compared to HCOOH. While none of the CO architectures managed to operate profitably in the base case, the modelling of both HCOOH architectures yielded a positive economic outcome. Six different cell architectures were analysed in a base and an optimistic case scenario with a target production of 75 and 100 t Product/day, respectively, and a projected plant lifetime of 25 years. 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. The system design choice has large implications for the economic competitiveness of such processes. The electrochemical conversion of excess CO 2 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.
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