In this project the goal is to find the power of a CO2 compressor used in a process of storing CO2 underground. Although the compressor is not 100% efficient and does not exist under ideal conditions, the power can first be calculated as if it were under ideal conditions by calculating its enthalpy and entropy. Residual terms are then added to both the enthalpy and the entropy to account for the behavior of CO2 under non-ideal conditions. Since the sum of the change in entropy under ideal conditions and the residual terms for entropy is zero, a system of equations with the Redlich-Kwong equation of state can then be set up and solved for the unknown temperature and volume at the desired pressure. Once these are determined, they can be used to find the total change in enthalpy when the compressor is not under ideal conditions. Then, since the molar flow rate of CO2 is known, the power of the compressor, if it were 100% efficient, can be calculated and divided by its actual efficiency. The power needed to run the CO2 compressor was found to be 916.92 watts.
"Calculating Power of a CO2 Compressor,"
Undergraduate Journal of Mathematical Modeling: One + Two:
1, Article 9.
DOI: http://dx.doi.org/10.5038/2326-36220.127.116.11 Available at: https://digitalcommons.usf.edu/ujmm/vol2/iss1/9
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Mohamed Elhamdadi, Mathematics and Statistics
Scott Campbell, Chemical & Biomedical Engineering
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