2018
DOI: 10.1002/ceat.201600052
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Analysis of CO2 Emission and Economic Feasibility for a Heat‐Integrated Air Separation System

Abstract: Cryogenic air separation is a high‐energy consumption process and contributes significantly to greenhouse gas emissions. Reduction potentials of the CO2 emissions for both the full‐tower heat‐integrated air separation columns (F‐HIASC) and the top‐tower heat‐integrated air separation columns (T‐HIASC) are investigated. The optimization models of the minimum CO2 emissions are further proposed. The unit CO2 emissions of F‐HIASC and T‐HIASC can be decreased significantly compared to the conventional air separatio… Show more

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Cited by 11 publications
(9 citation statements)
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“…The feed in the form of a vapor–liquid mixture of nitrogen, oxygen, and argon is introduced at the bottom of the HPC. Theoretically, enough cold energy can be provided by energy recovery of the outgoing flows and air expansion if the whole system is adiabatic, and no extra refrigeration is required for the MHX. , Therefore, the process can be controlled realizing any feed thermal condition by adjusting the flow rate ratio of the feed air liquefied in the MHX to all feed air flows.…”
Section: Modelingmentioning
confidence: 99%
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“…The feed in the form of a vapor–liquid mixture of nitrogen, oxygen, and argon is introduced at the bottom of the HPC. Theoretically, enough cold energy can be provided by energy recovery of the outgoing flows and air expansion if the whole system is adiabatic, and no extra refrigeration is required for the MHX. , Therefore, the process can be controlled realizing any feed thermal condition by adjusting the flow rate ratio of the feed air liquefied in the MHX to all feed air flows.…”
Section: Modelingmentioning
confidence: 99%
“…Chang et al , performed preliminary optimization designs on the withdrawal stage location and the corresponding flow rate. Subsequently, Cong et al optimized the heat-transfer capacity based on the analysis of CO 2 emission. Van der Ham et al studied the number of heat-integrated stages of the HIASC based on exergy analysis and entropy production.…”
Section: Introductionmentioning
confidence: 99%
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“…Vertical radial-flow adsorbers are widely used in large-scale air separation systems to reduce the volume concentration of impurities in the air: H 2 O less than 3 mL m -3 , CO 2 less than 1 mL m -3 , hydrocarbons at a level of 10 -3 mL m -3 [1][2][3]. The energy consumption of the adsorber accounts for about 16 % of the total energy consumption of a large-scale air separation system, so performance improvement of the adsorber has great significance for large-scale air separation systems [3].…”
Section: Introductionmentioning
confidence: 99%
“…However, distillation has also resulted in severe environmental and energy‐related consequences because of its high energy consumption and low efficiency . Therefore, the improvement of distillation technology has become a widely‐discussed topic in recent years . Among the new technology, heat‐integrated distillation has attracted the attention of researchers since it has the potential for energy saving, possesses a high energy utilization rate, and can increase energy efficiency by more than 30 % than conventional distillation technology …”
Section: Introductionmentioning
confidence: 99%