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investigation of the direct and simultaneous interaction of liquid HTFs and working fluids with the adsorbent, which is considered in depth in the present study. The present work explores several parameters for the design of the system through fluid dynamics and heat and mass transfer modeling. These include the size of the microchannels, thickness of the adsorbent layer, materials for the adsorbent and HTF, and most importantly, appropriate sequencing and timing of the stages based on these parameters. Additional considerations include routing options for the working and coupling fluids, avenues for heat and mass recovery to enhance industrial feasibility, and comparisons between the process performance map under consideration here and those of the conventional separation processes. An experimental investigation of gas separation in microchannels at the laboratory scale is also conducted to validate the process models. The combination of measurements and analyses is used to develop validated models and provide design guidance for TSA processes. 1.4 Research objectives The primary research objectives of this work are to: Develop an experimentally validated computational process model for the TSA cycle with working fluid and coupling fluid flowing in series through microchannels Compare process performance with that of other industrial natural gas purification processes To accomplish these objectives, the following tasks are undertaken: 8PDF Image | TEMPERATURE SWING ADSORPTION PROCESSES FOR GAS SEPARATION
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