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1.5 Develop heat transfer, mass transfer, and fluid flow models for the adsorption, desorption, cooling, and purge stages of the proposed cycle and identify critical issues in the implementation of the process. Couple the individual models sequentially to attain cyclic steady state operation of the process and predict process performance (e.g., product purity, yield and energy efficiency). Investigate heat and mass recovery techniques for improvements in process performance. Design and construct a test facility and conduct heat and mass transfer experiments on the adsorbent microchannels for a range of pressure drops and microchannel lengths. Develop lab-scale models for heat and mass transfer tests, and use experimental results to validate the models. Dissertation outline This dissertation is organized as follows: Chapter 2 describes the concept development for the natural gas purification process through an understanding of the advantages and limitations of conventional gas separation systems. Once the process foundation is laid, computational models for each of the stages for the purification process are developed, followed by a parametric study to select optimum microchannel dimensions and a feasible adsorbent-HTF pair. 9PDF Image | TEMPERATURE SWING ADSORPTION PROCESSES FOR GAS SEPARATION
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