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s = void fraction in the adsorbent bed {-} VB = t o t a l v o l u m e o f t h e a d s o r b e n t b e d { m 3} The number of moles of each species in the gas phase in an adsorbent bed is found using the ideal gas law with the partial pressure of the gas and the void volume of the bed. Where: yPsVB RT N B,gas (2.32) (2.33) N A,gas NA,g as = number of moles of species A in the gas phase in the bed {mol} NB,g as = number of moles of species B in the gas phase in the bed {mol} The total number of moles of species A and species B in the adsorbent bed can be found by adding Equations (2.30) and (2.32), and (2.31) and (2.33), respectively: Where: s + {l-s)k/ yPeVB RT £+(l-£ )kB RT NA = total number of moles of species A in the bed {mol} NB = total number of moles of species B in the bed {mol} (2.34) (2.35) RT 23PDF Image | Energy Efficiency of Gas Separation Pressure Swing Adsorption
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