The effect of airflow pattern on filter breakthrough in physical adsorption

The Wheeler-Jonas (WJ) model for prediction of the protection capacity of organic vapor filters under a fixed airflow was extended to breathing-simulation, pulsating flow. Breakthrough curves of dimethyl-methyl phosphonate (DMMP) and decane were measured under fixed flow and sinusoidal flow. A linear dependence of ln(C_X/C₀) on the breakthrough time (t_B) was observed in all the experiments, indicating that the concepts of critical bed weight (W_C) and dynamic adsorption capacity (W_E) as defined by the WJ model are applicable to pulsating flow as well. W_E was found to be almost unchanged by the flow pattern, whereas W_C was considerably larger (by 7-44%) at pulsating flow compared to fixed flow with the same average rate. Thus, shifting from fixed flow to pulsating flow may shorten t_B significantly. The effect of the flow type on t_B increases with the ratio of the critical weight to the total bed weight. For a high protection level (C₀/C_X=60?000), the protection capacity of personal NBC canisters was reduced by up to 15% upon shifting from fixed to pulsating flow.