Abstract
The adsorption of organic compounds onto an activated carbon cloth is studied in a dynamic reactor. An experimental design is carried out to investigate the influence of operating conditions (initial concentration C0, flow velocity U0, and bed thickness Z) and adsorbate's characteristics. A slow intraparticular diffusion is shown by flattened breakthrough curves, and adsorption capacities are high and range between 50 and 250 mg g−1. The transfer zone Z0, assessed by the Adams and Bohart equation, is low (3 mm). All experimental results are modeled by a neural network to take into account the specific diffusion of cloths. Parameters related to the adsorbate-adsorbent affinity in a batch reactor are consequently introduced in the input layer of the neural network (intraparticular coefficient Kw and Freundlich parameters Kf and l/n), added to operating conditions whose influence was shown (C0, U0, and Z) and time t. The statistical quality of the neural network modeling is high (r2 = 0.956). Furthermore, th...
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