Gas solute movement in packed columns —A remote control experiment

Publication date: August 2013 Source:Education for Chemical Engineers, Volume 8, Issue 3 Author(s): Hugo Silva, Sandra Sá, Lúcia Brandão, J.M. Loureiro, Joaquim Gabriel, Adélio Mendes A novel teaching remote controlled experiment is described concerning the solute movement through an adsorption column. A packed-bed column filled with 5A zeolite was inserted in a thermostatic oven and connected to a TCD detector. The complete set-up can be remotely controlled and visualized alive using an internet connected camera to improve the sense of reality. The experiment purpose was to assist and motivate students regarding a topic that usually they demonstrate difficulty to assimilate, which is the prediction of concentration fronts behavior by using the solute movement theory (SMT). The set-up is versatile to study breakthrough curves and feed pulses. Two loops of 2cm3 and 5cm3 allow the injection of O2 or N2 adsorbate species that have different isotherms type and consequently concentration fronts history. Interaction between shock and diffuse waves is addressed for the narrow pulse case of 2cm3. Also, students are able to obtain the nitrogen and oxygen isotherms at different temperatures for the 5A zeolite (chromatographic method) and compare those isotherms with those obtained by the volumetric method; the latter is used as reference method.
Source: Education for Chemical Engineers - Category: Chemistry Source Type: research