Results are presented of the total reflux distillation experiments carried out with the newest generation of J. Montz corrugated sheet structured packings, including metal sheet packings (B1-250MN, B1-350MN, B1-500MN), expanded metal packings (BS-500MN), and wire gauze packings (A3-500M), using a 0.59 m i.d. column and chlorobenzene/ethylbenzene as a test system. It appears that by combining appropriately the dimensions and design of corrugations and the corrugation inclination angle, either efficiency or capacity, or occasionally even both, can be enhanced significantly, depending on the type of the packing. This allows leaner columns in new designs and more capacity and other benefits in retrofit situations. The Delft model, with appropriate enhancement of the turbulent vapor flow mass transfer coefficient and the flow direction change related pressure drop, proved to be capable of approaching closely measured efficiency and pressure drop both qualitatively and quantitatively. The exception in this respect is the pressure drop of B1-500MN, with a significant underprediction that is more pronounced at 1 bar than at 0.1 bar, while the trend as well as the predicted points of onset of loading are close to observed ones.
A Microstructured, Flexible and Modular Device for Desorption: The High Efficiency ContactorThe proof of concept of a micro-sieve contactor was demonstrated in a lab scale module and the separation performance validated with stripping experiments. The principle was then scaled up by increasing the size of the sieves and by stacking microsieves in one module to increase the capacity for applications beyond lab scale. The potential and proof of concept of numbering-up by stacking several sieves and also connecting modules in series to increase the separation efficiency was experimentally determined and showed a flexible set-up with respect to capacity and efficiency.
Evaluation of the Benefit of Cold Flow Experiments for the Characterization of Column InternalsCold flow experiments with air and water as model fluids can make an important contribution to the characterization of column internals. They can be performed with comparatively low effort, however, on the other hand serve as an essential base for fluid dynamic model approaches, which in turn provide a bridge to technically relevant systems and operating conditions. In combination with other valuation methods, such as test mixture analyses or mathematical models, they can make a very important contribution to the safe and pinpoint design of column internals. Possibilities, but also limits of cold flow experiments are shown and related to tests with organic systems.
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