By Pistikopoulos E. N. (EDT)/ Georgiadis Michael C. (EDT)/ Kokossis Antonis C. (EDT)
The eu Symposium on laptop Aided procedure Engineering (ESCAPE) sequence provides the most recent ideas and achievements of top pros from the economic and educational groups. The get away sequence serves as a discussion board for engineers, scientists, researchers, managers and scholars to offer and speak about growth being made within the zone of machine aided technique engineering (CAPE). ecu industries huge and small are bringing recommendations into our lives, no matter if within the type of new applied sciences to handle environmental difficulties, new items to make our houses more well-off and effort effective or new treatments to enhance the health and wellbeing and health of ecu voters. additionally, the ecu must adopt learn and technological projects according to humanity's "Grand Challenges," defined within the statement of Lund, specifically, worldwide Warming, Tightening offers of strength, Water and nutrients, growing older Societies, Public future health, Pandemics and protection. therefore, the Technical topic of get away 21 may be "Process platforms techniques for Addressing Grand demanding situations in power, atmosphere, overall healthiness, Bioprocessing & Nanotechnologies."
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Kvamsdal, O. Bolland, 2004, “Integration of H2-separating membrane technology in gas turbine processes for CO2 capture”, Energy, 29, 1269-1278 5. Acknowledgements This publication has been produced with support from the BIGCCS Centre, performed under the Norwegian research program Centres for Environment-friendly Energy Research (FME). The authors acknowledge the following partners for their contributions: Aker Solutions, ConocoPhilips, Det Norske Veritas AS, Gassco AS, Hydro Aluminium AS, Shell Technology Norway AS, Statkraft Development AS, Statoil Petroleum AS, TOTAL E&P Norge AS, GDF SUEZ E&P Norge AS and the Research Council of Norway (193816/S60).
Kiss,b Andre B. de Haana a Process Systems Engineering, Department of Chemical Engineering and Chemistry, Eindhoven University of Technology, 5600 MB, The Netherlands b AkzoNobel – Research, Development & Innovation, Process Technology ECG, Velperweg 76, 6824 BM Arnhem, The Netherlands. com Abstract The state of the art equilibrium model and the rate-based models for reactive distillation (RD) are well known and have been used since a couple of decades. However, these models are not sufficient to represent a slow reaction process that is kinetically controlled.
This work starts with reviewing the modeling approach for the RD and then discusses the applicability of various models. The main focus is on the extension of the dynamic rate-based model to take into account the liquid back mixing. We also show how the axial dispersion is introduced into the RD model, without adopting the axial dispersion model. The results of the rate-based model were compared, with and without the axial dispersion. Remarkably, the extended model predicts more accurately the kinetically controlled process, as compared to the conventional rate-based model.