Aktuelle Veröffentlichungen

Antoulas, A. C.; Zhu, B.; Zhang, Q.; York, B.; O'Malley, B. W.; Dacso, C. C.: A novel mathematical method for disclosing oscillations in gene transcription: A comparative study. PLoS ONE 13 (9), e0198503 (2018)
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Sascha Young Kupke, Dietmar Riedel, Timo Frensing, Pawel Zmora, Udo Reichl
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Münzberg, S.; Vu, T. G.; Seidel-Morgenstern, A.: Generalizing Countercurrent Processes: Distillation and Beyond. Chemie-Ingenieur-Technik 90 (11), S. 1769 - 1781 (2018)
Benner, P.; Qiu, Y.; Stoll, M.: Low-Rank Eigenvector Compression of Posterior Covariance Matrices for Linear Gaussian Inverse Problems. SIAM/ASA Journal on Uncertainty Quantification 6 (2), S. 965 - 989 (2018)


Mit hochrangigen Wissenschaftlerinnen und Wissenschaftlern aus renommierten Forschungseinrichtungen deutschland- und weltweit.

MPI Kolloquiumsreihe 2019

Mit hochrangigen Wissenschaftlerinnen und Wissenschaftlern aus renommierten Forschungseinrichtungen deutschland- und weltweit. [mehr]

Konferenzen 2019

18. bis 20. März 2019

YCOPE 2019

18. bis 20. März 2019 [mehr]

Willkommen am Max-Planck-Institut Magdeburg



622 1429791782

Post-Combustion CO2 Capture by Adsorption Processes

Post-combustion power plants are the major sources of CO2 emissions. Given that fossil fuels will be the major sources of energy in the next few years, capture of CO2 from these sources for sequestration could be a possible short term solution for abating greenhouse gas emissions. Pressure/Vacuum swing adsorption (P/VSA) processes using solid sorbents are considered as viable options. The presentation will have two parts. In the first, we report the systematic procedure for the synthesis of a P/VSA processes for dry CO2/N2 separation using zeolite 13X as adsorbent. Using equilibrium and kinetic parameters obtained in the laboratory, we screen several processes for adsorptive post-combustion capture. Based on multi-objective we identify the process that provides the best productivity-energy consumption trade-off. This process is then scaled for pilot-plant demonstration. These represent the first reports in the open-literature of an adsorptive process that achieves the purity and recovery targets set by the US Department of Energy in a single-stage process. The second part of the work deals with the issue of CO2 capture from wet flue gas. We report our recent results of developing a two-sorbent process for this purpose. We show that it is possible to capture CO2 from wet flue gas and discuss the additional energy that is required to achieve this. [mehr]

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