Your search keyword '"Polte, Lukas"' showing total 10 results

1. Integrated Phosgene and Steel Production: Combining Process Optimization and Life Cycle Assessment to Minimize Greenhouse Gas Emissions.

Author

Eichwald, Stefan, Polte, Lukas, Hense, Janik, Nilges, Benedikt, Jupke, Andreas, and von der Assen, Niklas

Subjects

*BASIC oxygen furnaces, *PRODUCT life cycle assessment, *GAS furnaces, *MANUFACTURING processes, *STEEL mills, *GREENHOUSE gases

Abstract

Harnessing basic oxygen furnace gas (BOFG) from steel mills as an alternative carbon source is a promising option to reduce greenhouse gas (GHG) emissions. This study explores two process concepts to purify CO from BOFG for subsequent phosgene synthesis: (i) vacuum pressure swing adsorption (VPSA) yielding pure CO, and (ii) CO2 separation via monoethanolamine (MEA) absorption producing CO‐enriched gas. By combining process optimization with life cycle assessment (LCA), process parameters are identified that minimize GHG emissions. The MEA concept can reduce emissions by up to 60 %, whereas the VPSA concept achieves a reduction of 47 %. Utilizing renewable energy enables further reductions, indicating additional environmental benefits in the future. Overall, both processes effectively produce low‐carbon CO for phosgene synthesis, with increasing environmental benefits in future energy systems. [ABSTRACT FROM AUTHOR]

Published

2024

2. Dynamic Modeling of a Liquid–Liquid Extraction Column─An Industrial Approach

Author

Brockkötter, Johannes, primary, Hammacher, Linus, additional, Becker, Karsten, additional, Polte, Lukas, additional, Jupke, Andreas, additional, and Runowski, Thomas, additional

Published

2024

3. Dynamic Modeling of a Liquid–Liquid Extraction Column-An Industrial Approach

Author

Brockko¨tter, Johannes, Hammacher, Linus, Becker, Karsten, Polte, Lukas, Jupke, Andreas, and Runowski, Thomas

Abstract

Model-based evaluation and optimization of technical extraction columns are necessary when the product specifications of a technical system (TS) are not reached. However, state-of-the-art models are parameterized and validated using standard test systems (STSs) of highest purity. In contrast to that, TSs are characterized by an incomplete list of components, impurities, and batch-depending physicochemical properties. This divergence between STSs and TSs results in a lack of trust regarding developed model-based approaches for extraction columns. In this paper, an experimental approach for parameterization of a one-dimensional rate-based model is presented. The model is parameterized for a STS leading to a weighted absolute percentage error, WAPE¯wAcetone,out, of 8.53%. The parameter set is then used for a TS leading to a WAPE¯wTC,outof 17.43%. The distribution coefficient is the most sensitive model parameter as a change in the distribution coefficient of 3% yields a relative change of WAPE¯wTC,outby 19.39%. Varying the fluid dynamics parameters Sauter diameter and hold-up by 20%, the relative change in WAPE¯wTC,outis 44.03% and only 5.48%, respectively. A recommendation for minimal instrumentation for lab-scale extraction columns and technical large-scale columns is given.

Published

2024

4. COSMO‐CAMPED – Solvent Design for an Extraction Distillation Considering Molecular, Process, Equipment, and Economic Optimization

Author

Polte, Lukas, Raßpe-Lange, Lukas, Latz, Filip, Jupke, Andreas, and Leonhard, Kai

Subjects

General Chemical Engineering, ddc:660, General Chemistry, Industrial and Manufacturing Engineering

Abstract

Chemie - Ingenieur - Technik : CIT (2022). doi:10.1002/cite.202200144, Published by Wiley-VCH Verl., Weinheim

Published

2023

5. COSMO‐CAMPED – Solvent Design for an Extraction Distillation Considering Molecular, Process, Equipment, and Economic Optimization

Author

Polte, Lukas, primary, Raßpe‐Lange, Lukas, additional, Latz, Filip, additional, Jupke, Andreas, additional, and Leonhard, Kai, additional

Published

2022

6. Integrated Process Design and Life Cycle Assessment of Carbon Monoxide Provision from Basic Oxygen Furnace Gas

Author

Hense, Janik, primary, Bachmann, Marvin, additional, Polte, Lukas, additional, von der Aßen, Niklas, additional, and Jupke, Andreas, additional

Published

2022

7. Techno-economic analysis of a biorefinery process for the flexible production of gamma-valerolactone and 1,4-pentanediol

Author

Karacasulu, Kaan, Nöhl, Julian, Jupke, Andreas, Mitsos, Alexander, Echtermeyer, Alexander Walter Wilhelm, Polte, Lukas, Kampwerth, Jan, Viell, Jörn, Jung, Celine Laura, Albrecht, Pascal, Osterthun, Ole, and Klankermeyer, Jürgen

Published

2022

8. Integrated Process Design and Life Cycle Assessment of Carbon Monoxide Provision from Basic Oxygen Furnace Gas

Author

Hense, Janik, Bachmann, Marvin, Polte, Lukas, von der Aßen, Niklas, and Jupke, Andreas

Subjects

ddc:660

Abstract

Chemie - Ingenieur - Technik : CIT (2022). doi:10.1002/cite.202200029, Published by Wiley-VCH Verl., Weinheim

Published

2022

9. Model-Based Simultaneous Solvent Screening and Column Design Based on a Holistic Consideration of Extraction and Solvent Recovery

Author

Kampwerth, Jan, primary, Roth, Daniel, additional, Polte, Lukas, additional, and Jupke, Andreas, additional

Published

2022

10. Model-Based Simultaneous Solvent Screening and Column Design Based on a Holistic Consideration of Extraction and Solvent Recovery

Author

Kampwerth, Jan, Roth, Daniel, Polte, Lukas, and Jupke, Andreas

Subjects

General Chemical Engineering, ddc:660, General Chemistry, Industrial and Manufacturing Engineering

Abstract

Industrial & engineering chemistry research 61(9), 3374-3382 (2022). doi:10.1021/acs.iecr.1c03312, Published by American Chemical Society, Columbus, Ohio

Published

2021