You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
Copy file name to clipboardExpand all lines: source/publications.rst
+42-40Lines changed: 42 additions & 40 deletions
Display the source diff
Display the rich diff
Original file line number
Diff line number
Diff line change
@@ -4,41 +4,6 @@ Publications
4
4
Submitted Articles / Preprints
5
5
------------------------------
6
6
7
-
#. | **Optimization of 3D-Printed Structured Packings – Current State and Future Developments**
8
-
|*with Dennis Stucke, Christian Leithäuser, and Thomas Grützner*
9
-
|accepted for publication in Chemie Ingenieur Technik, 2025
10
-
||preprint_2|
11
-
12
-
.. dropdown:: Additional resources
13
-
:icon: three-bars
14
-
15
-
.. tab-set::
16
-
17
-
.. tab-item:: Abstract
18
-
19
-
This article presents an overview about the state of the art in the development of structured packings for distillation applications. The focus is on highlighting different approaches including heuristic development cycles, the development of new packing structures, 3D-printing as tool for manufacturing, and computational-fluid-dynamics to determine the packings’ performance through use of simulations. Special attention is given to the recently upcoming application of shape optimization algorithms to improve structured packings. It is evaluated how this approach fits into the conventional development process, what the limitation of current shape optimization approaches are, and how they can impact the performance of structured packings. Finally, an opinion about the next steps in the development of shape optimization algorithms for packing development is given.
20
-
21
-
.. tab-item:: BibTeX citation
22
-
23
-
.. code-block:: bibtex
24
-
25
-
@Article{Stucke2025Optimization,
26
-
author = {Dennis Stucke and Sebastian Blauth and Christian Leith{\"a}user and Thomas Grützner},
27
-
title = {Optimization of 3D-Printed Structured Packings – Current State and Future Developments},
28
-
year = {2025},
29
-
archiveprefix = {ChemRxiv},
30
-
doi = {10.26434/chemrxiv-2025-54lbn},
31
-
}
32
-
33
-
.. tab-item:: Plain text citation
34
-
35
-
.. code-block:: text
36
-
37
-
Optimization of 3D-Printed Structured Packings – Current State and Future Developments
38
-
Dennis Stucke, Sebastian Blauth, Christian Leithäuser, and Thomas Grützner
39
-
Preprint on ChemRxiv, 2025
40
-
https://doi.org/10.26434/chemrxiv-2025-54lbn
41
-
42
7
43
8
#. | **Computing Multiple Local Minimizers for the Topology Optimization of Bipolar Plates in Electrolysis Cells**
44
9
|*with Leon Baeck, Christian Leithäuser, René Pinnau, and Kevin Sturm*
@@ -77,11 +42,6 @@ Submitted Articles / Preprints
77
42
Preprint on arXiv, 2024
78
43
https://arxiv.org/abs/2401.09230
79
44
80
-
81
-
.. Optimization of 3D-Printed Structured Packings – Current State and Future Developments
@@ -90,6 +50,42 @@ Articles in Peer-Reviewed Journals
90
50
----------------------------------
91
51
92
52
53
+
#. | **Optimization of 3D-Printed Structured Packings – Current State and Future Developments**
54
+
|*with Dennis Stucke, Christian Leithäuser, and Thomas Grützner*
55
+
|accepted for publication in Chemie Ingenieur Technik, 2025
56
+
||doi_19| |arxiv_19|
57
+
58
+
.. dropdown:: Additional resources
59
+
:icon: three-bars
60
+
61
+
.. tab-set::
62
+
63
+
.. tab-item:: Abstract
64
+
65
+
This article presents an overview about the state of the art in the development of structured packings for distillation applications. The focus is on highlighting different approaches including heuristic development cycles, the development of new packing structures, 3D-printing as tool for manufacturing, and computational-fluid-dynamics to determine the packings’ performance through use of simulations. Special attention is given to the recently upcoming application of shape optimization algorithms to improve structured packings. It is evaluated how this approach fits into the conventional development process, what the limitation of current shape optimization approaches are, and how they can impact the performance of structured packings. Finally, an opinion about the next steps in the development of shape optimization algorithms for packing development is given.
66
+
67
+
.. tab-item:: BibTeX citation
68
+
69
+
.. code-block:: bibtex
70
+
71
+
@Article{Stucke2025Optimization,
72
+
author = {Dennis Stucke and Sebastian Blauth and Christian Leith{\"a}user and Thomas Grützner},
73
+
title = {Optimization of 3D-Printed Structured Packings – Current State and Future Developments},
74
+
year = {2025},
75
+
archiveprefix = {ChemRxiv},
76
+
doi = {10.26434/chemrxiv-2025-54lbn},
77
+
}
78
+
79
+
.. tab-item:: Plain text citation
80
+
81
+
.. code-block:: text
82
+
83
+
Optimization of 3D-Printed Structured Packings – Current State and Future Developments
84
+
Dennis Stucke, Sebastian Blauth, Christian Leithäuser, and Thomas Grützner
85
+
Preprint on ChemRxiv, 2025
86
+
https://doi.org/10.26434/chemrxiv-2025-54lbn
87
+
88
+
93
89
#. | **Enforcing Mesh Quality Constraints in Shape Optimization with a Gradient Projection Method**
94
90
|*with Christian Leithäuser*
95
91
|Computer Methods in Applied Mechanics and Engineering 448, 2026
@@ -840,6 +836,12 @@ Articles in Peer-Reviewed Journals
840
836
https://doi.org/10.1186/s13362-020-00082-4
841
837
842
838
839
+
.. Optimization of 3D-Printed Structured Packings – Current State and Future Developments
0 commit comments