Smoothed particle dynamics methods for the simulation of viscoelastic fluids

Ellero, Marco.

January 2004

Berlin, Techn. Univ., Diss., 2004. / Computerdatei im Fernzugriff.

Viskoelastische Flüssigkeit

Smoothed particle dynamics methods for the simulation of viscoelastic fluids

Ellero, Marco.

Unknown Date

Techn. University, Diss., 2004--Berlin.

Structures and stability of Newtonian and non-Newtonian fluids in Taylor-Couette system /

Smieszek, Marlene.

January 2008

Zugl.: Cottbus, Techn. University, Diss.

Structural damped sigma-evolution operators / Strukturell gedämpfte sigma-Evolutionsoperatoren

Kainane Mezadek, Mohamed

21 March 2014

The subject of the thesis is the investigation of asymptotic properties of solutions of the Cauchy problem for structurally damped sigma-evolution operators with time dependent, monotonous, dissipation term. An appropriate energy for solutions of the sigma-evolution equations is defined and some estimates for energies of higher order are proved. In the scale invariant case the optimality of these estimates is shown. Further, the influence of properties of the time dependent dissipation on L^p-L^q estimates for the energy with p and q bigger or equal to 2 and from the conjugate line is clarified. Also smoothing properties of the operators under consideration are investigated. The connection between the regularity of the data and the regularity of the solution in terms of L^2 based Gevrey spaces is considered. Finally, L^1-L^1-estimates in the special case delta = sigma/2 and decreasing dissipative coefficient. / Thema der vorliegenden Dissertation ist die Untersuchung asymptotischer Eigenschaften von Lösungen des Cauchy Problems für strukturell gedämpfte sigma-Evolutions-Operatoren mit zeitabhängigem, monotonen Dissipationskoeffizienten. Es wird eine geeignete Energie definiert und für diese Abschätzungen, auf für entsprechende Energien höherer Ordnung gezeigt. Darüber hinaus wird der Einfluss des Dissipationskoeffizienten auf L^p-L^q Abschätzungen auf und entfernt von der konjugierten Linie untersucht. Im skaleninvarianten Fall wird die Schärfe der Abschätzungen bewiesen. Weiterhin wird der Zusammenhang zwischen der Regularität der Daten und der der Lösung in Termen von L^2-basierten Gevrey-Räumen untersucht. Schließlich werden L^1-L^1-Abschätzungen für den Spezialfall delta = sigma/2 und monoton fallenden Dissipationskoeffizienten gezeigt.

Wellengleichungen

Cauchy-Problem

Strukturelle Dämpfung

Viskoelastische Modelle

Wave models

Cauchy problem

structural damping

visco-elastic model

ddc:510

ddc:515

ddc:621

Cauchy-Anfangswertproblem

Wellengleichung

Partielle Differentialgleichung

Predictive ability of viscoelastic testing using ClotPro® for short‑term outcome in patients with severe Covid‑19 ARDS with or without ECMO therapy: a retrospective study

Heubner, Lars, Greiner, Marvin, Vicent, Oliver, Beyer‑Westendorf, Jan, Tiebel, Oliver, Scholz, Ute, Güldner, Andreas, Mirus, Martin, Fries, Dietmar, Koch, Thea, Spieth, Peter Markus

16 May 2024

Background: SARS-CoV-2 infections are suspected to trigger the coagulation system through various pathways leading to a high incidence of thromboembolic complications, hypercoagulation and impaired fibrinolytic capacity were previously identified as potentially mechanisms. A reliable diagnostic tool for detecting both is still under discussion. This retrospective study is aimed to examine the prognostic relevance of early viscoelastic testing compared to conventional laboratory tests in COVID-19 patients with acute respiratory distress syndrome (ARDS). - Methods: All mechanically ventilated patients with COVID-19 related ARDS treated in our intensive care unit (ICU) between January and March 2021 were included in this study. Viscoelastic testing (VET) was performed using the ClotPro® system after admission to our ICU. Prevalence of thromboembolic events was observed by standardized screening for venous and pulmonary thromboembolism using complete compression ultrasound and thoracic computed tomography pulmonary angiography at ICU admission, respectively. We examined associations between the severity of ARDS at admission to our ICU, in-hospital mortality and the incidence of thromboembolic events comparing conventional laboratory analysis and VET. ECMO related coagulopathy was investigated in a subgroup analysis. The data were analyzed using the Mann–Whitney U test. - Results: Of 55 patients enrolled in this study, 22 patients required treatment with ECMO. Thromboembolic complications occurred in 51% of all patients. Overall hospital mortality was 55%. In patients with thromboembolic complications, signs of reduced fibrinolytic capacity could be detected in the TPA assay with prolonged lysis time, median 460 s (IQR 350–560) vs 359 s (IQR 287–521, p = 0.073). Patients with moderate to severe ARDS at admission to our ICU showed increased maximum clot firmness as a sign of hypercoagulation in the EX-test (70 vs 67 mm, p < 0.05), FIB-test (35 vs 24 mm, p < 0.05) and TPA-test (52 vs 36 mm, p < 0.05) as well as higher values of inflammatory markers (CRP, PCT and IL6). ECMO patients suffered more frequently from bleeding complications (32% vs 15%). - Conclusion: Although, the predictive value for thromboembolic complications or mortality seems limited, point-ofcare viscoelastic coagulation testing might be useful in detecting hypercoagulable states and impaired fibrinolysis in critically ill COVID-19 ARDS patients and could be helpful in identifying patients with a potentially very severe course of the disease.

info:eu-repo/classification/ddc/610

ddc:610

Laboratory Investigations on the Applicability of Triphenoxymethanes as a New Class of Viscoelastic Solutions in Chemical Enhanced Oil Recovery

Dieterichs, Christin

30 April 2018

Even in times of renewable energy revolution fossil fuels will play a major role in energy supply, transportation, and chemical industry. Therefore, increasing demand for crude oil will still have to be met in the next decades by developing new oil re-serves. To cope with this challenge, companies and researchers are constantly seeking for new methods to increase the recovery factor of oil fields. For that reason, many enhanced oil recovery (EOR) methods have been developed and applied in the field. EOR methods alter the physico-chemical conditions inside the reservoir. One possibility to achieve this is to inject an aqueous solution containing special chemicals into the oil-bearing zone. Polymers, for example, increase the viscosity of the injected water and hence improve the displacement of the oil to the production well. The injection of surfactant solutions results in reduced capillary forces, which retain the oil in the pores of the reservoir. Some surfactants form viscoelastic solutions under certain conditions. The possibil-ity to apply those solutions for enhanced oil recovery has been investigated by some authors in the last years in low salinity brines. Reservoir brines, however, often contain high salt concentrations, which have detrimental effects on the properties of many chemical solutions applied for EOR operations. The Triphenoxymethane derivatives, which were the subject of study in this thesis, form viscoelastic solutions even in highly saline brines. The aim of this thesis was to investigate the efficiency and the mode-of-action of this new class of chemical EOR molecules with respect to oil mobilization in porous media.

Tertiäre Erdölgewinnung

Chemische Enhanced Oil Recovery

Viskoelastische Lösungen

Mizellen

Kernflutversuche

Imbibitionsversuche

Enhanced Oil Recovery

Chemical Enhanced Oil Recovery

viscoelastic solutions

worm-like micelles

core flooding experiments

ddc:624

Tertiäre Erdölförderung

Viskoelastizität

Micelle

Bohrkern

Bohrkernuntersuchung

Experiment

Laboratory Investigations on the Applicability of Triphenoxymethanes as a New Class of Viscoelastic Solutions in Chemical Enhanced Oil Recovery

Dieterichs, Christin

30 January 2018

Even in times of renewable energy revolution fossil fuels will play a major role in energy supply, transportation, and chemical industry. Therefore, increasing demand for crude oil will still have to be met in the next decades by developing new oil re-serves. To cope with this challenge, companies and researchers are constantly seeking for new methods to increase the recovery factor of oil fields. For that reason, many enhanced oil recovery (EOR) methods have been developed and applied in the field. EOR methods alter the physico-chemical conditions inside the reservoir. One possibility to achieve this is to inject an aqueous solution containing special chemicals into the oil-bearing zone. Polymers, for example, increase the viscosity of the injected water and hence improve the displacement of the oil to the production well. The injection of surfactant solutions results in reduced capillary forces, which retain the oil in the pores of the reservoir. Some surfactants form viscoelastic solutions under certain conditions. The possibil-ity to apply those solutions for enhanced oil recovery has been investigated by some authors in the last years in low salinity brines. Reservoir brines, however, often contain high salt concentrations, which have detrimental effects on the properties of many chemical solutions applied for EOR operations. The Triphenoxymethane derivatives, which were the subject of study in this thesis, form viscoelastic solutions even in highly saline brines. The aim of this thesis was to investigate the efficiency and the mode-of-action of this new class of chemical EOR molecules with respect to oil mobilization in porous media.

info:eu-repo/classification/ddc/624

ddc:624

Molecular Control of Extracellular Matrix-inspired Biohybrid Hydrogels

Song, Geonho

03 April 2023

Das Verständnis natürlicher biologischen Materialien für die Entwicklung neuer biomimetischer Materialien ist von großem Interesse in der Chemie und den Materialwissenschaften. In vielen komplexen biomolekularen Materialien ist die Etablierung der Struktur-Funktionsbeziehungen von Proteinbausteine notwendig, um die Eigenschaften der daraus aufgebauten weichen, biologischen Materialien zu verstehen, wie z. B. die extrazelluläre Matrix. Inspiriert durch bekannte Faltungsmotive von ECM-Proteinen, wurden vereinfachte Modellpeptide entwickelt, um deren Funktion zu untersuchen oder diese als biomimetische Bausteine für synthetische Biomaterialien zu verwenden. Ziel dieser Arbeit war die Synthese von hybriden Hydrogelen, die aus einem synthetischen Polymer und ECM-inspirierten Modellpeptiden zusammengesetzt sind. Insbesondere Kollagen-mimetische Peptide und Coiled-Coil-formende Peptide wurden benutzt, um das biokompatible und hydrophile Polymer Polyethyleneglykol zu vernetzen. Dabei wurde von der Fähigkeit dieser Peptide zur dynamischen Selbstassemblierung Gebrauch gemacht. Unter Verwendung von Kollagen-mimetischen Peptiden mit langsamer Dissoziationskinetik wurden Hydrogele synthetisiert, die weichen, glasartigen Materialien mit einem gestauchten exponentiellen Relaxationsverhalten entsprechen und auch einen Alterungsprozess zeigen. Darüber hinaus wurde gezeigt, dass Netzwerkkonnektivität ein bis dato selten gebrauchter Designparameter ist, um die rheologischen Eigenschaften von Hydrogelen nach Wunsch zu kontrollieren. Die Kombination molekular einstellbarer Vernetzer mit einem Fluoreszenz-Reportersystem, welches deren Zustand auslesen kann, kann detaillierte Einblicke in das Reaktionsvermögen solcher Netzwerke auf mechanische Stimuli ermöglichen. Das Verständnis molekularer Prozesse erlaubt langfristig die Synthese von ECM-inspirierten Biomaterialien, deren Eigenschaften nach Wunsch einstellbar sind und die selbst ihren mikroskopischen und mesoskopischen Zustand anzeigen. / Understanding natural biological materials for the development of novel biomimetic materials has drawn enormous attention from the areas of chemistry and material science. In many complex biomolecular materials, establishing molecular structure-function relationships of proteins forms the basis for understanding the emerging properties of various biological soft materials, such as the extracellular matrix (ECM). Inspired by common association motifs of ECM proteins, simplified model peptides have been developed for functional studies and as biomimetic building blocks for synthetic biomaterials. The aim of this thesis was to utilize ECM-inspired and molecularly controlled model peptides for the synthesis of peptide-polymer hybrid hydrogels. Specifically, collagen-mimetic peptides (CMPs) and coiled coil (CC)-forming peptides were utilized to crosslink the biocompatible and hydrophilic polymer poly(ethylene glycol) (PEG), making use of the ability of these peptides to dynamically self-assemble. Employing CMPs with slow dissociation kinetics, hydrogels have been synthesized that resemble soft glassy materials with compressed exponential relaxation and aging. Furthermore, network connectivity has been shown to be an underutilized design parameter for tuning the rheological properties of hydrogels. Combining molecularly controlled crosslinks with a fluorescence reporter system that allows to read out crosslink status will ultimately allow for more detailed insights into the response of such networks to mechanical perturbation and thus aid the synthesis of ECM-inspired biomaterials with tunable and self-reporting properties.

Bioinspirierte Materialien

Viskoelastische Hydrogele

Kollagen

Coiled-coil peptide

Dynamische Vernetzer

Fluoreszenz-Reportersystem

Bioinspired materials

Viscoelastic hydrogels

Collagen

Coiled coil peptides

Dynamic crosslinks

Fluorescence self-reporter

543 Analytische Chemie

VE 9807

VK 8007

VK 8567

ddc:543

Enhancing Anticoagulation Monitoring and Therapy in Patients Undergoing Microvascular Reconstruction in Maxillofacial Surgery: A Prospective Observational Trial

Schröder, Tom A., Leonhardt, Henry, Haim, Dominik, Bräuer, Christian, Papadopoulos, Kiriaki K., Vicent, Oliver, Güldner, Andreas, Mirus, Martin, Schmidt, Jürgen, Held, Hanns C., Birkner, Thomas, Beyer-Westendorf, Jan, Lauer, Günter, Spieth, Peter M., Koch, Thea, Heubner, Lars

04 June 2024

Background: In reconstructive surgery, loss of a microvascular free flap due to perfusion disorders, especially thrombosis, is a serious complication. In recent years, viscoelastic testing (VET) has become increasingly important in point-of-care (POC) anticoagulation monitoring. This paper describes a protocol for enhanced anticoagulation monitoring during maxillofacial flap surgery. Objective: The aim of the study will be to evaluate, in a controlled setting, the predictive value of POC devices for the type of flap perfusion disorders due to thrombosis or bleeding. VET, Platelet monitoring (PM) and standard laboratory tests (SLT) are comparatively examined. Methods/Design: This study is an investigator-initiated prospective trial in 100 patients undergoing maxillofacial surgery. Patients who undergo reconstructive surgery using microvascular-free flaps will be consecutively enrolled in the study. All patients provide blood samples for VET, PM and SLT at defined time points. The primary outcome is defined as free flap loss during the hospital stay. Statistical analyses will be performed using t-tests, including the Bonferroni adjustment for multiple comparisons. Discussion: This study will help clarify whether VET can improve individualized patient care in reconstruction surgery. A better understanding of coagulation in relation to flap perfusion disorders may allow real-time adaption of antithrombotic strategies and potentially prevent flap complications.

info:eu-repo/classification/ddc/610

ddc:610

Structural damped sigma-evolution operators

Kainane Mezadek, Mohamed

05 March 2014

The subject of the thesis is the investigation of asymptotic properties of solutions of the Cauchy problem for structurally damped sigma-evolution operators with time dependent, monotonous, dissipation term. An appropriate energy for solutions of the sigma-evolution equations is defined and some estimates for energies of higher order are proved. In the scale invariant case the optimality of these estimates is shown. Further, the influence of properties of the time dependent dissipation on L^p-L^q estimates for the energy with p and q bigger or equal to 2 and from the conjugate line is clarified. Also smoothing properties of the operators under consideration are investigated. The connection between the regularity of the data and the regularity of the solution in terms of L^2 based Gevrey spaces is considered. Finally, L^1-L^1-estimates in the special case delta = sigma/2 and decreasing dissipative coefficient. / Thema der vorliegenden Dissertation ist die Untersuchung asymptotischer Eigenschaften von Lösungen des Cauchy Problems für strukturell gedämpfte sigma-Evolutions-Operatoren mit zeitabhängigem, monotonen Dissipationskoeffizienten. Es wird eine geeignete Energie definiert und für diese Abschätzungen, auf für entsprechende Energien höherer Ordnung gezeigt. Darüber hinaus wird der Einfluss des Dissipationskoeffizienten auf L^p-L^q Abschätzungen auf und entfernt von der konjugierten Linie untersucht. Im skaleninvarianten Fall wird die Schärfe der Abschätzungen bewiesen. Weiterhin wird der Zusammenhang zwischen der Regularität der Daten und der der Lösung in Termen von L^2-basierten Gevrey-Räumen untersucht. Schließlich werden L^1-L^1-Abschätzungen für den Spezialfall delta = sigma/2 und monoton fallenden Dissipationskoeffizienten gezeigt.

info:eu-repo/classification/ddc/510

ddc:510

info:eu-repo/classification/ddc/515

ddc:515

info:eu-repo/classification/ddc/621

ddc:621