Browsing by Title
Now showing items 22405-22424 of 84676
-
COMPUTATIONAL INVESTIGATION OF TURBULENT BLOOD FLOW AND HEMOLYSIS IN BIOMEDICAL DEVICES
(2015-12-18)Turbulent blood flow in medical devices contributes to blood trauma, yet the exact mechanism(s) have not been fully elucidated. Local turbulent stresses, viscous stresses, and the rate of dissipation of the turbulent kinetic ... -
Computational investigations of a shape‐memory polymer foam embolization device for intracranial aneurysms
(2021)The objective of this research is to determine the efficacy of an intracranial aneurysm treatment option. An open‐source computational fluid dynamics software is used to simulate blood flow through 6 patient‐specific ... -
COMPUTATIONAL INVESTIGATIONS OF RED BLOOD CELL MECHANICAL TRAUMA AND OF DISEASED RENAL ARTERY HEMODYNAMICS
(2011)In this work, Computational Fluid Dynamics (CFD) and Fluid Structure Interaction (FSI) methods were used to study two separate problems: red blood cell damage in flow and the hemodynamics of diseased renal arteries; ... -
Computational method for the indexing of unknown powder patterns and unknown rotating-crystal patterns /
(The University of Oklahoma., 1973) -
Computational methods and error analysis in water surface profiles of gradually varied flow in open channels /
(The University of Oklahoma., 1969) -
Computational Modeling of Metastatic Cancer Migration Through a Remodeling Extracellular Matrix
(2018-07-01)The spreading of cancer cells, also known as metastasis, remains a lethal and unstoppable aspect of cancer treatment. Several cancer studies have suggested the remodeling of collagen fibers in the extracellular matrix (ECM) ... -
Computational Studies of 2D Diffusion and Water Nucleation
(2017-12-01)Molecular simulations for nearly any molecule can currently be conducted, but often these calculations are costly and can only be accomplished using multiple nodes on a super computer. These topics of research use the new ... -
Computational studies of graphene and silicene for DNA base detection
(2020)Graphene's success for nanopore DNA sequencing has shown that it is possible to explore other potential single- and few-atom thick layers of elemental 2D materials beyond graphene (e.g. phosphorene and silicene), and also ... -
Computational studies of molybdenum oxide clusters and environmental corrosion of iron and zinc
(2014-07)This dissertation describes two creative activities. The first is a computational study of molybdenum oxide clusters and the other is an experimental study of the corrosion of metals. The first effort covers three topics. ... -
Computational studies of polymer electrolyte complexes by molecular dynamics and molecular vibrations by principal component analysis.
(2003)The second part (Chapter 4 and 5) focuses on computing vibrational frequencies and modes by using a new technique, principal component analysis (PCA) which is broadly used in signal processing, pattern recognition, and ... -
Computational Study and Manipulation of Local Chemical Environment in heterogeneous Catalysis and Separation.
(2023-06-09)Reactive separation is proposed as a less energy-intensive chemical process with functions of catalytic reaction and separation. It offers an active chemical conversion combined with selective separation to obtain the ... -
Computational Study of Aerodynamics of a Tilted Web Over an Air Reverser
(Oklahoma State University, 2000-12-01) -
A Computational Study of Amyloid Fibrils and their Structural Properties
(2017-12)The term amyloid describes misfolded protein aggregates in which a highly ordered cross β-sheet pattern is adopted. While there exist functional amyloids, the majority of known amyloids are associated with diseases in ... -
A Computational Study of Graphene and Phosphorene for DNA Base Detection
(2020)Research into methods of deoxyribonucleic acid (DNA) sequencing has been improving with the goal of providing fast and cheap sequencing of longer strands as accurately as possible. One possible way of improving the process ... -
Computational study of interactions between DNA bases and single-layer Ti3C2 MXene
(2023)Electronic DNA sequencing using atomically thin 2D-based nanodevices has recently emerged as the next-generation of DNA sequencing technology. Recent molecular dynamics simulations showed that single-layer Titanium Carbide ... -
Computational Study of Interfacial Mixing in Pipeines, Logistics and Diverse Models to Predict the Interface Length
(Oklahoma State University, 2014-05-01)Oil and gas are important resources of the U.S economy. Pipelines are the primary means of transporting oil and gas in the United States. Different grades of petroleum products are sent in the same pipeline as it is cost ... -
COMPUTATIONAL STUDY OF LIQUID-SOLID INTERFACE
(2020)The solid interface is of fundamental importance to numerous scientific and technological fields, such as heterogeneous catalysis, water splitting, electrochemistry, corrosion, drug delivery, tribology, and wetting. However, ... -
Computational Study of Microwave-induced Thermo-acoustic Tomography by Time-domain Finite Element Method
(Oklahoma State University, 2015-07-01)This work presents a time-domain finite element method (TDFEM) for simulation of thermo-acoustic (TA) signal generation in biological tissue for the application of microwave-induced thermo-acoustic tomography (MITAT). This ... -
Computational Study of the Coanda Effect and its Implementation in Web Support And Traction
(Oklahoma State University, 1998-05-01)