Blar i NTNU Open på forfatter "Ozan, Suat Canberk"
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A Numerical Study of Newtonian and Non-Newtonian Fluid Flows Described in Curvilinear Coordinates
Bakke, Mari (Master thesis, 2021)En laminær, stasjonær strømning uten varmeoverføring i en kanal over et utvidet trinn (backwards facing step), ble løst ved bruk av finite volume method. Upwind differencing scheme og SIMPLE-algoritmen ble bruk til å ... -
A bubble coalescence kernel combining the characteristics of the film drainage, energy, and critical velocity models
Ozan, Suat Canberk; Solsvik, Jannike; Jakobsen, Hugo Atle (Peer reviewed; Journal article, 2023)A novel coalescence kernel with high predictive properties is constructed to be used within the population balance framework. The kernel includes the product of a collision frequency term and a novel binary coalescence ... -
Coalescence of fluid particles with deformable interfaces in non-Newtonian media
Fanebust, Maria; Ozan, Suat Canberk; Jakobsen, Hugo Atle (Peer reviewed; Journal article, 2021)The drainage of the non-Newtonian film between two approaching fluid particles are studied. The non-Newtonian continuous phase is a generalized Newtonian fluid that obeys the power-law model, and the deformable particle ... -
Combined Effect of Surfactant Presence and Gas Dissolution on Coalescence in Chemical- and Bioreactors
Hosen, Hauna Fathmadinda (Master thesis, 2021)In this work, coalescence of gas bubbles is investigated in the presence of gas dissolution and surfactants through a film drainage model. The study on dissolution is carried out for three cases considering low Pe, constant ... -
Film drainage and critical velocity of fluid particles in power-law fluids
Galantucci, Veronica; Ozan, Suat Canberk; Jakobsen, Hugo Atle (Journal article; Peer reviewed, 2024)This work studies the collision of fluid particles (bubbles or droplets) in non-Newtonian media whose viscosity obeys the power-law model, by analyzing the behavior of the drainage of the film between the particles. The ... -
Fluid Particle Coalescence: Film Drainage Modeling Including the Effect of Surface Rheology
Ozan, Suat Canberk (Doctoral theses at NTNU;2021:292, Doctoral thesis, 2021)Coalescence of fluid particles is an important phenomenon that plays a significant role in a wide range of natural and industrial processes. This work focuses on the film drainage models employed in coalescence modeling, ... -
Investigation of coalescence through film drainage modeling in chemical- and bioreactors with non-Newtonian continuous media
Fanebust, Maria (Master thesis, 2021)Denne masteroppgaven tar for seg dreneringen av en ikke-Newtonsk film innfanget mellom to fluidpartikler for å modellere koalesens i kjemiske reaktorer og bioreaktorer. I litteraturen finnes det mange studier som utforsker ... -
A Model of Synovial Fluid with a Hyaluronic Acid Source: A Numerical Challenge
Ozan, Suat Canberk; Labrosse, Gerard; Uguz, Kerem (Journal article; Peer reviewed, 2021) -
On efficient modelling of radical production in cavitation assisted reactors
Ozan, Suat Canberk; Muller, Pascal Jan; Cloete, Jan Hendrik (Peer reviewed; Journal article, 2024)Process intensification by cavitation is gaining widespread attention due to the benefits that the intense bubble collapse conditions can provide, yet, several knowledge gaps exist in the modelling of such systems. This ... -
On the effect of the approach velocity on the coalescence of fluid particles
Ozan, Suat Canberk; Jakobsen, Hugo Atle (Journal article; Peer reviewed, 2019)The effect of the constant relative approach velocity of two Newtonian fluid particles on their coalescence is investigated via a film drainage model. The interfaces are deformable and allowed to have any degree of mobility. ... -
On the role of the surface rheology in film drainage between fluid particles
Ozan, Suat Canberk; Jakobsen, Hugo Atle (Journal article; Peer reviewed, 2019) -
Prediction of coalescence and rebound of fluid particles in non-Newtonian media through film drainage modeling
Jakobsen, Hugo Atle (Master thesis, 2023)The drainage of a non-Newtonian film entrapped between two fluid particles that are moving toward one another with time-dependent velocities, causing either coalescence and rebound, is examined in this thesis. Attention ... -
Steady Laminar Flow over a Backwards Facing Step solved by the Finite Volume Method
Klavenes, Anita (Master thesis, 2020)Laminær, stasjonær strømning uten varmetransport i en rett kanal og i en kanal utvidet over et trinn (backwards facing step) har blitt løst ved bruk av Finite Volume Method. SIMPLE-algoritmen og Upwind Differencing ble ... -
The Fluid Flow Equations in General Curvilinear Coordinates solved with the SIMPLE Algorithm on a Staggered Curvilinear Grid
Grendstad, Ida Elise (Master thesis, 2021)Hovedmålet i denne mastergraden var å modellere strømningene over et bakovervendt steg ved å bruke SIMPLE algoritmen med et forskjøvet ikke-ortogonalt kurvelineært rutenett. SIMPLE ligningene ble løst i det beregnende ...