Daniel Brunner disputerer for ph.d-graden i ingeniørvitenskap og vil offentlig forsvare avhandlingen: An applied investigation of viscosity–density fluid sensors based on torsional resonators
På grunn av koronautbruddet vil disputasen bli strømmet. Opptak av disputasen vil være tilgjengelig i en uke.
Because of the corona outbreak the defense will be streamed. A recording of the disputation will be available for one week.
Prøveforelesning / Trial lecture 04.12.20 kl. 10.15.
Prøveforelesningen har følgende tittel / Title: Multiphysics Modelling of Fluid Sensors
Disputas / Public defense 04.12.20 kl. 12.15.
Prøveforelesning og disputas vil bli strømmet her.
Trial lecture and public defense will be streamed here.
De som ønsker å opponere ex auditorio kan sende e-post til leder av disputasen, professor Raymond Kristiansen
Opponents ex auditorio should sign up to leader of defense by e-mail to professor Raymond Kristiansen
Real-time viscosity and density measurements give insight into the status of many chemical and biochemical processes and allow for automated controls. In many applications, sensors that enable the real-time measurements of fluid properties use resonant elements. Such sensors measure induced changes in the element’s resonance frequency and damping that can be related to the fluid properties. These sensors have been widely researched, though they are not yet commonly used in industrial processes.
This work successfully modeled and validated the two different torsional resonant element sensors, namely the probe-style viscosity-density sensor and the tubular viscosity sensor against experiments. Overall, this work demonstrates the potential of numerical modeling for the development of torsional resonance sensors. These findings directly affect the development of the future generation of fluid viscosity and density sensors.
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Bedømmelseskomité / Evaluation committée:
Prøveforelesning og disputas ledes av prodekan, professor Raymond Kristiansen