Abstract: A gamma ray tomographic reconstruction of catalyst concentration distribution in laboratory experiments is presented. The images are generated by gamma transition measurements in an experimental riser simulating flow experiments. The manual scanner is adequate for mapping radial catalyst concentration distribution under spatial resolution of 0.002 m and density resolution of 10 kg/m3
Before waste barrels with radioactive contents can be emplaced in a final repository the radionuclid...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...
Abstract: A study of uncertainty in gamma ray transmission measurement of single beam tomography is ...
In this work, a monolith reactor model was developed to study the effect of phase distribution on th...
Regenerator and riser reactor are the units of the fluidized catalyst cracking plant where the fluid...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
In process vessels, involving two or three phases it is often important not only to know the volume ...
Principles of gamma-ray-based measurement are summarized and their application is demonstrated on an...
The aim of this dissertation is to demonstrate the potential of novel measurement techniques based o...
Crack gas flowing from furnace to gasoline fraction tower through BA-106 pipeline. The...
We apply X-ray computed tomography for non-invasive investigation of the distribution of solids over...
The dynamic liquid distribution and holdup in a TBR packed with porous quadrilobe catalyst were stud...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
Gamma scanning and radiotracer applications are very effective and inexpensive tools to understand a...
Before waste barrels with radioactive contents can be emplaced in a final repository the radionuclid...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...
Abstract: A study of uncertainty in gamma ray transmission measurement of single beam tomography is ...
In this work, a monolith reactor model was developed to study the effect of phase distribution on th...
Regenerator and riser reactor are the units of the fluidized catalyst cracking plant where the fluid...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
In process vessels, involving two or three phases it is often important not only to know the volume ...
Principles of gamma-ray-based measurement are summarized and their application is demonstrated on an...
The aim of this dissertation is to demonstrate the potential of novel measurement techniques based o...
Crack gas flowing from furnace to gasoline fraction tower through BA-106 pipeline. The...
We apply X-ray computed tomography for non-invasive investigation of the distribution of solids over...
The dynamic liquid distribution and holdup in a TBR packed with porous quadrilobe catalyst were stud...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
Gamma scanning and radiotracer applications are very effective and inexpensive tools to understand a...
Before waste barrels with radioactive contents can be emplaced in a final repository the radionuclid...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...
Gas hold-up is one of the most important hydrodynamic characteristics that is needed for performance...