Add to ORKGThis work focuses on the use of X-ray tomography in investigating the flow distribution in a structured packed bed. Cross sections of the liquid hold up distribution in a 10 cm diameter column packed with Mellapak Plus 752Y are obtained at various column heights for different liquid and gas flow rates. Differing from our previous investigations, local values but also global values at the bed scale are obtained allowing a direct comparison with published results and correlations resulting from conventional techniques. The agreement at the bed scale is very good
Static liquid holdup was determined in situ, in a column packed with Katapak-SP12 (TM) elements, usi...
peer reviewedIn this work X-ray tomography is used to analyse the influence of liquid v...
An X-ray visualization technique has been used for the quantitative determination of local liquid ho...
This work focuses on the use of X-ray tomography in investigating the flow distribution in a structu...
In this work X-ray tomography is used to analyse the influence of liquid viscosity on liquid flow in...
Presentation of the x-ray tomography setup and of the experimental results relative to the fluid dis...
This paper presents the results of a study carried out to examine liquid hold-up and flow distributi...
peer reviewedThis work focuses on the analysis of X-ray tomographic images of liquid flow distributi...
In this paper, we report on the use of a high energy and high resolution X-ray tomograph to visualiz...
We developed a practical methodology to face common problems encountered in the analysis of tomograp...
We developed a simple practical methodology to face common problems encountered in the analysis of t...
Unit operations such as distillation, absorption, and stripping rely on the contacting of vapor and...
In the frame of the present study, the influence of liquid viscosity on liquid holdup distribution i...
X-ray tomography is used to characterise the liquid distribution in a 0.6 meter diameter and 2 meter...
We describe a new, high-energy (420 kV), large-scale (0.45 m in diameter, 4 m in height) x-ray tomog...
Static liquid holdup was determined in situ, in a column packed with Katapak-SP12 (TM) elements, usi...
peer reviewedIn this work X-ray tomography is used to analyse the influence of liquid v...
An X-ray visualization technique has been used for the quantitative determination of local liquid ho...
This work focuses on the use of X-ray tomography in investigating the flow distribution in a structu...
In this work X-ray tomography is used to analyse the influence of liquid viscosity on liquid flow in...
Presentation of the x-ray tomography setup and of the experimental results relative to the fluid dis...
This paper presents the results of a study carried out to examine liquid hold-up and flow distributi...
peer reviewedThis work focuses on the analysis of X-ray tomographic images of liquid flow distributi...
In this paper, we report on the use of a high energy and high resolution X-ray tomograph to visualiz...
We developed a practical methodology to face common problems encountered in the analysis of tomograp...
We developed a simple practical methodology to face common problems encountered in the analysis of t...
Unit operations such as distillation, absorption, and stripping rely on the contacting of vapor and...
In the frame of the present study, the influence of liquid viscosity on liquid holdup distribution i...
X-ray tomography is used to characterise the liquid distribution in a 0.6 meter diameter and 2 meter...
We describe a new, high-energy (420 kV), large-scale (0.45 m in diameter, 4 m in height) x-ray tomog...
Static liquid holdup was determined in situ, in a column packed with Katapak-SP12 (TM) elements, usi...
peer reviewedIn this work X-ray tomography is used to analyse the influence of liquid v...
An X-ray visualization technique has been used for the quantitative determination of local liquid ho...