Add to ORKGThe phenomenon of Taylor bubbles is usually created in gas-liquid flows and is commonly found in many chemical and process industries. Therefore, the visualisation and understanding of their flow dynamics is of crucial importance for the industries. Electrical Resistance Tomography (ERT) is generally used as non-intrusive method for the visualisation of multiphase flows. However, due to its low spatial resolution, the sharp interfaces as well as the small bubbles are not able to be seen. A newly established method, called bubble mapping, enables three-dimensional visualisation of gas bubble size and distribution in gas-water flows. Bubble mapping (BM) is based on the transformation of the cross-sectional gas concentration tomograms to air b...
Gas-liquid, two-phase flow is encountered in a wide variety of industrial equipment. A few examples ...
Electrical resistance tomography (ERT) has been chosen as the field of study because of its advantag...
International audienceWe develop a novel method to study the gas phase features in a bubbly Taylor–C...
The phenomenon of Taylor bubbles is usually created in gas-liquid flows and is commonly found in man...
It is well known that electrical tomography is capable of 'seeing' through opaque pipe walls and flo...
Electrical impedance tomography (EIT) has been successfully applied on gas-water flow applications, ...
Although electrical resistance tomography has been successfully applied to visualise gas–water two-p...
Although electrical resistance tomography has been successfully applied to visualise gas–water two-p...
Electrical resistance tomography was succeed in being applied on gas-liquid two-phase flow, but it i...
Bubble columns are widely used a gas-liquid contactors in industrial processes for carrying out gas-...
Electrical tomography, e.g. electrical resistance tomography (ERT) and electrical capacitance tomogr...
A novel approach of obtaining bubble size and spatial distribution is developed by hybridising techn...
Industrial process pipelines are mostly known to be constructed from metal which is a conducting mat...
We develop a novel method to study the gas phase features in a bubbly Taylor–Couette flow when bubbl...
We develop a novel method to study the gas phase features in a bubbly Taylor–Couette flow when bubbl...
Gas-liquid, two-phase flow is encountered in a wide variety of industrial equipment. A few examples ...
Electrical resistance tomography (ERT) has been chosen as the field of study because of its advantag...
International audienceWe develop a novel method to study the gas phase features in a bubbly Taylor–C...
The phenomenon of Taylor bubbles is usually created in gas-liquid flows and is commonly found in man...
It is well known that electrical tomography is capable of 'seeing' through opaque pipe walls and flo...
Electrical impedance tomography (EIT) has been successfully applied on gas-water flow applications, ...
Although electrical resistance tomography has been successfully applied to visualise gas–water two-p...
Although electrical resistance tomography has been successfully applied to visualise gas–water two-p...
Electrical resistance tomography was succeed in being applied on gas-liquid two-phase flow, but it i...
Bubble columns are widely used a gas-liquid contactors in industrial processes for carrying out gas-...
Electrical tomography, e.g. electrical resistance tomography (ERT) and electrical capacitance tomogr...
A novel approach of obtaining bubble size and spatial distribution is developed by hybridising techn...
Industrial process pipelines are mostly known to be constructed from metal which is a conducting mat...
We develop a novel method to study the gas phase features in a bubbly Taylor–Couette flow when bubbl...
We develop a novel method to study the gas phase features in a bubbly Taylor–Couette flow when bubbl...
Gas-liquid, two-phase flow is encountered in a wide variety of industrial equipment. A few examples ...
Electrical resistance tomography (ERT) has been chosen as the field of study because of its advantag...
International audienceWe develop a novel method to study the gas phase features in a bubbly Taylor–C...