Coalescence filtration using knitted, foam or nonwoven fibrous media is the widely applied in the industry for separation and recovery of liquid mists that are generated in many processes, including lubricated machining, compressors and engine crankcases. The dynamics of multi-component/ phase fluid transport and its interaction with the filter surface at the pore-scale and the contact angle dynamics are expected to significantly influence performance and efficiency of filtration processes. Most mist filters currently used in the industry are hydro- or oleophillic in nature, even though it is expected that philic filters will develop higher steady state saturation levels compared to phobic media. For hydro- or oleo-phobic media, it can be e...
Experiments were made with glass microfiber media of the type used in oil mist filtration to test th...
Fibrous filter materials are commonly adopted in a variety of industrial and domestic processes to r...
Pore-scale filtration simulations require high spatio-temporal resolutions and significant computati...
The process of coalescence mist filtration in liquid- or gas-liquid systems is strongly controlled b...
The movement and re-entrainment of liquid droplets from three different filter media, namely fibrous...
This work details the results of a study into the relationship between pressure drop and liquid satu...
This work investigates the relationship between wet (multi-phase) pressure drop, saturation and filt...
Recovery of liquid aerosols (mists) from industrial processes is typically accomplished through coal...
This study investigated the influence of flow interruptions on the filtration performance of two dif...
The evolution of pressure drop, drainage rate, saturation, and efficiency of combined philic, and ph...
This work has examined the physico-chemical properties of coalescing filters on a micro-scale, cons...
Fibrous filters and mist eliminators are widely used in a range of manufacturing and process industr...
Fibrous filters and mist eliminators are widely used in a range of manufacturing and process industr...
During his PhD work, Abouzar has developed a more computationally efficient approach using dynamic p...
The removal of (oil) mists from air streams is important in many industrial applications, such as ma...
Experiments were made with glass microfiber media of the type used in oil mist filtration to test th...
Fibrous filter materials are commonly adopted in a variety of industrial and domestic processes to r...
Pore-scale filtration simulations require high spatio-temporal resolutions and significant computati...
The process of coalescence mist filtration in liquid- or gas-liquid systems is strongly controlled b...
The movement and re-entrainment of liquid droplets from three different filter media, namely fibrous...
This work details the results of a study into the relationship between pressure drop and liquid satu...
This work investigates the relationship between wet (multi-phase) pressure drop, saturation and filt...
Recovery of liquid aerosols (mists) from industrial processes is typically accomplished through coal...
This study investigated the influence of flow interruptions on the filtration performance of two dif...
The evolution of pressure drop, drainage rate, saturation, and efficiency of combined philic, and ph...
This work has examined the physico-chemical properties of coalescing filters on a micro-scale, cons...
Fibrous filters and mist eliminators are widely used in a range of manufacturing and process industr...
Fibrous filters and mist eliminators are widely used in a range of manufacturing and process industr...
During his PhD work, Abouzar has developed a more computationally efficient approach using dynamic p...
The removal of (oil) mists from air streams is important in many industrial applications, such as ma...
Experiments were made with glass microfiber media of the type used in oil mist filtration to test th...
Fibrous filter materials are commonly adopted in a variety of industrial and domestic processes to r...
Pore-scale filtration simulations require high spatio-temporal resolutions and significant computati...