Add to ORKGThe research presented in this thesis describes several aspects concerning the use of high-flux screen filters like microsieves in microfiltration. The main focus of this work is based on fouling of both inorganic and polymeric microsieves with model solutions, so that fundamental knowledge and insight is gained and applied to a possible application like milk filtration
The detection of nano/microplastics throughout water treatment plants constitutes a potential threat...
In order to reduce the fouling of ultrafiltration (UF) systems caused by influent organic matter and...
Inorganic microfiltration membranes with a pore size down to 0.1 mm have been made using laser inter...
The research presented in this thesis describes several aspects concerning the use of high-flux scre...
Constant flux performance in time is achieved with polyethersulfone (PES) polymeric microsieves when...
Microsieves are a fairly recent (1994) innovation in membrane-filtration technology, especially at t...
The work investigates fouling in a microfluidic membrane mimic (MMM) filtration system for foulants ...
Organic-inorganic membranes were obtained by modification of polymer microfiltration membrane wit...
Membrane morphology is a key factor in fouling. Characteristics such as a very thin selective layer,...
In this study, temperature and ionic-strength responsive polymeric microgels are used for fouling re...
The objective of this research was to decrease membrane fouling of a ceramic microfiltration system ...
The influence of the surface properties of chemically modified silicon nitride microsieves on the fi...
[[abstract]]The effects of membrane morphology and operating conditions on the particle fouling in d...
Ceramic membrane processes are a rapidly emerging technology for water treatment, yet virtually no i...
Stimuli-responsive polymeric surfaces can improve non-fouling properties of membranes and control th...
The detection of nano/microplastics throughout water treatment plants constitutes a potential threat...
In order to reduce the fouling of ultrafiltration (UF) systems caused by influent organic matter and...
Inorganic microfiltration membranes with a pore size down to 0.1 mm have been made using laser inter...
The research presented in this thesis describes several aspects concerning the use of high-flux scre...
Constant flux performance in time is achieved with polyethersulfone (PES) polymeric microsieves when...
Microsieves are a fairly recent (1994) innovation in membrane-filtration technology, especially at t...
The work investigates fouling in a microfluidic membrane mimic (MMM) filtration system for foulants ...
Organic-inorganic membranes were obtained by modification of polymer microfiltration membrane wit...
Membrane morphology is a key factor in fouling. Characteristics such as a very thin selective layer,...
In this study, temperature and ionic-strength responsive polymeric microgels are used for fouling re...
The objective of this research was to decrease membrane fouling of a ceramic microfiltration system ...
The influence of the surface properties of chemically modified silicon nitride microsieves on the fi...
[[abstract]]The effects of membrane morphology and operating conditions on the particle fouling in d...
Ceramic membrane processes are a rapidly emerging technology for water treatment, yet virtually no i...
Stimuli-responsive polymeric surfaces can improve non-fouling properties of membranes and control th...
The detection of nano/microplastics throughout water treatment plants constitutes a potential threat...
In order to reduce the fouling of ultrafiltration (UF) systems caused by influent organic matter and...
Inorganic microfiltration membranes with a pore size down to 0.1 mm have been made using laser inter...