i am separating industrial dye pollutant from waste water. which fouling model i can apply for this particular case and also what are the different methods to avoid fouling.
Dear Shubham mishra ji,
There are three main factors that contribute to membrane fouling:
1-Feed stream properties. This includes characteristics such as concentration, pH and ionic strength, dissolved solid content, suspended solid content, etc.
2-Membrane material and its physical-chemical properties. Membrane pore size, porosity and pore distribution, and membrane surface charge and hydrophobicity in certain pH and ionic strength conditions can contribute to fouling.
3-Processing variables. Transmembrane pressure, temperature, and cross-flow velocity have a big impact on membrane fouling.
Approaches to minimize membrane fouling:
1-Optimize pH and ionic strength of the feed solution to minimize the adsorption or deposition of the feed materials.
2-Select an appropriate pre-filtration procedure or other means to remove large molecules, since the presence of larger molecules or particles could cause a steric hindrance to the passage of smaller molecules through the membrane.
3-Select a membrane with an optimum pore size to result in good separation performance as well as optimized permeate flux.
4-Optimize the operating conditions. This includes increasing transmembrane pressure to maximize flux without introducing more fouling potential.
5-Increase the cross-flow velocity, which generally results in an improvement in permeate flux.
For more information about this topic, please use the following link:
http://synderfiltration.com/learning-center/articles/membranes/characterization-of-polymeric-porous-membranes/
Hoping this will be helpful,
Rafik
Dear Shubham mishra ji,
There are three main factors that contribute to membrane fouling:
1-Feed stream properties. This includes characteristics such as concentration, pH and ionic strength, dissolved solid content, suspended solid content, etc.
2-Membrane material and its physical-chemical properties. Membrane pore size, porosity and pore distribution, and membrane surface charge and hydrophobicity in certain pH and ionic strength conditions can contribute to fouling.
3-Processing variables. Transmembrane pressure, temperature, and cross-flow velocity have a big impact on membrane fouling.
Approaches to minimize membrane fouling:
1-Optimize pH and ionic strength of the feed solution to minimize the adsorption or deposition of the feed materials.
2-Select an appropriate pre-filtration procedure or other means to remove large molecules, since the presence of larger molecules or particles could cause a steric hindrance to the passage of smaller molecules through the membrane.
3-Select a membrane with an optimum pore size to result in good separation performance as well as optimized permeate flux.
4-Optimize the operating conditions. This includes increasing transmembrane pressure to maximize flux without introducing more fouling potential.
5-Increase the cross-flow velocity, which generally results in an improvement in permeate flux.
For more information about this topic, please use the following link:
http://synderfiltration.com/learning-center/articles/membranes/characterization-of-polymeric-porous-membranes/
Hoping this will be helpful,
Rafik
I support the answer of Dr. Karaman. In the scope of his answer Ultrafiltration before Nanofiltration or Microfiltration before Ultrafiltration can be used as to decrease the fouling of the second process.
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