This work is concerned with the efficiency of two different waste polymeric materials as the filter media in a laboratory-scale bed coalescer in the horizontal fluid flow mode, operating in a steady-state regime. The applied materials are: waste polyethylene terephthalate from textile industry, BA1 and waste polypropylene from carpet industry, PP. Using these compressible fiber polymeric materials, high bed porosity (up to 98%) could be obtained. The investigation was carried out over a wide range of working conditions. Bed permeability was varied in the range from 0.18•10-9 to 5.389•10-9 m2. Operating fluid velocity was varied from 19 to 80 m/h, until the critical velocity was reached. Different oily wastewaters ...
Oily wastewater pollution is responsible for affecting drinking water, groundwater resources and cro...
The aim of this research paper is to compare the operation efficiency of two types of coalescents: i...
© 2016, Pleiades Publishing, Ltd.Nylon–polyaniline (nylon–PANI) membranes with different polymerizat...
Bed coalescers are compact, easy to install, automate, and maintain with the ability to achieve high...
Polymeric resins are being tried as an alternative material for treating oily waters from the petrol...
Separation of oil-in-water emulsions using fiber bed coalescer was studied by response surface me...
Adsorption properties of the polymer fibers are studied. It is shown that polypropylene fiber can be...
The wastewater treatment with a bed coalescer consists of inducing the increase of oil droplets by p...
© 2018 Authors. In this work researches on division of water oil emulsions and oil-containing waste ...
© International Research Publication House Today there are a large number of methods for extracting ...
The produced water-containing polymer brings new challenges to oil-water separation in oilfield prod...
This study is focused on the separation of oil droplets from water by applying a stainless steel fib...
Nowadays, its urgent need to develop and fabricate efficient, low cost, eco-friendly, oil-water sepa...
The wastewater treatment with a bed coalescer consists of inducing the increase of oil droplets by p...
The aim of this paper was to investigate the efficiency of different sorbent materials for oil remov...
Oily wastewater pollution is responsible for affecting drinking water, groundwater resources and cro...
The aim of this research paper is to compare the operation efficiency of two types of coalescents: i...
© 2016, Pleiades Publishing, Ltd.Nylon–polyaniline (nylon–PANI) membranes with different polymerizat...
Bed coalescers are compact, easy to install, automate, and maintain with the ability to achieve high...
Polymeric resins are being tried as an alternative material for treating oily waters from the petrol...
Separation of oil-in-water emulsions using fiber bed coalescer was studied by response surface me...
Adsorption properties of the polymer fibers are studied. It is shown that polypropylene fiber can be...
The wastewater treatment with a bed coalescer consists of inducing the increase of oil droplets by p...
© 2018 Authors. In this work researches on division of water oil emulsions and oil-containing waste ...
© International Research Publication House Today there are a large number of methods for extracting ...
The produced water-containing polymer brings new challenges to oil-water separation in oilfield prod...
This study is focused on the separation of oil droplets from water by applying a stainless steel fib...
Nowadays, its urgent need to develop and fabricate efficient, low cost, eco-friendly, oil-water sepa...
The wastewater treatment with a bed coalescer consists of inducing the increase of oil droplets by p...
The aim of this paper was to investigate the efficiency of different sorbent materials for oil remov...
Oily wastewater pollution is responsible for affecting drinking water, groundwater resources and cro...
The aim of this research paper is to compare the operation efficiency of two types of coalescents: i...
© 2016, Pleiades Publishing, Ltd.Nylon–polyaniline (nylon–PANI) membranes with different polymerizat...