2021
DOI: 10.3390/membranes11050370
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Effect of Membrane Materials and Operational Parameters on Performance and Energy Consumption of Oil/Water Emulsion Filtration

Abstract: Membrane technology is one of reliable options for treatment of oil/water emulsion. It is highly attractive because of its effectiveness in separating fine oil droplets of <2 µm sizes, which is highly challenging for other processes. However, the progress for its widespread implementations is still highly restricted by membrane fouling. Most of the earlier studies have demonstrated the promise of achieving more sustained filtration via membrane material developments. This study addresses issues beyond membr… Show more

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Cited by 13 publications
(9 citation statements)
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“…Among these interactions, only g 12 depends on the concentration of components and two other parameters, g 13 and g 23 , are considered independent. 25 α and β mean the two polymer-poor and polymer-rich phases, and the u 2 parameter was obtained from Equation (12). 21…”
Section: Binodal Curvementioning
confidence: 99%
“…Among these interactions, only g 12 depends on the concentration of components and two other parameters, g 13 and g 23 , are considered independent. 25 α and β mean the two polymer-poor and polymer-rich phases, and the u 2 parameter was obtained from Equation (12). 21…”
Section: Binodal Curvementioning
confidence: 99%
“…The application of membrane technology extends to diverse industries, including pharmaceuticals, medicine, biotechnology, food processing, chemicals, as well as industrial effluent and wastewater treatment. Its widespread adoption is attributed to several advantages, including ease of operation, high contaminant removal capacity, cost-effective materials, and wide availability [9]. Moreover, compared to conventional separation methods, membrane technology offers the benefits of reduced energy requirements and compact equipment, further enhancing its appeal [10].…”
Section: Introductionmentioning
confidence: 99%
“…Among them, membrane technology operation is a carbon emission process, while resource recovery through membrane technology is a carbon offset process. In the wastewater treatment process, optimization of operating conditions, pretreatment and flushing, use of membrane combination process, and coupling with clean energy can reduce the GHG emissions of membrane technology. Resource recovery is an important pathway to reduce GHG emissions, which mainly includes reuse of resources (biomass energy methane, nutrients such as nitrogen and phosphorus, and reclaimed water) in wastewater and reuse of membranes . First, resource recovery from the water treatment process reduces the secondary pollution of the environment, especially methane recovery, which reduces greenhouse gas emissions and enables the secondary use of fuel. , The residual sludge that will be processed through the process can be used as fertilizer, which avoids GHG emissions from the sludge disposal process and also achieves the reuse of nutrients .…”
Section: Introductionmentioning
confidence: 99%