Title of article
Precursor Selection for Carbon Membrane Fabrication: A Review
Author/Authors
sazali, n. universiti tun hussein onn malaysia - advanced manufacturing and materials centre (ammc), faculty of mechanical and manufacturing engineering, Parit Raja, Malaysia , sazali, n. universiti teknologi malaysia - advanced membrane technology research centre (amtec), faculty of chemical and energy engineering (fcee), Johor Bahru, malaysia , sazali, n. universiti malaysia pahang - faculty of mechanical engineering, Pekan, Malaysia , salleh, w. n. w. universiti teknologi malaysia - advanced membrane technology research centre (amtec), faculty of chemical and energy engineering (fcee), Johor Bahru, Malaysia , izwanne, m. nur imperial college - barrer centre - department of chemical engineering, London, uk , harun, z. universiti malaysia pahang - faculty of mechanical engineering, Pekan, Malaysia , kadirgama, k. imperial college - barrer centre - department of chemical engineering, London, uk
From page
131
To page
144
Abstract
The rapid expansion of gas separation technology since it was first introduced is promoted by the beneficial selective permeability capability of the polymeric membranes. Up to the currently available information, a large number of studies have reported polymeric membranes permeability and selectivity performances for a different type of gasses. However, trends showed that separation of gases using as per in synthesized polymers had reached a bottlenecks performance limits. Due to this reason, membranes in the form of asymmetric and composite structures is seen as an interesting option of membrane modification to improve the performance and economic value of the membranes alongside with an introduction of new processes to the field. An introduction of new polymers during membrane fabrication leads to a formation of its unique structure depending on the polymers. Thus, structured studies are needed to determine the kinetic behavior of the new addition to membrane structures. This review examines the ongoing progress made in understanding the effects of the different polymers additives to the structural modification and the gas separation performances of the carbon membranes. A reduction of defects consisted of pore holes, and cracks on carbon membranes could be minimized with the right selection of polymer precursor.
Keywords
Carbon membrane , polymer blending , polyvinylpyrrolidone (PVP) , microcrystalline cellulose (MCC) , nanocrystalline cellulose (NCC)
Journal title
Journal of Applied Membrane Science and Technology
Journal title
Journal of Applied Membrane Science and Technology
Record number
2591503
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