Add to ORKGAbstract—Carbon dioxide and methane transport in a commercial polyimide, Matrimid 5218, has been characterized in order to evaluate the effect of membrane thermal treatment and physical aging on its potentialities for CO2/CH4 separation. In particular, CO2 and CH4 permeabilities and diffu-sion coefficients were measured at three different temperatures (35, 45 and 55C) in films pretreated at 50, 100, 150 and 200C, respectively. The performances of each sample were examined for a per-iod of more than 3 000 hours. Permeability and diffusivity values for both penetrants showed a marked decrease with increasing the pretreatment temperature up to 150C and remained, then, sub-stantially unchanged for specimens pretreated at the highest temperature...
The transport of CO2, CH4, N2 and He in films of polyimide 6FDA–6FpDA was studied at different tempe...
AbstractPolymeric membranes as a carbon dioxide capture technology have a number of advantages over ...
Recently, membrane technology has attracted vast attention from many scientists and engineers, parti...
Carbon dioxide and methane transport in a commercial polyimide, Matrimid 5218®, has been characteriz...
Carbon dioxide and methane transport in a commercial polyimide, Matrimid 5218®, has been characteriz...
It is well known that the sorption and transport properties of high free volume glassy polymers do v...
Understanding of the properties over long time scales is a key requirement for the successful applic...
It is known that CO2 acts as a plasticizer in CO2/CO4 membrane separations at elevated pressures. Th...
The nonideal behavior of polymeric membranes during separation of gas mixtures can be quantified via...
Membranes are a promising technology for bulk CO2 separation from natural gas mixtures due to their ...
We studied in this work the properties of a new membrane (TR-PBO) obtained by solid state thermal re...
There is a need to understand the permeation flux behavior of polymers exposed to high-pressure and ...
Matrimid polyimide gas separation membranes were exposed to different heat treatments between 300 an...
CO2-induced plasticization may significantly spoil the membrane performance in high-pressure CO2/CH4...
© 2018 Elsevier B.V. 6FDA based polyimides possess outstanding properties, with a high free volume f...
The transport of CO2, CH4, N2 and He in films of polyimide 6FDA–6FpDA was studied at different tempe...
AbstractPolymeric membranes as a carbon dioxide capture technology have a number of advantages over ...
Recently, membrane technology has attracted vast attention from many scientists and engineers, parti...
Carbon dioxide and methane transport in a commercial polyimide, Matrimid 5218®, has been characteriz...
Carbon dioxide and methane transport in a commercial polyimide, Matrimid 5218®, has been characteriz...
It is well known that the sorption and transport properties of high free volume glassy polymers do v...
Understanding of the properties over long time scales is a key requirement for the successful applic...
It is known that CO2 acts as a plasticizer in CO2/CO4 membrane separations at elevated pressures. Th...
The nonideal behavior of polymeric membranes during separation of gas mixtures can be quantified via...
Membranes are a promising technology for bulk CO2 separation from natural gas mixtures due to their ...
We studied in this work the properties of a new membrane (TR-PBO) obtained by solid state thermal re...
There is a need to understand the permeation flux behavior of polymers exposed to high-pressure and ...
Matrimid polyimide gas separation membranes were exposed to different heat treatments between 300 an...
CO2-induced plasticization may significantly spoil the membrane performance in high-pressure CO2/CH4...
© 2018 Elsevier B.V. 6FDA based polyimides possess outstanding properties, with a high free volume f...
The transport of CO2, CH4, N2 and He in films of polyimide 6FDA–6FpDA was studied at different tempe...
AbstractPolymeric membranes as a carbon dioxide capture technology have a number of advantages over ...
Recently, membrane technology has attracted vast attention from many scientists and engineers, parti...