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Gas permeability coefficients of polymer films are typically measured by placing a film of uniform thickness in a permeation cell, which allows one side of

Gas permeability coefficients of polymer films are typically measured by placing a film of uniform thickness in a
permeation cell, which allows one side of the film (the so-called upstream side) to be exposed to a desired gas pressure,
and the other side of the film (the downstream side) is connected to a rigid (e.g., stainless steel) container of known
volume. Initially, the volume connected to the downstream side of the film is under vacuum. The pressure difference
across the film drives permeation of gas from the upstream side of the film through the film and into the downstream
volume. The downstream pressure is monitored as a function of time, and once the measurement comes to pseudo-steady
state, the rate of pressure rise in the downstream volume is constant (i.e., independent of time). The entire system is kept
at constant temperature. Knowing the rate of pressure rise in a container of fixed volume and temperature, as well as the
cross-sectional area of the film, one can use the ideal gas law to calculate the gas flux through the film. Permeability, P, is
defined as:
P=(Flux)(thickness)puputream-pdownstreaw
The experiments are typically organized so that the upstream pressure is orders of magnitude higher than the downstream
pressure, so
pdirnustreaw in the equation above is negligible.
A student is conducting a permeation experiment on a 23m thick polysulfone film with pure oxygen. The upstream
pressure is set to 10atm of oxygen, and the downstream pressure is initially 0atm (absolute). After a sufficient amount of
time passes to achieve steady-state permeation of oxygen through the film, the student notes that the pseudo-steady state
rate of pressure rise in the downstream volume is 5.1610-4 torr/s. From this steady state pressure change, calculate the
oxygen permeability of this sample in Barrer.
The downstream volume of the system is 46.5cm3. The system is maintained at 35C. The sample area is 0.904cm2. Please put the figures accurately and answer.
Recall that 1 Barrer =10-10cm3(STP)cmcm2s((cm)Hg). A wuseful value for the gas constant, R, is 0.278cmHg**cm3cmSTP3(K).
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