Carrier gas flow arrangement based photoacoustic detection method for measuring gas permeability of polymer membranes

Filus, Z.; Tóth, Nikolett; Gulyas, Gabor; Guba, Tibor; Szabó, Gábor; Bozóki, Zoltán

doi:10.1016/j.polymertesting.2013.06.011

Cited by 7 publications

(9 citation statements)

References 12 publications

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“…The experimental curves are the results of our earlier works where the concentration of the molecules permeating through the membrane was measured by using the laser based photoacoustic detection system in a carrier gas flow arrangement [3]. Fluxes through the membrane are calculated by multiplying the measured concentrations with the carrier gas flow rate and by dividing the results with the area of the measured membrane sample.…”

Section: Measured Permeation Curvesmentioning

confidence: 99%

Comparison of the accuracy of curve-fitting methods for the determination of gas permeability parameters of sheet polymer samples

et al. 2015

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a b s t r a c tAccuracy of the gas permeability parameters (GPPs), i.e. solubility, diffusivity and permeability deduced from permeation measurements, is investigated for the case of homogeneous polymer sheet samples. The widely used time-lag method (TLM) and the recently introduced full curve-fitting method (FCFM) are compared on simulated and on measured permeation curves artificially distorted in various ways in order to mimic potential deficiencies of permeation measurements. Accuracy of the methods is defined as the relative deviation of the calculated from the real GPPs, i.e. those which are deduced from the distorted and the original, non-distorted curves, respectively. The following distortions have been applied: temporal truncation of the permeation curves, increasing the noise level of the measurement and shifting the permeation curve either along the concentration or the time axis. (The latter two transformations correspond to an unnoticed background shift in the readings of the concentration detection unit and an uncertainty in the actual inception of the permeation process, respectively). While all these distortions mimic realistic deficiencies of permeation measurements, the last one is relevant only in case of fast permeation processes through highly permeable membranes. For all but the last transformation, FCFM has been found to yield more accurate GPPs than TLM.

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Section: Measured Permeation Curvesmentioning

confidence: 99%

Comparison of the accuracy of curve-fitting methods for the determination of gas permeability parameters of sheet polymer samples

et al. 2015

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“…In recent years the number of reported photoacoustic (PA) instruments to prove their applicability in various areas has been steadily increasing [1][2][3][4]. Amongst these instruments are those which were developed by our research group for various applications, including in the natural gas industry [5][6][7], airborne hygrometry [8][9], source apportionment of urban light-absorbing aerosols [10][11], measurements of gas permeability [12], and clinical research [13]. The main components of our instruments are basically always the same: a data acquisition and control system (DACS), one or more longitudinal differential detection cells [14], (a) modulated light source(s) which is/are either telecommunication-type diode lasers [15] or frequency converted Nd:YAG lasers [10] and gas handling units in various configurations.…”

Section: Motivationmentioning

confidence: 99%

“…In most cases, the DACS has various additional functions such as controlling the gas handling system and communicating with other instruments. Our recently developed systems [5][6][7][8][9][10][11][12][13] were based on a highly integrated target DACS. This system turned out to be one of the bottlenecks during the application developments due to its limited capabilities; therefore, a fundamental redesign of our DACS became essential.…”

Section: Motivationmentioning

confidence: 99%

Embedded system based data acquisition and control system for photoacoustic spectroscopic applications

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Bozóki

Gulyas³

et al. 2015

Measurement

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Laser absorption spectroscopy by photoacoustic (PA) detection technique is increasingly used in trace gas analysis. Our research group focuses on related instrument and application development. In this paper the design and test results of a newly developed field programmable gate array based data acquisition and control system (DACS), are introduced. It became necessary to develop this new system since the limits of the old one had been reached; furthermore, it was challenging to implement new advanced measuring protocols. The system was designed to be scalable in order to be able to implement further ideas or measurement protocols without significant hardware or software modifications. In the current configuration, approximately 60% of the resources of the system are used. A complete PA measuring system was built around the new DACS to determine the analytical properties: the normalized noise equivalent absorption is 7.5 Â 10 À10 cm À1 W Hz À1/2 , while the estimated dynamic range for measuring optical absorption is 7.5 orders of magnitude.

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“…In order to differentiate the permeated molecules from the molecules of the carrier gas the applied detection method has to be selective. Among the possible methods Beer-Lambert law based optical absorption measurement techniques are fairly popular [ 2 ], as well as photoacoustic (PA) detection, which is a special type of optical absorption method that already has been applied successfully in permeation measurements [ [3] , [4] , [5] ]. Previous research has shown that a properly optimised PA system outperforms conventional optical absorption detection techniques as far as the minimum detectable concentration and the response time is concerned [ 6 ].…”

Section: Introductionmentioning

confidence: 99%

Photoacoustic detection based permeation measurements: Case study for separation of the instrument response from the measured physical process

et al. 2018

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In a carrier flow based permeation system the measured permeation curve is the convolution of two processes: the intrinsic permeation process and the transfer of the permeated molecules through the measuring system. The latter one is quantified by the instrument response function (IRF). The possibility of calculating the IRF from permeation curves measured at various volumetric flow rates of the carrier gas is examined. The results are in partial agreement with preliminary expectations: the dependency of the calculated IRF on the volumetric flow rate of the carrier gas indeed follows roughly the expected tendency; however it is not completely independent from the physical properties of the measured membrane sample. This discrepancy can most probably be attributed to the imperfect design of the applied permeation cell. Overall it is expected that the proposed method for determining the instrument transfer function is a valuable tool for improving the design of permeation measuring systems.

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Carrier gas flow arrangement based photoacoustic detection method for measuring gas permeability of polymer membranes

Cited by 7 publications

References 12 publications

Comparison of the accuracy of curve-fitting methods for the determination of gas permeability parameters of sheet polymer samples

Comparison of the accuracy of curve-fitting methods for the determination of gas permeability parameters of sheet polymer samples

Embedded system based data acquisition and control system for photoacoustic spectroscopic applications

Photoacoustic detection based permeation measurements: Case study for separation of the instrument response from the measured physical process

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