%A"Davion, M [Commissariat a l'Energie Atomique, Saclay (France). Centre d'Etudes Nucleaires]" %D1969 %I; CEA Saclay, 91 - Gif-sur-Yvette (France) %2 %J[] %K71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS, ACCURACY, GASES, MEMBRANE PORES, MEMBRANE TRANSPORT, PERMEABILITY, RICCATI EQUATION, TEMPERATURE DEPENDENCE %PMedium: ED; Size: [27] pages %TMeasurement, with steady pressure rise, of the permeability of a gas through a porous membrane; Mesure, en montee continue de pression, de la permeabilite d'un gaz a travers une membrane poreuse %XThis study concerns a device for following the variations in the permeability of a gas across a porous membrane as a function of the average pressure, increasing steadily, which is applied to the membrane: P-bar; from these variations is deduced a value of an equivalent pore radius. A constant gas flow is introduced into an enclosure separated into two compartments by the membrane; the simultaneous variations of the pressure in the enclosure and of the pressure difference {delta} P between the two compartments are followed. After a transient period, {delta} P is given by an asymptotic expansion as a function of a dimensionless variable, w, whose expression includes several parameters (ratio of the compartment volumes, physical properties of the gas, pore radius, value of {delta} P in the steady state) and the variable pressure P. When w is large compared to unity, condition which gives an upper limit to the flow for a given membrane, the expansion is practically equal to its first term; the changes in {delta} P and in the permeability are then inversely proportional. The perturbing influences of various secondary effects (e. g. changes in the enclosure temperature) on the pore radius measurement have been estimated. (author) [French] Cette etude concerne un dispositif permettant de suivre les variations de permeabilite d'un gaz a travers une membrane poreuse en fonction de la pression moyenne, continument croissante, appliquee a cette membrane: P-bar; de ces variations se deduit la valeur d'un rayon de pore equivalent. Un debit de gaz constant est introduit dans une enceinte separee par la membrane en deux compartiments, et l'on suit les variations simultanees de la pression dans l'enceinte et de la difference de pression entre ces compartiments, {delta} P. A l'issue d'un stade transitoire, {delta}P est donne par un developpement asymptotique en fonction d'une variable sans dimensions, w, dont l'expression groupe plusieurs parametres (rapport des volumes des compartiments, proprietes physiques du gaz, rayon de pore, valeur de {delta} P en regime stationnaire) et la pression variable P-bar. Lorsque w est grand devant un, condition qui limite superieurement le debit pour une membrane donnee, le developpement equivaut pratiquement son premier terme; les variations de {delta} P et de la permeabilite sont alors inversement proportionnelles. Les influences perturbatrices de divers effets secondaires (variations de temperature dans l'enceinte par exemple) sur la mesure du rayon de pore ont ete estimees. (auteur) %0Technical Report %NCEA-R-3658;TRN: FR04R3658094954 %1 %CFrance %Rhttps://doi.org/ TRN: FR04R3658094954 FRN %GFrench