Abstract
The doubled value of the tracer transfer coefficient in the self-diffusion process is equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The fundamental phenomenological relation can be deduced for the coefficients of tracer transfer between two phases of electrolyte solutions spearated by a virtual boundary. Indeed, the doubled value of the tracer mobility in the self-diffusion experiment (no concentration gradient of the traced substance) is equal to the sum of the tracer mobilities in the diffusion (tracer movement along with the concentration gradient of the traced substance) and interfusion experiments (tracer movement against the concentration gradient of the traced substance). Thus the doubled value of the tracer transfer coefficient in the self-diffusion process should be equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The experimental verification of that fundamental relation is presented.
Citation Formats
Dorabialska, A, Hawlicka, E, and Plonka, A.
Coefficients of tracer transfer through membranes. Pt. 7.
Poland: N. p.,
1974.
Web.
Dorabialska, A, Hawlicka, E, & Plonka, A.
Coefficients of tracer transfer through membranes. Pt. 7.
Poland.
Dorabialska, A, Hawlicka, E, and Plonka, A.
1974.
"Coefficients of tracer transfer through membranes. Pt. 7."
Poland.
@misc{etde_5267622,
title = {Coefficients of tracer transfer through membranes. Pt. 7}
author = {Dorabialska, A, Hawlicka, E, and Plonka, A}
abstractNote = {The doubled value of the tracer transfer coefficient in the self-diffusion process is equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The fundamental phenomenological relation can be deduced for the coefficients of tracer transfer between two phases of electrolyte solutions spearated by a virtual boundary. Indeed, the doubled value of the tracer mobility in the self-diffusion experiment (no concentration gradient of the traced substance) is equal to the sum of the tracer mobilities in the diffusion (tracer movement along with the concentration gradient of the traced substance) and interfusion experiments (tracer movement against the concentration gradient of the traced substance). Thus the doubled value of the tracer transfer coefficient in the self-diffusion process should be equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The experimental verification of that fundamental relation is presented.}
journal = []
volume = {19:1}
journal type = {AC}
place = {Poland}
year = {1974}
month = {Jan}
}
title = {Coefficients of tracer transfer through membranes. Pt. 7}
author = {Dorabialska, A, Hawlicka, E, and Plonka, A}
abstractNote = {The doubled value of the tracer transfer coefficient in the self-diffusion process is equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The fundamental phenomenological relation can be deduced for the coefficients of tracer transfer between two phases of electrolyte solutions spearated by a virtual boundary. Indeed, the doubled value of the tracer mobility in the self-diffusion experiment (no concentration gradient of the traced substance) is equal to the sum of the tracer mobilities in the diffusion (tracer movement along with the concentration gradient of the traced substance) and interfusion experiments (tracer movement against the concentration gradient of the traced substance). Thus the doubled value of the tracer transfer coefficient in the self-diffusion process should be equal to the sum of tracer transfer coefficients in the diffusion and interfusion processes. The experimental verification of that fundamental relation is presented.}
journal = []
volume = {19:1}
journal type = {AC}
place = {Poland}
year = {1974}
month = {Jan}
}