M·C, IST: absorption parameters

Absorption parameters (ver. 1)

Computes, from experimental data, the diffusion and relaxation parameters for absorption.

2025.Feb.21 21:35:08

Data: X

Time (minutes). •

Data: Y

Swelling fraction. •

Constants

•

Particle diameter (fixed). •

Parameters (initial guess)

•

Parameters x_F, k_F, k_R, to be found. •

scale, tol

(NM = Nelder-Mead)

NM: scale for variables; tolerance.

itmax, iprt

NM: max. iterations; intermediate test. •

Mode

audit solve

Mode: audit (verify) or solve. •

Show values ?

Shows the graph coordinates.

Computes, from experimental data, vectors X and Y, the parameters, P, of a given function, y = y(x; C, P), with constant(s) C. The total residual (sum of absolutes) is minimized via the Nelder-Mead (NM) algorithm.

In this plate, the problem is (super-)absorption: 'Data X', time (x, min); 'Data Y', fraction swelling (y); 'constant(s)', particle diameter (m); and 'parameters', P = (x_F, .k_F, .k_R), i.e., Fickian diffusion weight, Fickian diffusion rate, and relaxation rate. (For the base problem, a final residual of ~0.05 is expected.)

The graph shows: (red) the experimental points connected by a broken line; and (green) the corresponding computed points.

References:

Plate: SuperabsorbentParams

• Berens, A. R., H. B. Hopfenberg, 1978, "Diffusion and relaxation in glassy polymer powders: 2. Separation of diffusion and relaxation parameters", Polymer, 19(5):489–496. (Google: A. R. Berens H. B. Hopfenberg 1978 Polymer)

• Wikipedia: Nelder-Mead method

• 1713-05-07: Clairaut, Alexis Claude (1765-05-17).

http://web.ist.utl.pt/~mcasquilho/compute/com/Fx-absorptionParams1.php
Created: 2016-05-08 — Last modified: 2016-05-26