4. B modeling#

4.1. Characteristics of modeling#

We use Granger’s law of diffusion

4.2. Characteristics of the mesh#

The test piece is meshed using 80 QUAD4 evenly distributed. There is only one element in the height.

Number of knots: 162

Number of meshes and type: 80 QUAD4

4.3. Characteristics of time discretization#

Initial Instant ( \(s\) )) **	Instant Final (:math:`s`)	Number of time steps
0	3600	10
3600	259 200	10
259 200	2 419 200	10
2 419 200	39 420 000	10
39,420,000	94,608,000	10
94 608 000	1 57 680 000	10

4.4. Tested sizes and results#

Water concentration at point \(x\mathrm{=}0.0\):

Identification	Reference	Aster	\(\text{\%}\) difference
after 1 hour	128.80	128.80	2.21 10-14
after 3 days	128.80	128.80	-2.21 10-14
after 28 days	128.80	128.80	-3.67 10-5
after 1.25 years	117.49	117.49	117.76	0.231
after 3 years	105.06	105.38	0.307
after 5 years	96.77	97.09	0.332

Water concentration at point \(x\mathrm{=}0.04\):

Identification	Reference	Aster	\(\text{\%}\) difference
after 1 hour	128.80	128.80	1.31 10-13
after 3 days	128.80	128.80	-1.77 10-13
after 28 days	128.61	128.66	0.038
after 1.25 years	117.74	117.74	112.35	0.543
after 3 years	99.43	100.06	0.634
after 5 years	91.39	91.99	0.661

Water concentration at point \(x\mathrm{=}0.06\):

Identification	Reference	Aster	\(\text{\%}\) difference
after 1 hour	128.80	128.80	2.53 10-11
after 3 days	128.80	128.80	0.002
after 28 days	124.98	125.67	0.552
after 1.25 years	101.32	102.42	1.089
after 3 years	89.60	90.64	1.158
after 5 years	82.33	83.27	1.140

4.5. Comments#

We find exactly the same solution as Mensi’s law.