The following applies to all cases: OpenFoam version 8.

- groovyBC is used for the boundary conditions. 
This is not necessary, but it makes the configuration easier and offers more setting options
(https://openfoamwiki.net/index.php/Contrib/swak4Foam). If you do not want to or can not use it, 
please change the files in the 0-folder accordingly.

- The step sizes can be adjusted by the user. 
Small step sizes should be set at the beginning of a simulation and can be increased
as the simulation progresses. 



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In this readme, the preconfigured cases are linked to the sections and figures of the paper.
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1_p_dynamic
	5.1 Pressure Propagation Analysis: Simulated gas pressure propagation (Fig. 4 A)
2_p_constant
	5.1 Pressure Propagation Analysis: Simulated gas pressure propagation (Fig. 4 B)
3_parametric-study
	1_absorption
		1_h: 5.2.1 Absorption Analysis: Variation of heat transfer coefficient (Fig. 5 C)
		2_p: 5.2.1 Absorption Analysis: Variation of inlet pressure (Fig. 5 B)
		3_T0: 5.2.1 Absorption Analysis: Variation of initial and coolant temperature (Fig. 5 A)
		4_porosity: 5.2.1 Absorption Analysis: Variation of porosity (Fig. 6 A)
		5_permeability: 5.2.1 Absorption Analysis: Variation of permeability(Fig. 6 B)
		6_deltaW: 5.2.1 Absorption Analysis: Variation of pipe's wall thickness (Fig. 6 C)
	2_desorption
		1_h: 5.2.2 Absorption Analysis: Variation of heat transfer coefficient (Fig. 7 C)
		2_p: 5.2.2 Absorption Analysis: Variation of inlet pressure (Fig. 7 B)
		3_T0: 5.2.2 Absorption Analysis: Variation of initial and coolant temperature (Fig. 7 A)
		4_porosity: 5.2.2 Absorption Analysis: Variation of porosity (Fig. 8 A)
		5_permeability: 5.2.2 Absorption Analysis: Variation of permeability(Fig. 8 B)
		6_deltaW: 5.2.2 Absorption Analysis: Variation of pipe's wall thickness (Fig. 8 C)
4_materialComparison
	1_HydralloyC5: 5.3.1 Material Comparison via Absorption Reaction(Fig. 9)
	2_LaNi5: 5.3.1 Material Comparison via Absorption Reaction (Fig. 9)
5_geometricComparison
	1_HydralloyC5_full: 5.3.2 Geometry Comparison via Desorption Reaction (Fig. 10)
	2_HydralloyC5_hollow: 5.3.2 Geometry Comparison via Desorption Reaction (Fig. 10)
6_dynamic
	1_HydralloyC5: Comparison of Cyclical Behavior (Fig. 11)
	2_LaNi5: Comparison of Cyclical Behavior (Fig. 11)
	