Sodium sulfate heptahydrate

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Author: Amelie Stahlbuhk
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Sodium sulfate heptahydrate
Mineralogical name
Chemical name sodium sulfate heptahydrate
Trivial name
Chemical formula Na2SO4•7H2O
Other forms Na2SO4•10H2O (Mirabilite)
Crystal system
Crystal structure
Deliquescence humidity 20°C 89.1 %
Solubility (g/l) at 20°C 3.143 mol/kg
Density (g/cm³)
Molar volume
Molar weight 268,14 g/mol
Transparency
Cleavage
Crystal habit
Twinning
Phase transition
Chemical behavior
Comments
Crystal Optics
Refractive Indices
Birefringence
Optical Orientation
Pleochroism
Dispersion
Used Literature
[Steiger.etal:2008]Title: Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress
Author: Steiger, Michael; Asmussen, Sönke
Link to Google Scholar


Introduction[edit]

Sodium sulfate heptahydrate is a metastable phase of sodium sulfate. Its formation can be observed during the rapid cooling of a solution that is saturated at 40 °C [Gans:1978]Title: Thermodynamic stability of sodium sulfate heptahydrate
Author: Gans, W.
Link to Google Scholar

Solubility[edit]

Figure 1: Solubility of Na2SO4 in water, according to : [Steiger.etal:2008]Title: Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress
Author: Steiger, Michael; Asmussen, Sönke
Link to Google Scholar



The solubility of the heptahydrate at 20 °C is 3.145 mol/kg [Steiger.etal:2008]Title: Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress
Author: Steiger, Michael; Asmussen, Sönke
Link to Google Scholar
. Figure 1 indicates that, eventhough it is a metastable phase, the heptahydrate is more relevant at lower temperatures.

Hygroscopicity[edit]


Figure 2:Deliquescence of Na2SO4, according to: [Steiger.etal:2008]Title: Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress
Author: Steiger, Michael; Asmussen, Sönke
Link to Google Scholar


At 20 °C the deliquescence humidity lies at 89.1 %. The values are higher at lower temperatures (table 1).


Table 1: Deliquescnece humidity of sodium sulfate heptahydrate at different round temperatures, according to [Steiger.etal:2008]Title: Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress
Author: Steiger, Michael; Asmussen, Sönke
Link to Google Scholar
0°C 10°C 20°C
96.1%r.h. 93.3%r.h. 89.1%r.h.


The importance of the heptahydrate in the damage process[edit]

For more informations see [Saidow:2012]The entry doesn't exist yet.

Weblinks[edit]


Literature[edit]

[Gans:1978]Gans, W. (1978): Thermodynamic stability of sodium sulfate heptahydrate. In: Zeitschrift für Physikalische Chemie, 111 (1), 39-46, UrlLink to Google Scholar
[Saidov:2012]Saidov, Tamerlan Adamovich (2012): Sodium sulfate heptahydrate in weathering phenomena of porous materials. dissertation, Technische Universiteit Eindhoven, UrlLink to Google Scholar
[Steiger.etal:2008]Steiger, Michael; Asmussen, Sönke (2008): Crystallization of sodium sulfate phases in porous materials: The phase diagram Na2SO4–H2O and the generation of stress. In: Geochimica et Cosmochimica Acta, 72 (17), 4291-4306, UrlLink to Google Scholar