Difference between revisions of "Dust"

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(→‎Dust Composition: formatting table.)
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! Molecule !! Chemical Name !! Average Martian Soil !! Uses
 
! Molecule !! Chemical Name !! Average Martian Soil !! Uses
 
|-
 
|-
| SiO2 || Silicon Dioxide || 45.41 %. || Glass
+
| SiO2 || Silicon Dioxide || style="text-align: right;" 45.41 %. || Glass
 
|-
 
|-
| TiO2 || Titanium(II) oxide || 0.90 || Paint and cosmetics
+
| TiO2 || Titanium(II) oxide || style="text-align: right;" 0.90 || Paint and cosmetics
 
|-
 
|-
| AlO3 || Alumina or aluminum oxide || 9.71 || Ceramics
+
| AlO3 || Alumina or aluminum oxide || style="text-align: right;" 9.71 || Ceramics
 
|-
 
|-
| FeO || Iron oxide or rust || 16.73 || Iron and Steel
+
| FeO || Iron oxide or rust || style="text-align: right;" 16.73 || Iron and Steel
 
|-
 
|-
| MnO || Manganese(II) oxide || 0.33 || Fertilizer and food additives
+
| MnO || Manganese(II) oxide || style="text-align: right;" 0.33 || Fertilizer and food additives
 
|-
 
|-
| MgO || Magnesium oxide or magnesiae || 8.35 || Antacid & alloys
+
| MgO || Magnesium oxide or magnesiae || style="text-align: right;" 8.35 || Antacid & alloys
 
|-
 
|-
| CaO || Calcium oxide or quicklime || 6.37 || Cement, paper, steel
+
| CaO || Calcium oxide or quicklime || style="text-align: right;" 6.37 || Cement, paper, steel
 
|-
 
|-
| Na2O || Sodium oxide || 2.73 || Glass & ceramics
+
| Na2O || Sodium oxide || style="text-align: right;" 2.73 || Glass & ceramics
 
|-
 
|-
| K2O || Potassium oxide or pure potash || 0.44 || Fertilizer, glass, soap
+
| K2O || Potassium oxide or pure potash || style="text-align: right;" 0.44 || Fertilizer, glass, soap
 
|-
 
|-
| SO3 || Sulphur trioxide || 6.16 || Sulphuric acid
+
| SO3 || Sulphur trioxide || style="text-align: right;" 6.16 || Sulphuric acid
 
|-
 
|-
| Cl || Chlorine || 0.68 || Chemical processes as a strong oxidizer
+
| Cl || Chlorine || style="text-align: right;" 0.68 || Chemical processes as a strong oxidizer
 
|-
 
|-
|  ||         Total || 97.81 || Remainder unidentified
+
|  ||       <b> Total</b> || style="text-align: right;" <b>97.81</b> || Remainder unidentified
 
|}
 
|}
  

Revision as of 15:34, 5 July 2024

On Earth, dust is washed out of the air by rain, and is cemented together to form rocks, or deposited as mud. On Mars, this does not happen, and dust is blown about for long periods. Dust Storms distribute this dust world wide.

Dust particles are very small, called 'fines', and would irritate human lungs (even if the dust didn't contain perchlorates, which are poisonous).

Dust Composition

The Martian dust is weathered from primarily volcanic rocks. This can be from mechanical weathering of basalts. But when basalt weathers in water if forms feldspar, and some dust is composed of feldspars.

Volumetrically Martian dust is dominated by composites of plagioclase feldspar and zeolite.

A small percentage of the dust is from powdered salts, of which the most dangerous is Perchlorate ( ClO-4 ), which is toxic.

Elemental Dust Composition Using Alpha-Particle X-ray Spectrometer [1]
Molecule Chemical Name Average Martian Soil Uses
SiO2 Silicon Dioxide style="text-align: right;" 45.41 %. Glass
TiO2 Titanium(II) oxide style="text-align: right;" 0.90 Paint and cosmetics
AlO3 Alumina or aluminum oxide style="text-align: right;" 9.71 Ceramics
FeO Iron oxide or rust style="text-align: right;" 16.73 Iron and Steel
MnO Manganese(II) oxide style="text-align: right;" 0.33 Fertilizer and food additives
MgO Magnesium oxide or magnesiae style="text-align: right;" 8.35 Antacid & alloys
CaO Calcium oxide or quicklime style="text-align: right;" 6.37 Cement, paper, steel
Na2O Sodium oxide style="text-align: right;" 2.73 Glass & ceramics
K2O Potassium oxide or pure potash style="text-align: right;" 0.44 Fertilizer, glass, soap
SO3 Sulphur trioxide style="text-align: right;" 6.16 Sulphuric acid
Cl Chlorine style="text-align: right;" 0.68 Chemical processes as a strong oxidizer
Total style="text-align: right;" 97.81 Remainder unidentified

Dust Size

These are generally very small, only 3 micrometers in diameter. This is so small it will enter lungs and irritate them, being difficult for the cilia to remove. Good dust filters will be wanted in a Martian base, and waterfalls and pools may be wanted to help remove dust that enters a habitat.

Dust this small will wear moving parts. Any moving parts outside must be carefully sealed to prevent dust from getting into the joints.


References