Ammonium Chloride
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| Chemical formula | NH4Cl |
|---|---|
| OTP appearance | white/clear crystals |
| Index of refraction | 1.642 |
| Molar Mass(g/mol) | 53.49 |
| Density(g/cc) | 1.5274 |
| Melting Point(°C) | 338(decomp) |
| Boiling Point(°C) | 520 |
| Solubility in water(g/L) | 383 |
| Solubility in ethanol(g/L) | 4.25 |
| Solubility in methanol(g/L) | 23.7 |
| Solubility in ether(g/L) | insoluble |
| Solubility in acetone(g/L) | sparingly |
| NFPA 704 |  0
2
0
|
Uses
Other
- Feedstock for methylamine
- Precursor for copper (II) chloride, precursor for sulfuric acid
- Frigorific mixture component
- Flux for soldering
- Pharm: expectorant
- electrolyte in many voltaic cells
Natural occurrence
- Does occur naturally as the mineral sal ammoniac
Hazards
Production
Extraction
Synthesis
via sodium chloride
Bubble carbon dioxide through a solution of sodium chloride, ammonia, and water, producing ammonium chloride and sodium bicarbonate[1][2][3]:
- NaCl(aq) + NH3(aq) + H2O(l) + CO2(g) → NaHCO3(s) + NH4Cl(aq)
- Prepare an ammonia solution with a density of 0.907 (25% w/w) at 20°C
- Heat the solution to 40°C
- Add an excess of Salt
- Decant/filter solution
- Discard residue (undissolved salt)
- Solution is NH4OH + NaCl + NH4Cl + NaOH
- Chill to -11°C
- Precipitate is ammonium chloride (Approximately 10% w/w of the saturated salt solution)
- Solution is NH4OH + NaCl + NaOH with some remaining dissolved ammonium chloride, and weighs approximately 90% of the original saturated salt solution.
via hydrochloric acid
Combine ammonia and hydrochloric acid
- NH3 + HCl → NH4Cl
via calcium chloride
(or magnesium chloride)
- Bubble carbon dioxide through a solution of ammonia and magnesium or calcium chloride, precipitating magnesium or calcium carbonate:
- 2 NH3 + CaCl2 + H2O + CO2 → 2 NH4Cl + CaCO3
- Filter
- Discard residue
- Evaporate filtrate to crystallize ammonium chloride
Testing
Purification
Sublimation/dissociation
This could also replace the evaporation iterations in the synthesis. Ammonium chloride dissociates (reversibly) into ammonia and hydrogen chloride at 337.6 °C. If the gasses are cooled on a surface, they react to re-form ammonium chloride, so placing a cold boiling flask over a beaker of solid ammonium chloride, then heating the beaker would transport just the ammonium chloride to the bottom of the flask.
Storage
Disposal
See Also
- US patent 1710636 "Process for manufacturing sodium bicarbonate and ammonium chloride"
Link courtesy Google
References
- ↑ US patent 2622004 "Cyclic process for production of sodium bicarbonate and ammonium chloride"
Link courtesy Google - ↑ US patent 2666686 "Production of sodium bicarbonate and ammonium chloride in modified ammonia-soda type process"
Link courtesy Google> - ↑ US patent 3121610 "Process for the preparation of ammonium chloride from the liquor of an ammonia-soda process"
Link courtesy Google