Sodium hydroxide

A newer version of this article is available: see Sodium hydroxide at Schools Wikipedia

Properties

General

Name Sodium hydroxide
Chemical formula Na OH
Appearance White solid

Physical

Formula weight 40.0 amu
Melting point 596 K (323 °C)
Boiling point 1663 K (1390 °C)
Density 2.1 ×10³ kg/m³
Crystal structure ?
Solubility ?

Thermochemistry

Δ_fH⁰_gas -197.76 kJ/mol
Δ_fH⁰_liquid -416.88 kJ/mol
Δ_fH⁰_solid -425.93 kJ/mol
S⁰_{gas, 1 bar} 228.47 J/mol·K
S⁰_{liquid, 1 bar} 75.91 J/mol·K
S⁰_solid 64.46 J/mol·K

Safety

Ingestion May cause severe and permanent damage to the GI system.
Inhalation Irritation for low exposures, may be harmful or fatal in higher doses.
Skin Dangerous. Symptoms range from mild irritation to nasty ulcers.
Eyes Dangerous. May cause burns, damage to cornea or conjuctiva.
More info Hazardous Chemical Database

SI units were used where possible. Unless otherwise stated, standard conditions were used.

Disclaimer and references

**Properties**
General
Name	Sodium hydroxide
Chemical formula	Na OH
Appearance	White solid
Physical
Formula weight	40.0 amu
Melting point	596 K (323 °C)
Boiling point	1663 K (1390 °C)
Density	2.1 ×10³ kg/m³
Crystal structure	?
Solubility	?
Thermochemistry
Δ_fH⁰_gas	-197.76 kJ/mol
Δ_fH⁰_liquid	-416.88 kJ/mol
Δ_fH⁰_solid	-425.93 kJ/mol
S⁰_{gas, 1 bar}	228.47 J/mol·K
S⁰_{liquid, 1 bar}	75.91 J/mol·K
S⁰_solid	64.46 J/mol·K
Safety
Ingestion	May cause severe and permanent damage to the GI system.
Inhalation	Irritation for low exposures, may be harmful or fatal in higher doses.
Skin	Dangerous. Symptoms range from mild irritation to nasty ulcers.
Eyes	Dangerous. May cause burns, damage to cornea or conjuctiva.
More info	Hazardous Chemical Database
SI units were used where possible. Unless otherwise stated, standard conditions were used. Disclaimer and references

Sodium hydroxide (Na OH), also known as caustic soda or lye in North America, is a caustic metallic base used in industry (mostly as a strong chemical base) in the manufacture of paper, textiles, and detergents.

Sodium hydroxide is occasionally used in the home as an agent for unclogging stuck drains, but it is highly caustic and has a high danger of causing chemical burns, permanent injury or scarring, and blindness, due to its high reactivity. Therefore, it should be stored separately.

When sodium hydroxide reacts with water and fluids, it can become hot enough to cause fires. For this reason, it is important to have the proper type of chemical fire extinguisher on hand before working with sodium hydroxide. Store this product in an airtight container to prevent NaOH from absorbing water and CO2 from the air. It can create enough heat to ignite flammables (such as alcohols), so add slowly in biodiesel processor.

Sodium hydroxide is manufactured by electrolysis of an aqueous solution of sodium chloride. It is a by-product of the process that is used to make chlorine.

A solution of a small portion of lye diluted in water is used in the traditional method of making a pretzel.

Both NaOH and KOH are commonly called "lye" in North America, which can lead to some confusion. However, most commercially availalable lye is NaOH.

Lye is also a main ingredient in the making of soap. NaOH is now most commonly used for this, but traditionally KOH was used because it was easier to obtain.

Biodiesel

For biodiesel, this is one of the main reactantss, like catalyst. This only works with anhydrous sodium hydroxide, because water turns biodiesel into soap (saponification).

However, it is more used than potassium hydroxide, KOH, because it dissolves in methanol much more easily than KOH, and it doesn't "clump".

Another alternative in the future is to use sodium silicate instead of sodium hydroxide.

Lutefisk

Lye is also used when preparing the Swedish delicacy known as Lutefisk, which is basically cod jellied in lye.