Difference between revisions of "Sodium chloride" - New World Encyclopedia

Latest revision as of 15:04, 27 April 2023

Sodium chloride

General
Systematic name	Sodium chloride
Other names	Common salt, halite, table salt
Molecular formula	Na Cl
Molar mass	58.442 g/mol
Appearance	white and crystalline
CAS number	[7647-14-5]
Properties
Density and phase	2.16 g/cm³, solid
Solubility in water	35.9 g/100 ml (25 °C)
Melting point	801 °C (1074 K)
Boiling point	1465 °C (1738 K)
Structure
Coordination geometry	Octahedral
Crystal structure	Face centered cubic
Hazards
MSDS	External MSDS
Main hazards	Irritant and may sting
NFPA 704	0 0 0
Flash point	Non-flammable
R/S statement	R: none S: none
RTECS number	VZ4725000
Supplementary data
Structure and properties	n, ε_r, etc.
Thermodynamic data	Phase behavior Solid, liquid, gas
Spectral data	UV, IR, NMR, MS
Related compounds
Other anions	NaF, NaBr, NaI
Other cations	LiCl, KCl, RbCl, CsCl, MgCl₂, CaCl₂
Related salts	Sodium acetate
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)

Sodium chloride, also known as common salt or table salt, is a chemical compound with the formula Na Cl. Its mineral form is called halite. It is highly soluble in water and is the salt most responsible for the salinity of the ocean and of the extracellular fluid of many multicellular organisms.

As the main ingredient in edible salt, it has long been used as a food seasoning and preservative. In its latter capacity, it reduced human dependence on the seasonal availability of food and allowed travel over long distances. In this manner, it served as a foundation for the spread of civilization.

It is currently available quite inexpensively and in large quantities. Historically, however, it was difficult to obtain and was a highly valued trade item. Until the 1900s, it was one of the prime movers of national economies and wars. It was controlled by governments and taxed as far back as the twentieth century B.C.E. in China.

Mounds of salt at Salar de Uyuni, Bolivia

History

Salt's preservative ability was a foundation of civilization. It eliminated dependency on the seasonal availability of food and allowed travel over long distances. By the Middle Ages, caravans consisting of as many as forty thousand camels traversed four hundred miles of the Sahara bearing salt, sometimes trading it for slaves.

During his protests in India, Gandhi led the famous salt march to challenge the British-imposed monopoly on salt.

Religious references

There are 35 references (verses) to salt in the Bible (King James Version), the most familiar probably being the story of Lot's wife, who was turned into a pillar of salt when she disobeyed the angels and looked back at the wicked city of Sodom (Genesis 19:26). In the Sermon on the Mount, Jesus also referred to his followers as the "salt of the earth." The apostle Paul also encouraged Christians to "let your conversation be always full of grace, seasoned with salt" (Colossians 4:6) so that when others enquire about their beliefs, the Christian's answer generates a 'thirst' to know more about Christ.

In the native Japanese religion Shinto, salt is used for ritual purification of locations and people, such as in Sumo Wrestling.

Occurrence

Historically, there have been two main sources for common salt: sea water and rock salt. Rock salt occurs in vast beds of sedimentary evaporite minerals that result from the drying up of enclosed lakes, playas, and seas. Salt beds may be up to 350 meters (meters) thick and underlie broad areas.

In the United States and Canada extensive underground beds extend from the Appalachian basin of western New York through parts of Ontario and under much of the Michigan basin. Other deposits are in Ohio, Kansas, New Mexico, Nova Scotia, and Saskatchewan. In the United Kingdom underground beds are found in Cheshire and around Droitwich.

Production

Modern rock salt mine near Mount Morris, New York

Jordanian and Israeli salt evaporation ponds at the south end of the Dead Sea

Salt is currently produced in one of two principal ways:

The evaporation of seawater or brine (salt water) from other sources, such as brine wells and salt lakes;^[1]
The mining of rock salt, called halite. This includes solution mining, in which water is used to dissolve the salt and the brine that reaches the surface is evaporated to recover the salt.

Solar evaporation of seawater

In the correct climate (one for which the ratio of evaporation to rainfall is suitably high) it is possible to use solar evaporation of sea water to produce salt. Brine is evaporated in a linked set of ponds until the solution is sufficiently concentrated by the final pond that the salt crystallizes on the pond’s floor.

Open pan production from brine

One of the traditional methods of salt production in more temperate climates is using open pans.^[2] In an open pan salt works, brine is heated in large, shallow open pans. Earliest examples date back to prehistoric times and the pans were made of ceramics known as briquetage, or lead. Later examples were made from iron. This change coincided with a change from wood to coal for the purpose of heating the brine.^[3] Brine would be pumped into the pans, and concentrated by the heat of the fire burning underneath. As crystals of salt formed these would be raked out and more brine added.

Closed pan production under vacuum

The open pan salt works has effectively been replaced with a closed pan system where the brine solution is evaporated under a partial vacuum.^[4]

Salt mines

In the second half of the nineteenth century, it became possible to mine salt, which is less expensive than evaporating seawater or extracting salt from brine. Consequently, the price of salt became more reasonable. However, extraction of salt from brine is still heavily used: for example vacuum salt produced by British Salt in Middlewich has 57 percent of the UK market ^[5] for salt used in cooking.

Characteristics

Crystal structure

The crystal structure of sodium chloride. Each atom has six nearest neighbors, with octahedral geometry.

Sodium chloride forms crystals with cubic symmetry. In these, the larger chloride ions, shown in the diagram as green spheres, are arranged in a cubic close-packing, while the smaller sodium ions, shown as blue spheres, fill the octahedral gaps between them. The ions are held together with ionic bonds.

Each type of ion is surrounded by six ions of the other kind. This same basic structure is found in many other minerals and is known as the halite structure. This arrangement is known as cubic close packed (ccp) crystal system.

Solubility

Solubility of NaCl in various solvents (grams NaCl per 100 grams of solvent at 25 °C)
H₂O	36
Liquid ammonia	3.02
Methanol	1.4
Formic acid	5.2
Sulfolane	0.005
Acetonitrile	0.0003
Acetone	0.000042
Formamide	9.4
Dimethylformamide	0.04
Reference: J. Burgess, Metal Ions in Solution (Ellis Horwood, New York, 1978), ISBN 0853120277

Uses

While most people are familiar with the many uses of salt in cooking, they might be unaware that salt is used in a plethora of applications, from manufacturing pulp and paper to setting dyes in textiles and fabric, to producing soaps and detergents. In most of Canada and the northern United States, large quantities of rock salt are used to help clear highways of ice during winter, although "road salt" loses its melting ability at temperatures below -15 °C to -20 °C (5 °F to -4 °F).

Synthetic uses

Salt is also the raw material used to produce chlorine which itself is required for the production of many modern materials including PVC and pesticides.

Industrially, elemental chlorine is usually produced by the electrolysis of sodium chloride dissolved in water. Along with chlorine, this chloralkali process yields hydrogen gas and sodium hydroxide, according to the chemical equation:

2NaCl + 2H₂O → Cl₂ + H₂ + 2NaOH

Sodium metal is produced commercially through the electrolysis of liquid sodium chloride. This is done in an apparatus called a Downs cell, in which sodium chloride is mixed with calcium chloride to lower the melting point below 700 °C. As calcium is more electropositive than sodium, no calcium will be formed at the cathode. This method is less expensive than the earlier method of electrolyzing sodium hydroxide.

Flavor enhancer

Salt is commonly used as a flavor enhancer for food and has been identified as one of the basic tastes. Unfortunately, it is often ingested well in excess of the required intake. This leads to elevated levels of blood pressure (hypertension) in some, which in turn is associated with increased risks of heart attack and stroke. Consuming salt in excess can also dehydrate the human body.

Biological uses

Many microorganisms cannot live in an overly salty environment: water is drawn out of their cells by osmosis. For this reason salt is used to preserve some foods, such as smoked bacon or fish, and can also be used to detach leeches that have attached themselves to feed. It has also been used to disinfect wounds (although it causes a great deal of pain). In medieval times, salt would be rubbed into household surfaces as a cleansing agent.

Road salt

De-icing

While salt was once a scarce commodity in history, industrialized production has now made salt plentiful. About 51 percent of the worldwide output of salt is now used to de-ice roads in freezing weather conditions. The salt may be put in grit bins and spread by winter service vehicles. This approach works because salt and water form an eutectic mixture. Under controlled lab conditions, a solution of sodium chloride in water can reduce the freezing temperature of water to -21 °C (-6 °F). In practice, however, sodium chloride can melt ice down to only about -9 °C (15 °F).

Additives

The salt sold for consumption today is usually not pure sodium chloride. In 1911, magnesium carbonate was first added to salt to make it flow more freely. In 1924, trace amounts of iodine—in the form of sodium iodide, potassium iodide or potassium iodate—were first added, creating iodized salt to reduce the incidence of simple goiter.

Salt for de-icing in the UK typically contains sodium hexacyanoferrate (II) at less than 100 parts per million as an anti-caking agent. In recent years this additive has also been used in table salt.

Common chemicals

Chemicals used in de-icing salts are mostly found to be sodium chloride (NaCl) or calcium chloride (CaCl₂). Both are similar and are effective in de-icing roads. When these chemicals are produced, they are mined/made, crushed to fine granules, then treated with an anti-caking agent. Adding salt lowers the freezing point of the water, which allows the liquid to be stable at lower temperatures and allows the ice to melt.

Alternative de-icing chemicals have also been used. Chemicals such as calcium magnesium acetate are being produced. These chemicals have few of the negative chemical effects on the environment commonly associated with NaCl and CaCl₂.

Notes

↑ Error on call to template:cite web: Parameters url and title must be specified. Salt Institute.
↑ Towards an understanding of open pan salt making. Lion Salt Works History & Heritage. Retrieved June 22, 2007.
↑ Early Salt Making. Lion Salt Works History & Heritage. Retrieved June 22, 2007.
↑ Error on call to template:cite web: Parameters url and title must be specified. Salt Institute.
↑ Error on call to template:cite web: Parameters url and title must be specifiedThe Competition Commission. . British Salt Limited and New Cheshire Salt Works Limited: A report on the acquisition by British Salt Limited of New Cheshire Salt Works Limited.

References
ISBN links support NWE through referral fees

Kurlansky, Mark. 2003. Salt: A World History. New York: Penguin. ISBN 0142001619

Multhauf, Robert P. 1996. Neptune's Gift: A History of Common Salt. Johns Hopkins Studies in the History of Technology. Baltimore, MD: Johns Hopkins University Press. ISBN 0801854695

Mineral Gallery. 2006. The Mineral Halite. Amethyst Galleries.

External links

All links retrieved January 30, 2023.

MrBloch Salt Archive
Salt: Statistics and Information. United States Geological Survey.

Credits

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The history of this article since it was imported to New World Encyclopedia:

History of "Sodium chloride"

Note: Some restrictions may apply to use of individual images which are separately licensed.

[1] Error on call to template:cite web: Parameters url and title must be specified. Salt Institute.

[2] Towards an understanding of open pan salt making. Lion Salt Works History & Heritage. Retrieved June 22, 2007.

[3] Early Salt Making. Lion Salt Works History & Heritage. Retrieved June 22, 2007.

[4] Error on call to template:cite web: Parameters url and title must be specified. Salt Institute.

[5] Error on call to template:cite web: Parameters url and title must be specifiedThe Competition Commission. . British Salt Limited and New Cheshire Salt Works Limited: A report on the acquisition by British Salt Limited of New Cheshire Salt Works Limited.

[1]

[2]

[3]

[4]

[5]

@@ Line 1: / Line 1: @@
-{{Claimed}}
+{{Copyedited}}{{Images OK}}{{Submitted}}{{Approved}}{{Paid}}
-:''For sodium in the diet, see [[Edible salt]].''
 {| class="toccolours" border="1" style="float: right; clear: right; margin: 0 0 1em 1em; border-collapse: collapse;"
@@ Line 22: / Line 21: @@
 |-
 | Appearance
-| white and crystalized
+| white and crystalline
 |-
-| [[CAS registry number|CAS number]]
+| CAS registry number|CAS number
 | [7647-14-5]
 |-
@@ Line 52: / Line 51: @@
 | [[Cubic crystal system|Face centered cubic]]
 |-
-! {{chembox header}} | Hazards <!--  Summary only- MSDS entry provides more complete information —>
+! {{chembox header}} | Hazards <!-- Summary only- MSDS entry provides more complete information —>
 |-
 | [[Material safety data sheet|MSDS]]
-| [[Sodium chloride (data page)#Material Safety Data Sheet|External MSDS]] <!-- please replace with proper link—>
+| External MSDS
 |-
-| Main [[Worker safety and health|hazard]]s
+| Main hazards
-| Irritant and Might Sting
+| Irritant and may sting
 |-
-| [[NFPA 704]]
+| NFPA 704
 | {{NFPA 704}}
 |-
@@ Line 66: / Line 65: @@
 | Non-flammable
 |-
-| [[Risk and Safety Statements|R/S statement]]
+| R/S statement
-| [[List of R-phrases|R]]: none <br/> [[List of S-phrases|S]]: none
+| R: none <br/> S: none
 |-
 | [[RTECS]] number
 | VZ4725000
 |-
-! {{chembox header}} | [[Sodium chloride (data page)|Supplementary data page]]
+! {{chembox header}} | Supplementary data
 |-
-| [[Sodium chloride (data page)#Structure and properties|Structure and<br/>properties]]
+| Structure and<br/>properties
 | [[Refractive index|''n'']], [[Dielectric constant|ε<sub>r</sub>]], etc.
 |-
-| [[Sodium chloride (data page)#Thermodynamic properties|Thermodynamic<br/>data]]
+| Thermodynamic<br/>data
-| Phase behaviour<br/>Solid, liquid, gas
+| Phase behavior<br/>Solid, liquid, gas
 |-
-| [[Sodium chloride (data page)#Spectral data|Spectral data]]
+| Spectral data
 | [[UV/VIS spectroscopy|UV]], [[Infrared spectroscopy|IR]], [[NMR spectroscopy|NMR]], [[Mass spectrometry|MS]]
 |-
@@ Line 94: / Line 93: @@
 | [[Sodium acetate]]
 |-
-| {{chembox header}} | <small>Except where noted otherwise, data are given for<br/> materials in their [[standard state|standard state (at 25 °C, 100 kPa)]]<br/>[[wikipedia:Chemical infobox|Infobox disclaimer and references]]</small>
+| {{chembox header}} | <small>Except where noted otherwise, data are given for<br/> materials in their [[standard state|standard state (at 25 °C, 100 kPa)]]</small>
 |-
 |}
-[[Image:Salt mine 0096.jpg|thumb|right|250px|Modern rock salt mine near [[Mount Morris, New York]]]]
+'''Sodium chloride''', also known as '''common salt''' or '''table salt''', is a [[chemical compound]] with the [[chemical formula|formula]] [[Sodium|Na]][[Chlorine|Cl]]. Its mineral form is called '''[[halite]]'''. It is highly soluble in [[water]] and is the [[salt]] most responsible for the salinity of the [[ocean]] and of the [[extracellular fluid]] of many multicellular [[organism]]s.
-[[Image:Dead-Sea---Salt-Evaporation-Ponds.jpg|thumb|right|175px|[[Jordan]]ian and [[Israel]]i salt evaporation ponds at the south end of the [[Dead Sea]]]]
-'''Sodium chloride''', also known as '''common salt''', '''table salt''', or [[halite]], is a [[chemical compound]] with the [[chemical formula|formula]] [[Sodium|Na]][[Chlorine|Cl]].  Sodium chloride is the [[salt]] most responsible for the salinity of the [[ocean]] and of the [[extracellular fluid]] of many multicellular [[organism]]s. As the main ingredient in [[edible salt]], it is commonly used as a [[condiment]] and food [[preservative]].
+As the main ingredient in [[edible salt]], it has long been used as a food seasoning and [[preservative]]. In its latter capacity, it reduced human dependence on the seasonal availability of food and allowed travel over long distances. In this manner, it served as a foundation for the spread of [[civilization]].
+{{toc}}
+It is currently available quite inexpensively and in large quantities. Historically, however, it was difficult to obtain and was a highly valued trade item. Until the 1900s, it was one of the prime movers of national economies and wars. It was controlled by governments and [[tax]]ed as far back as the twentieth century B.C.E.. in [[China]].
-[[Image:Piles of Salt Salar de Uyuni Bolivia Luca Galuzzi 2006 a.jpg|thumb|left|250px|Mounds of salt, [[Salar de Uyuni]], [[Bolivia]].]]
+[[Image:Piles of Salt Salar de Uyuni Bolivia Luca Galuzzi 2006 a.jpg|thumb|right|250px|Mounds of salt at Salar de Uyuni, [[Bolivia]]]]
 == History ==
-: ''See main article: [[History of salt]]''
+Salt's preservative ability was a foundation of [[civilization]]. It eliminated dependency on the seasonal availability of food and allowed travel over long distances. By the [[Middle Ages]], [[Camel train|caravan]]s consisting of as many as forty thousand [[camel]]s traversed four hundred miles of the [[Sahara Desert|Sahara]] bearing salt, sometimes trading it for [[Slavery|slaves]].
+During his protests in [[India]], [[Mohandas K. Gandhi|Gandhi]] led the famous salt march to challenge the [[British Raj|British]]-imposed monopoly on salt.
+===Religious references===
-Salt's preservative ability was a foundation of [[civilization]]. It eliminated dependency on the seasonal availability of food and allowed travel over long distances. By the [[Middle Ages]], [[Camel train|caravan]]s consisting of as many as forty thousand [[camel]]s traversed four hundred miles of the [[Sahara]] bearing salt, sometimes trading it for [[Slavery|slaves]].{{Fact|date=February 2007}}
+There are 35 references (verses) to salt in the [[Bible]] (King James Version), the most familiar probably being the story of [[Lot (biblical)|Lot's]] wife, who was turned into a pillar of salt when she disobeyed the [[angel]]s and looked back at the wicked city of [[Sodom]] ([[Genesis]] 19:26). In the [[Sermon on the Mount]], [[Jesus of Nazareth|Jesus]] also referred to his followers as the "salt of the earth." The apostle [[Paul of Tarsus|Paul]] also encouraged Christians to "let your conversation be always full of grace, seasoned with salt" (Colossians 4:6) so that when others enquire about their beliefs, the Christian's answer generates a 'thirst' to know more about Christ.
-During his protests in [[India]], [[Gandhi]] led the famous salt march to challenge the [[British Raj|British]]-imposed monopoly on salt.{{Fact|date=February 2007}}
+In the native Japanese religion [[Shinto]], salt is used for ritual purification of locations and people, such as in [[Sumo Wrestling]].
-== Sources ==
+== Occurrence ==
-Historically, there have been two main sources for common salt: [[sea]] water and [[rock salt]]. Rock salt occurs in vast beds of [[sedimentary]] evaporite minerals that result from the drying up of [[endorheic|enclosed]] lakes, [[playa]]s, and seas. Salt beds may be up to 350 meters (m) thick and underlie broad areas. In the [[United States]] and [[Canada]] extensive underground beds extend from the [[Appalachian]] basin of western [[New York]] through parts of [[Ontario]] and under much of the [[Michigan]] basin. Other deposits are in [[Ohio]], [[Kansas]], [[New Mexico]], [[Nova Scotia]], and [[Saskatchewan]]. In the [[United Kingdom]] underground beds are found in [[Cheshire]] and around [[Droitwich Spa|Droitwich]].
+Historically, there have been two main sources for common salt: [[sea]] water and [[rock salt]]. Rock salt occurs in vast beds of [[sedimentary]] evaporite minerals that result from the drying up of [[endorheic|enclosed]] lakes, [[playa]]s, and seas. Salt beds may be up to 350 meters (meters) thick and underlie broad areas.
+In the [[United States]] and [[Canada]] extensive underground beds extend from the [[Appalachian Mountains|Appalachian]] basin of western [[New York]] through parts of [[Ontario]] and under much of the [[Michigan]] basin. Other deposits are in [[Ohio]], [[Kansas]], [[New Mexico]], [[Nova Scotia]], and [[Saskatchewan]]. In the [[United Kingdom]] underground beds are found in Cheshire and around Droitwich.
+==Production ==
+[[Image:Salt mine 0096.jpg|thumb|right|250px|Modern rock salt mine near Mount Morris, New York]]
+[[Image:Dead-Sea---Salt-Evaporation-Ponds.jpg|thumb|right|175px|[[Jordan]]ian and [[Israel]]i salt evaporation ponds at the south end of the [[Dead Sea]]]]
-Salt is extracted from underground beds either by [[mining]] or by [[solution mining]] using [[water]] or [[brine]]. In solution mining the salt reaches the surface as brine, which is then turned into salt crystals by evaporation.
+Salt is currently produced in one of two principal ways:
+* The [[evaporation]] of [[seawater]] or [[brine]] (salt water) from other sources, such as brine wells and [[salt lake (geography)|salt lake]]s;<ref>{{cite web | title=Solar Salt production | work=Salt Institute | url= }}</ref>
+* The [[mining]] of rock salt, called [[halite]]. This includes solution mining, in which water is used to dissolve the salt and the brine that reaches the surface is evaporated to recover the salt.
-==Crystal structure==
+=== Solar evaporation of seawater ===
-[[Image:NaCl-estructura cristalina.svg|200px|thumb|left|The crystal structure of sodium chloride. Each atom has six nearest neighbors, with octahedral geometry.]]
-Sodium chloride forms [[crystal]]s with cubic [[symmetry]]. In these, the larger [[Chlorine|chloride]] [[ion]]s, shown to the right as green spheres, are arranged in a cubic [[close-packing]], while the smaller [[sodium]] ions, shown to the right as blue spheres, fill the octahedral gaps between them.
+In the correct climate (one for which the ratio of evaporation to rainfall is suitably high) it is possible to use solar evaporation of sea water to produce salt. Brine is evaporated in a linked set of ponds until the solution is sufficiently concentrated by the final pond that the salt crystallizes on the pond’s floor.
-Each ion is surrounded by six ions of the other kind.  This same basic structure is found in many other [[mineral]]s, and is known as the [[halite]] structure. This arrangement is known as ''[[cubic crystal system|cubic close packed]]'' (ccp).
+=== Open pan production from brine ===
-It is held together with an [[ionic bond]] and [[electrostatic force]]s.
+One of the traditional methods of salt production in more temperate climates is using open pans.<ref>{{cite web | title=Towards an understanding of open pan salt making
+ | work=Lion Salt Works History &amp; Heritage | url=http://www.lionsaltworkstrust.co.uk/history_heritage_salt_making.asp | accessdate=June 22, 2007}}</ref> In an open pan salt works, brine is heated in large, shallow open pans. Earliest examples date back to prehistoric times and the pans were made of ceramics known as [[briquetage]], or [[lead]]. Later examples were made from iron. This change coincided with a change from wood to coal for the purpose of heating the brine.<ref>{{cite web | title=Early Salt Making | work=Lion Salt Works History &amp; Heritage | url=http://www.lionsaltworkstrust.co.uk/history_heritage_salt_making.asp | accessdate=June 22, 2007}}</ref> Brine would be pumped into the pans, and concentrated by the heat of the fire burning underneath. As crystals of salt formed these would be raked out and more brine added.
-Salt is also known in the chemical world as a nuclear additive.
+=== Closed pan production under vacuum ===
-==In religion==
+The open pan salt works has effectively been replaced with a closed pan system where the brine solution is evaporated under a partial vacuum.<ref>{{cite web | title=Vacuum Pan Salt Refining | work=Salt Institute | url= }}</ref>
-There are thirty-five references (verses) to salt in the [[Bible]] (King James Version), the most familiar probably being the story of [[Lot (biblical)|Lot's]] wife, who was turned into a pillar of salt when she disobeyed the [[angel]]s and looked back at the wicked city of [[Sodom]] ([[Genesis]] 19:26). In the [[Sermon on the Mount]], [[Jesus]] also referred to his followers as the "salt of the earth." The apostle Paul also encouraged Christians to "let your conversation be always full of grace, seasoned with salt" (Colossians 4:6) so that when others enquire about their beliefs, the Christian's answer generates a 'thirst' to know more about Christ.
-In the native Japanese religion [[Shinto]], salt is used for ritual purification of locations and people, such as in [[Sumo Wrestling]].
+=== Salt mines ===
-==Production and use==
+In the second half of the nineteenth century, it became possible to [[mining|mine]] salt, which is less expensive than evaporating seawater or extracting salt from brine. Consequently, the price of salt became more reasonable. However, extraction of salt from brine is still heavily used: for example vacuum salt produced by British Salt in Middlewich has 57 percent of the [[United Kingdom|UK]] market
-Salt is currently produced by [[evaporation]] of [[seawater]] or [[brine]] from other sources, such as brine wells and [[salt lake (geography)|salt lake]]s, and by [[salt mine|mining]] '''rock salt''', called [[halite]].
+<ref>{{cite web | title=Factors affecting rivalry in the relevant market prior to the merger | work=British Salt Limited and New Cheshire Salt Works Limited: A report on the acquisition by British Salt Limited of New Cheshire Salt Works Limited | url=| author=The Competition Commission}}</ref> for salt used in cooking.
-While most people are familiar with the many uses of salt in [[cooking]], they might be unaware that salt is used in a plethora of applications, from [[manufacturing]] pulp and paper to setting dyes in textiles and fabric, to producing [[soap]]s and [[detergent]]s. In most of Canada and the northern USA, large quantities of rock salt are used to help clear highways of ice during winter, although "Road Salt" loses its melting ability at temperatures below -15°C to -20°C (5°F to -4°F).
+== Characteristics ==
-===Synthetic uses===
+===Crystal structure===
-Salt is also the raw material used to produce [[chlorine]] which itself is required for the production of many modern materials including [[Polyvinyl chloride|PVC]] and [[pesticide]]s.
+[[Image:NaCl-estructura cristalina.svg|200px|thumb|right|The crystal structure of sodium chloride. Each atom has six nearest neighbors, with octahedral geometry.]]
-Industrially, elemental chlorine is usually produced by the [[electrolysis]] of sodium chloride dissolved in water.  Along with chlorine, this [[chloralkali process]] yields [[hydrogen]] gas and [[sodium hydroxide]], according to the [[chemical equation]]
+Sodium chloride forms [[crystal]]s with cubic [[symmetry]]. In these, the larger [[Chlorine|chloride]] [[ion]]s, shown in the diagram as green spheres, are arranged in a cubic [[close-packing]], while the smaller [[sodium]] ions, shown as blue spheres, fill the octahedral gaps between them. The ions are held together with [[ionic bond]]s.
-:2NaCl + 2H<sub>2</sub>O → Cl<sub>2</sub> + H<sub>2</sub> + 2NaOH
+Each type of ion is surrounded by six ions of the other kind. This same basic structure is found in many other [[mineral]]s and is known as the [[halite]] structure. This arrangement is known as ''[[cubic crystal system|cubic close packed]]'' (ccp) crystal system.
-Sodium metal is produced commercially through the electrolysis of liquid sodium chloride. This is done in a [[Downs Cell|Down's cell]] in which sodium chloride is mixed with calcium chloride to lower the melting point below 700 °C. As calcium is more electropositive than sodium, no calcium will be formed at the cathode. This method is less expensive than the previous method of electrolyzing sodium hydroxide.
+=== Solubility ===
 {| class="toccolours" border="1" style="margin: 1em; border-collapse: collapse;"
-! {{chembox header}} | Solubility of NaCl in various solvents<br/ >(g NaCl / 100 g of solvent at 25 °C)
+! {{chembox header}} | Solubility of NaCl in various solvents<br/ >(grams NaCl per 100 grams of solvent at 25 °C)
 |-
 | [[Water (molecule)|H<sub>2</sub>O]] || 36
@@ Line 169: / Line 180: @@
 | [[Dimethylformamide]] || 0.04
 |-
-| align="center" colspan="2" | Reference:<br />Burgess, J. ''Metal Ions in Solution''<br />(Ellis Horwood, New York, 1978)<br />ISBN 0-85312-027-7
+| align="center" colspan="2" | Reference:<br />J. Burgess, ''Metal Ions in Solution''<br />(Ellis Horwood, New York, 1978),<br />ISBN 0853120277
 |}
+== Uses ==
+While most people are familiar with the many uses of salt in [[cooking]], they might be unaware that salt is used in a plethora of applications, from [[manufacturing]] pulp and paper to setting dyes in textiles and fabric, to producing [[soap]]s and [[detergent]]s. In most of [[Canada]] and the northern [[United States]], large quantities of rock salt are used to help clear highways of [[ice]] during winter, although "road salt" loses its melting ability at temperatures below -15 °C to -20 °C (5 °F to -4 °F).
+===Synthetic uses===
+Salt is also the raw material used to produce [[chlorine]] which itself is required for the production of many modern materials including [[Polyvinyl chloride|PVC]] and [[pesticide]]s.
+Industrially, elemental chlorine is usually produced by the [[electrolysis]] of sodium chloride dissolved in water. Along with chlorine, this [[chloralkali process]] yields [[hydrogen]] gas and [[sodium hydroxide]], according to the [[chemical equation]]:
+:2NaCl + 2H<sub>2</sub>O → Cl<sub>2</sub> + H<sub>2</sub> + 2NaOH
+Sodium metal is produced commercially through the electrolysis of liquid sodium chloride. This is done in an apparatus called a [[Downs cell]], in which sodium chloride is mixed with calcium chloride to lower the melting point below 700 °C. As calcium is more electropositive than sodium, no calcium will be formed at the cathode. This method is less expensive than the earlier method of electrolyzing sodium hydroxide.
 ===Flavor enhancer===
 {{main|Edible salt}}
-Salt is commonly used as a [[flavor enhancer]] for [[food]] and has been identified as one of the [[basic tastes]].  Unfortunately, given its history, this has resulted in large sections of the developed world ingesting salt massively in excess of the required intake. {{Fact|date=March 2007}}. This causes elevated levels of [[blood pressure]] ([[hypertension]]) in some {{Fact|date=March 2007}}, which in turn is associated with increased risks of [[myocardial infarction|heart attack]] and [[stroke]]. Consuming salt in excess can also dehydrate the human body.
-[[Image:ionicbond.JPG|thumb|left|200px|Impression of two ions, for example Na<sup>+</sup> and Cl<sup>-</sup> forming an ionic bond. The [[electron orbital]]s generally do not overlap (i.e., [[molecular orbital]]s are not formed), because each of the ions reached the lowest [[energy state]] and the bond is based only (ideally) on the electrostatic interactions between positive and negative ions.]]
+Salt is commonly used as a flavor enhancer for [[food]] and has been identified as one of the basic tastes. Unfortunately, it is often ingested well in excess of the required intake. This leads to elevated levels of [[blood pressure]] ([[hypertension]]) in some, which in turn is associated with increased risks of [[myocardial infarction|heart attack]] and [[stroke]]. Consuming salt in excess can also dehydrate the [[human body]].
 ===Biological uses===
-Many [[microorganism]]s cannot live in an overly salty environment: water is drawn out of their [[cell (biology)|cells]] by [[osmosis]]. For this reason salt is used to [[Food preservation|preserve]] some foods, such as smoked bacon or fish and can also be used to detach leeches that have attached themselves to feed. It has also been used to disinfect wounds (although it causes a great deal of pain). In [[medieval]] times salt would be rubbed into household surfaces as a cleansing agent.
+Many [[microorganism]]s cannot live in an overly salty environment: water is drawn out of their [[cell (biology)|cells]] by [[osmosis]]. For this reason salt is used to [[Food preservation|preserve]] some foods, such as smoked bacon or fish, and can also be used to detach leeches that have attached themselves to feed. It has also been used to disinfect wounds (although it causes a great deal of pain). In [[Middle Ages|medieval]] times, salt would be rubbed into household surfaces as a cleansing agent.
 ==Road salt==
 ===De-icing===
-While salt was once a scarce commodity in history, industrialized production has now made salt plentiful. About 51% of world output is now used by cold countries to [[Deicing|de-ice]] roads in winter, both in [[grit bin]]s and spread by [[winter service vehicle]]s.  This works because salt and water form an [[eutectic]] mixture.  For a solution of table salt (sodium chloride, NaCl) in water, the freezing temperature becomes -21 °C (-6 °F) under controlled lab conditions. In practice, however, sodium chloride can melt ice only down to about -9 °C (15 °F).
+While salt was once a scarce commodity in history, industrialized production has now made salt plentiful. About 51 percent of the worldwide output of salt is now used to [[Deicing|de-ice]] roads in freezing weather conditions. The salt may be put in grit bins and spread by winter service vehicles. This approach works because salt and water form an [[eutectic]] mixture. Under controlled lab conditions, a solution of sodium chloride in water can reduce the freezing temperature of water to -21 °C (-6 °F). In practice, however, sodium chloride can melt ice down to only about -9 °C (15 °F).
 ===Additives===
-The salt sold for consumption today is not pure sodium chloride. In 1911 [[Magnesium carbonate]] was first added to salt to make it flow more freely. In 1924 trace amounts of [[iodine]] in form of sodium iodide, [[potassium iodide]] or [[potassium iodate]] were first added, creating iodized salt to reduce the incidence of simple [[Goitre|goiter]]. {{Fact|date=February 2007}}
-Salt for de-icing in the UK typically contains sodium [[hexacyanoferrate]] (II) at less than 100ppm as an anti-caking agent. In recent years this additive has also been used in table salt.
+The salt sold for consumption today is usually not pure sodium chloride. In 1911, [[magnesium carbonate]] was first added to salt to make it flow more freely. In 1924, trace amounts of [[iodine]]—in the form of sodium iodide, [[potassium iodide]] or [[potassium iodate]]—were first added, creating iodized salt to reduce the incidence of simple [[Goitre|goiter]].
+Salt for de-icing in the UK typically contains sodium [[hexacyanoferrate]] (II) at less than 100 parts per million as an anti-caking agent. In recent years this additive has also been used in table salt.
 ===Common chemicals===
-Chemicals used in de-icing salts are mostly found to be sodium chloride (NaCl) or [[calcium chloride]] (CaCl<sub>2</sub>). Both are similar and are effective in de-icing roads. When these chemicals are produced, they are mined/made, crushed to fine granules, then treated with an anti-caking agent. Adding
-salt lowers the freezing point of the water, which allows the liquid to be
+Chemicals used in de-icing salts are mostly found to be sodium chloride (NaCl) or [[calcium chloride]] (CaCl<sub>2</sub>). Both are similar and are effective in de-icing roads. When these chemicals are produced, they are mined/made, crushed to fine granules, then treated with an anti-caking agent. Adding salt lowers the freezing point of the water, which allows the liquid to be stable at lower temperatures and allows the ice to melt.
-stable at lower temperatures and allows the ice to melt.
 Alternative de-icing chemicals have also been used. Chemicals such as [[calcium magnesium acetate]] are being produced. These chemicals have few of the negative chemical effects on the environment commonly associated with NaCl and CaCl<sub>2</sub>.
-{{Fact|date=February 2007}}
 ==See also==
@@ Line 204: / Line 228: @@
 * [[Salinity]]
 * [[Soap]]
+== Notes ==
+<references/>
 ==References==
-<<Need 3 refs>>
+* Kurlansky, Mark. 2003. ''Salt: A World History''. New York: Penguin. ISBN 0142001619
+* Multhauf, Robert P. 1996. ''Neptune's Gift: A History of Common Salt''. Johns Hopkins Studies in the History of Technology. Baltimore, MD: Johns Hopkins University Press. ISBN 0801854695
+* Mineral Gallery. 2006. The Mineral Halite. ''Amethyst Galleries''.
 ==External links==
+All links retrieved January 30, 2023.
-*[http://www.saltsense.co.uk/deicing-environ01.htm The Salt Manufacturers Association]
+*[http://salt.org.il/news_arch.htm MrBloch Salt Archive]
-*[http://www.saltinstitute.org Salt Institute]
+*[http://minerals.usgs.gov/minerals/pubs/commodity/salt/ Salt: Statistics and Information.] United States Geological Survey.
-*[http://salt.org.il/news_arch.htm Salt Archive]
-*[http://users.tpg.com.au/terrett/Downloads/snarfevsCCPLatticerotate.avi Video] of rotating rock salt unit cell (divx, 378kb)
-*[http://minerals.usgs.gov/minerals/pubs/commodity/salt/ Salt] [[United States Geological Survey]] Statistics and Information
-*[http://www.usroads.com/journals/p/rmj/9712/rm971202.htm US Road Management] website
-*[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8800478&dopt=Abstract Salt Intake in Cold Weather]
 [[Category:Physical sciences]]