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Hydrochloric Acid 37% (E-507, F.C.C.) food grade

Muriatic Acid

Assay , not less than: 23 %
Code
201020
CAS
7647-01-0
Molecular Formula
HCl
Molar mass
36.46 g/mol

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Packs sizes (1)

Code packaging size price per unit Quantity Price Per Box Quantity
201020.0716
Code
201020.0716
packaging size
25 l
price per unit quantity
Melting Point:
-25 °C
Boiling Point:
85 °C
Density:
1.19 kg/l
Solubility:
Miscible with water
Physical Description:
liquid
Product Code:
201020
Product Name:
Hydrochloric Acid 37% (E-507, F.C.C.) food grade
Quality Name:
food grade
Specifications:
Assay , not less than: 23 %
Concentration of HCl, not less than: 37 %
Identity
Chloride: passes test
Specific gravity , not less than: 1.19
Non-volatile residue , not more than: 0.5%
Reducing substances (as SO2) , not more than: 0.007 %
Sulfate (SO4) , not more than: 0.5%
Color: passes test
Oxidizing substances (as Cl2), not more than: 0.003%
Extractable organic compounds: Total org.comp. (Non-Fluorine-cont), not more than: 5 ppm
Including:
Benzene, not more than: 0.05 ppm
Fluorinated org. compounds (total), not more than: 25 ppm
Arsenic, not more than: 1 ppm
Mercury, not more than: 0.10 ppm
Lead, not more than: 1 ppm
Iron, not more than: 5 ppm
Heavy metals (as Pb) , not more than: 1 ppm
Specifications Regulation (UE) n° 231/2012, F.C.C. 12, R.D. 1466/2009
For use in foodstuffs according to Regulation (EC) n° 1333/2008 and F.C.C.
Hazard pictograms
  • GHS05 Hazard
  • GHS07 Hazard
UN:
1789
Class/PG:
8/II
ADR:
8/II
IMDG:
8/II
IATA:
8/II
WGK:
1
Storage:
Room Temperature.
Signal Word:
Danger
GHS Symbols:
GHS05
GHS07
H Phrases:
H290
H335
H314
P Phrases:
P234
P390
P406
P264
P280
P302+P352
P321
P332+P313
P362
P305+P351+P338
P337+P313
P261
P271
P304+P340
P403+P233
P312
P405
P501
Master Name:
Hydrochloric Acid 37%
Synonyms Long Text:
Muriatic Acid
EINECS:
231-595-7
CS:
2806 10 00 00
Index Nr.:
017-002-01-X
Download TDS file for complete specifications

Comments

Hydrochloric acid - HCl
Hydrochloric acid is an aqueous solution of hydrogen chloride gas protonated into oxonium and chloride ions. It is a strong inorganic acid and belongs to the mineral acids. Its salts are called chlorides, the best known being sodium chloride (NaCl, table salt).

History
Indirectly, its use is already mentioned by Pliny, in the separation of gold and silver in mining, since at high temperatures common salt and vitriol form hydrochloric acid, which forms a compound with silver. Possibly Georgius Agricola mentions a similar process for the separation of silver in his De Re Metallica of 1556 (the recipe given would give hydrochloric acid if by salt is meant common salt). Pseudo-Geber (13th century) described a reaction of mercury after heating it with common salt and alum or ferrous sulfate, forming fine white needles of mercuric chloride by reaction with hydrochloric acid. He and the medieval alchemists also knew about aqua regia, which was produced by adding saline ammonia (ammonium chloride) or common salt to nitric acid. In the 15th century, hydrochloric acid and its use for softening bones and ivory for carving is mentioned, first in an anonymous Italian manuscript from the mid-15th century, located at the University of Bologna, and then in a recipe by Caterina Sforza (1490). Both authors elaborated it by heating common salt and vitriol and distilling. - In the first half of the 15th century, Basilius Valentinus obtained hydrochloric acid by reacting halite (rock salt) with iron vitriol. In 1597 Libavius mentions hydrochloric acid in his book Alchemia, but it was also mentioned by Giambattista della Porta (Magiae Naturalis 1558, 1589) as the best means of whitening teeth. Its large-scale production from table salt and sulfuric acid was achieved by Johann Rudolph Glauber in the 17th century. Lavoisier called hydrochloric acid acide muriatique (Latin muria 'brine'). Saline springs are still called muriatic springs today. In North America, hydrochloric acid is also called muriatic acid.


Presence
In nature, hydrochloric acid is found in volcanic gases and very dilute in crater lakes. In free form, it is found in the gastric juices of vertebrates (0.1 to 0.5 percent by mass). Deposits of hydrochloric acid salts, as rock salt and dissolved in seawater, are almost inexhaustible. -

Preparation and extraction
Hydrochloric acid is produced in the laboratory from concentrated sulfuric acid and common salt (hence the name):

NaCl + H2SO4 → NaHSO4 + HCl.

Sulfuric acid displaces hydrogen chloride from its salt. Since hydrogen chloride is gaseous, it is constantly removed from the equilibrium, which is thus almost completely on the product side. The sodium hydrogen sulfate formed is an acid salt of sulfuric acid. The resulting gaseous hydrogen chloride is introduced into water:

HCl + H2O → H3O+ + Cl-

Hydrochloric acid with higher hydrogen chloride mass fractions is also called fuming hydrochloric acid, because hydrogen chloride gas escapes and hydrochloric acid is formed again with water from atmospheric moisture, so that a white mist forms above open containers. In the chemical industry, high-purity hydrogen chloride is obtained by reacting hydrogen with chlorine:

H2 + Cl2 → 2 HCl

Here hydrogen chloride is also allowed to react with water. Technically pure hydrochloric acid is mainly produced as a by-product in the chlorination of organic compounds. - Gaseous hydrogen chloride dissolves very well in water: at 0 °C, one liter of water, provided it is present as a liquid phase, dissolves 815 g or 507 liters of gas with heat generation. At 20 °C, one liter of saturated hydrochloric acid contains 720 g of HCl. The concentration dependence of the density appears to be a simple mathematical relationship between the density of the solution and the percentage content of hydrogen chloride: The doubled decimals correspond approximately to the concentration, e.g., a hydrochloric acid of density 1.10 g-cm-3 at an HCl content of 20 percent.

% = 200 * (Density - 1)

The melting and boiling behavior of hydrochloric acid depends largely on its composition. In the solid phase, four stoichiometric hydrates with defined melting points are formed. These are a monohydrated HCl * H2O with a melting point at -15 °C, a dihydrated HCl * 2 H2O with a melting point at -18 °C, a trihydrated HCl * 3 H2O with a melting point at -25 °C, and a hexahydrated HCl * 6 H2O with a melting point at -70 °C. In the phase diagram the corresponding eutectic melts are obtained for compositions between the stoichiometric hydrates.
These are at -23 °C for a mixture of mono- and dihydrate with a hydrogen chloride mass fraction of 57.3%, of di- and trihydrate with a mass fraction of 44.0% at -28 °C, of tri- and hexahydrate with a mass fraction of 26.6% at -73 °C, and of hexahydrate and ice with a mass fraction of 23.0% at -75 °C. In addition, a metastable eutectic is formed between the trihydrate and ice with a mass fraction of 24.8% at -87 °C. Thus, in the concentration range from 0 to 25 %, a sharp decrease of the melting point is observed. The vapor-liquid phase diagram between hydrogen chloride and water shows a negative azeotrope. The resulting azeotropic boiling point is 109 °C at normal pressure with a mass fraction of 20.2 %. During evaporation of hydrochloric acid solutions with a concentration deviating from the azeotropic composition, the excess component preferentially evaporates first, i.e., for hydrochloric acid with a mass fraction <20.2 %, the concentration increases, and for hydrochloric acid with >20.2 %, the concentration decreases until the constant boiling azeotropic composition is reached. The boiling curve in the phase diagram above the azeotrope composition correlates with the solubility curve of hydrogen chloride in water. At 25 °C, the mass fraction is 42%, which corresponds to "fuming" hydrochloric acid.
In water, hydrogen chloride dissociates completely; 32% hydrochloric acid has a pH of -1. In humid air, gaseous hydrogen chloride forms a mist of fine hydrochloric acid droplets. Dilute hydrochloric acid is a good electrical conductor.

Reactions
When hydrochloric acid reacts with an aqueous solution of ammonia, a white smoke of ammonium chloride is formed.

HCl + NH3 → NH4Cl

Hydrochloric acid dissolves most metals, with the exception of precious metals and some others (e.g., tantalum and germanium), forming chlorides and hydrogen, unless protected by passivation.

Mg + 2 HCl → MgCl2 + H2

Well suited for removing oxide layers from metals, as metal oxides react with hydrochloric acid to form chlorides and water:

CuO + 2 H2O → CuCl2 + H2O.



Ammonium chloride can be obtained by neutralizing hydrochloric acid with an aqueous solution of ammonia:

NH3 + HCl → NH4Cl

A mixture of hydrochloric acid and nitric acid is called aqua regia because it is also capable of dissolving gold, the "king of metals." In addition to the oxidizing effect of nitrosyl chloride and nascent chlorine, the reduction of the effective concentration of gold ions by the formation of complexes also contributes to this:

Au3+ + 4 Cl- → AuCl4-

Use
Hydrochloric acid is an important basic chemical with great importance in the chemical industry as an inorganic acid. It is used, for example, in the beneficiation of ores and rock phosphate. It is used to stimulate oil and gas wells, especially in carbonate reservoirs, but also in sandstone reservoirs. It is also used, for example, to remove calcium carbonate deposits from equipment and for cleaning up after drilling with a filter gravel pack and in the boreholes themselves. In metallurgy, it is used in pickling, etching and brazing. In addition, dilute hydrochloric acid is used in construction to remove mortar residue from masonry, called acidizing. Tilers use dilute hydrochloric acid to remove the lime film from tiles after grouting.

FAQs

What is the CAS number of Hydrochloric Acid?

The CAS number of Hydrochloric Acid is 7647-01-0.

CAS Hydrochloric Acid?

The CAS number of Hydrochloric Acid is 7647-01-0.

CAS 7647-01-0?

The CAS number 7647-01-0 is assigned to Hydrochloric Acid.

What does Hydrochloric Acid 37% mean?

Hydrochloric Acid 37% means that the mass fraction is 0.37. In other words, in a sample of 100 g Hydrochloric Acid 37% the mass of 37 g Hydrochloric Acid is present.

What is the purity of Hydrochloric Acid?

The purity of Hydrochloric Acid is 37%.

What does HCl 37% mean?

HCl 37% means that the mass fraction is 0.37. In other words, in a sample of 100 g HCl 37% the mass of 37 g HCl is present.

What is the purity of HCl?

The purity of HCl is 37%.