Synonyms for an aqueous solution of hydrogen chloride include chlorhydric acid, hydrochloric acid, and muriatic acid.
Hydrochloric acid (HCl) was first discovered around 800 C.E. by the alchemist Jabir ibn Hayyan (Geber), by mixing common salt with vitriol (sulfuric acid). Jabir discovered many important chemicals, and recorded his findings in over 20 books, which carried his chemical knowledge of hydrochloric acid and other basic chemicals for hundreds of years. Jabir’s invention of the gold-dissolving aqua regia, consisting of hydrochloric acid and nitric acid, was of great interest to alchemists searching for the philosopher’s stone.
Hydrogen chloride is produced commercially by any of the following reactions: heated hydrogen gas with calcium chloride, sulfuric acid with sodium chloride, sodium chloride with sulfur dioxide and steam, and hydrogen burned in chlorine. Hydrogen chloride can be formed during the combustion of many plastics. Hydrochloric acid (muriatic acid) is a component of commercial chemicals used to clean and disinfect swimming pools. Hydrogen chloride is used for cleaning, pickling, and electroplating metals; in refining mineral ores; in petroleum well extraction; in leather tanning; and in the refining of fats, soaps, and edible oils and as a digestate for tissue sampling. It is also used in producing polymers and plastics, rubber, fertilizers, dyes, dyestuffs, and pigments.
Not many people are aware of the naturally occurring form of hydrochloric acid produced by the lining of the stomach, that breaks down connective tissue and cell membranes in the food, so that it can more easily be acted on by digestive enzymes. Hydrochloric acid also kills most of the bacteria ingested with the food. It can be responsible for gastroesophageal reflux disease and just plain ole acid indigestion.
Applications of HCl is widely used as a laboratory reagent (34-37% reagent grade). Frequently, the sample is not soluble in water and must be treated with acids or a mixture of acids to facilitate solubility. Tissue samples are digested in HCl and that digestate is examined for the presence of metals.
Hydrogen chloride acid is a colorless, corrosive, liquid that fumes in air at high concentrations of 25% or more, and becomes a hydrogen chloride gas forming dense white vapors due to condensation with atmospheric moisture. The vapor is corrosive, and air concentrations above 5 ppm can cause irritation. Hydrogen chloride is available commercially as an anhydrous gas or as aqueous solutions (hydrochloric acid). When heated, it generates larges quantities of hydrochloric acid fumes. If the concentration of hydrochloric acid gas in the air is 0.035%, humans will have a pain in the throat and chest, and have difficulty in breathing within 10 minutes. The inhalation of a large quantity of hydrochloric acid gas or mist may result in death.
As an aqueous solution, HCl reacts exothermically with organic bases (amines, amides) and inorganic bases (oxides and hydroxides of metals). Reacts exothermically with carbonates (including limestone and building materials containing limestone) and hydrogen carbonates to generate carbon dioxide. Reacts with sulfides, carbides, borides, and phosphides to generate toxic or flammable gases. Reacts with many metals (including aluminum, zinc, calcium, magnesium, iron, tin and all of the alkali metals) to generate flammable hydrogen gas. Reacts violently with acetic anhydride, 2-aminoethanol, ammonium hydroxide, calcium phosphide, chlorosulfonic acid, 1,1-difluoroethylene, ethylenediamine, ethyleneimine, oleum, perchloric acid, b-propiolactone, propylene oxide, silver perchlorate/carbon tetrachloride mixture, sodium hydroxide, uranium(IV) phosphide, vinyl acetate, calcium carbide, rubidium carbide, cesium acetylide, rubidium acetylide, magnesium boride, mercury(II) sulfate [Lewis]. Mixtures with concentrated sulfuric acid can evolve toxic hydrogen chloride gas at a dangerous rate. Undergoes a very energetic reaction with calcium phosphide [Mellor 8:841(1946-1947)].
According to the EPA, occupational exposure can rapidly lead to swelling and spasm of the throat and suffocation. Material is extremely destructive to tissue of the mucous membranes and upper respiratory tract. Inhalation of hydrochloric acid vapors and mists produces nose, throat, and laryngeal burning, and irritation, pain and inflammation, coughing, sneezing, choking sensation, shortness of breath, hoarseness, laryngeal spasms, upper respiratory tract edema, bronchial constriction, bronchitis, chest pains, as well has headache, and palpitations. Inhalation of high concentrations can result in corrosive burns, necrosis of bronchial epithelium, constriction of the larynx and bronchi, nasospetal perforation, glottal closure, occur, particularly if exposure is prolonged. May be fatal if inhaled.
https://cfpub.epa.gov/ncea/iris/iris_documents/documents/subst/0396_summary.pdf#nameddest=rfc Note: Human asthmatics (5/sex) were exposed to 0.8 or 1.8 ppm HCl for 45 minutes, and pulmonary function tests performed immediately after exposure were compared to baseline levels (Stevens et al., 1992). No exposure-related effects were observed in subjective symptoms or in pulmonary function tests, including forced expiratory volume in 1 second, forced vital capacity, maximal flow at 50 and 75% of vital capacity, respiratory resistance, and peak flow. This is the only available controlled human exposure study of HCl.
A test was set up using Sentry Air’s 30″ Wide Ductless Fume Hood Model # SS-330-DCH in accordance with NIOSH Test Method 7903 to test for airborne concentrations of inorganic acids, in this case HCl. (This method can be viewed on the NIOSH website: ttp://www.cdc.gov/niosh/docs/2003-154/pdfs/7903.pdf) The test objective was to determine the effectiveness of Sentry Air Systems’ Acid Gas filter media in keeping operator ambient hydrochloric acid concentrations to a minimum while the interior of the hood was subjected to a large quantity of hydrochloric acid fumes.
Note: This method should no longer be used as it classified as a historical document and has been replaced by NIOSH methods 7906, 7907, & 7908. The replacement methods (7906, 7907, & 7908) allow for the collection of inhalable fractions of acid aerosols by means of a prefilter and can provide for lower limits of detection for acid gases and vapors due to higher sampling flow rates.
The results of this test are unequivocal in recommending the Acid Gas filter for use in applications involving the use of, or potential exposure to, hydrochloric acid. The filter removed, as nearly as can be determined, all acid from the airstream being treated and reduced the potential operator exposure from upwards of 50 ppm at Location 1 to a concentration at Location 2 that is less than the detection limits of the analysis methods used (approximately 0.003 ppm). No hydrochloric acid was detected in the ambient room atmosphere throughout the test (Location 4), nor was any detected at the operator’s breathing location (Location 3), nor at the outlet of the hood (Location 2). Taking into account potential error in the sample analysis and the analysis method’s detection limits, the filter appears to have removed >99.99% of the hydrochloric acid fumes.
Sentry Air’s 30″ Wide Ductless Fume Hood Model # SS-330-DCH with 10lb acid gas filter, 300-PFS w/ CFP + 10lb acid gas filter combines powerful air flow with a sturdy and compact enclosure for optimal respiratory and environmental protection. This fume hood is designed to pull harmful particulate up and away from the operator’s breathing zone and into the filter chamber. Depending on the application, this chamber houses either HEPA filtration [up to 99.97% efficient on particles 0.3 microns and larger and made with flame-retardant materials], ASHRAE filtration [up to 95% efficient on particles 0.5 microns and larger and made with flame-retardant materials] Activated Carbon, or specialty-blended filter media [i.e. Acid Gas, Mercury, Aldehyde, Ammonia]. Variable Speed Control and a Fluorescent Light come standard with this unit.
Other typical uses for this fume hood include chemical fume control, pharmaceutical compounding containment, soldering applications, light dust removal, biological applications, solvent or epoxy use, and many more applications that require the removal of fumes and particulate.
For more information about controlling hazardous fumes, contact Sentry Air and speak with one of our applications specialists. Call 800.799.4609, email firstname.lastname@example.org, or visit our website.