Difference between revisions of "Sulfuric acid"
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[[Category:DEA List II chemicals]]
[[Category:DEA List II chemicals]]
Revision as of 19:27, 17 June 2019
Structure of sulfuric acid
| IUPAC name
| Preferred IUPAC name
| Systematic IUPAC name
| Other names
Oil of vitriol
Spirit of vitriol
|Molar mass||98.079 g/mol|
|Appearance||Colorless oily liquid|
|Odor||Odorless (air above it may feel dry due to its strong hygroscopicity)|
|Melting point||10 °C (50 °F; 283 K)|
|Boiling point||337 °C (639 °F; 610 K) (above 300 °C slowly decomposes)|
|Solubility|| Reacts with amines|
Miscible with alcohols
Immiscible with hydrocarbons
|Vapor pressure||0.001 mmHg (20 °C)|
Std enthalpy of
|Safety data sheet||FisherSci|
|Lethal dose or concentration (LD, LC):|
LD50 (Median dose)
|2.140 mg/kg (rat, oral)|
LC50 (Median concentration)
| 50 mg/m3 (guinea pig, 8 hr)|
510 mg/m3 (rat, 2 hr)
320 mg/m3 (mouse, 2 hr)
18 mg/m3 (guinea pig)
| Sulfurous acid|
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Sulfuric acid (alternative spelling sulphuric acid), represented by the molecular formula H2SO4, is one of the most important acids in chemistry and the most important chemical to industries in the world. It is the strongest easily available acid, with a pKa of -3.
- H2SO4 + H2O → H3O + HSO4−
The second dissociation forms sulfate and another hydronium ion from a hydrogen sulfate ion. It has a pKa of 1.99, indicative of a mid-strength acid, and occurs like this:
- HSO4− + H2O ⇌ H3O+ + SO42-
Concentrated sulfuric acid also has a strong oxidizing effect, converting nonmetals such as carbon and sulfur to carbon dioxide and sulfur dioxide, respectively, reducing sulfuric acid into sulfur dioxide and water in the process.
- 2 H2SO4 + C → CO2 + SO2 + H2O + H2SO4
- 2 H2SO4 + S → 2 SO2 + H2O + H2SO4
This property is useful for producing large amounts of sulfur dioxide for use as a reducing agent if water is continually removed. Heat accelerates this process.
In organic chemistry, sulfuric acid is the most practical acid in most cases where a source of H3O+ ions are needed as it introduces the least amount of water. Organic compounds are often easily attacked by the nucleophiles left behind by the dissociation of acids such as HCl which leaves Cl- ions behind which can easily attack many organic compounds. However, the sulfate ions left behind by the dissociation of sulfuric acid are far less reactive than the ions left behind by most acids, it allows to protonate the reaction mixture without causing undesired side reactions in most cases.
When concentrated, it is strongly hygroscopic and has strong dehydrating properties. It can break down most organic molecules containing OH- groups to use them to form water, leaving only the carbon behind. This property is exploited in the famous "black snake" demonstration, where sulfuric acid dehydrates sucrose (table sugar), forming water with the hydrogen and oxygen atoms and leaving amorphous carbon behind.
Sulfuric acid is a oily liquid at room temperature. It is colorless, but often has a very light yellow color when slightly contaminated with iron or carbon from organic matter like dust. Even very small amounts of dissolved organic matter can change the color of concentrated sulfuric acid to pale yellow or pink, red, brown, and even black. It is commonly sold diluted at around 35% w/w with water as car battery acid and concentrated between 95% and 98% w/w as drain cleaner.
Sulfuric acid's boiling point raises with the concentration as described in this figure to the right. An azeotrope forms at 98% w/w.
At room temperature, sulfuric acid does not fume and has no smell. Hot sulfuric acid is known to fume profusely and smell like a mix of burnt matches and pure pain (this is because of its partial decomposition when hot; the smells correspond to sulfur dioxide and trioxide respectively).
Sources, production, and concentration
Sulfuric acid is a commonly used chemical for lead-acid batteries and drain cleaning. Battery acid can often be found at an auto store or a department store, and is approximately 35% sulfuric acid by weight. This is sufficient for most amateur chemists. If more concentrated sulfuric acid is desired, one can look in hardware stores for drain cleaner, which can be over 90% sulfuric acid by weight. For safety purposes, this concentration of sulfuric acid may have a dye in it. Other forms of sulfuric acid may be contaminated with various chemicals and will appear yellow, black, red.
However, there is at least one brand of drain cleaner which is ~95% sulfuric acid, without any additives of dyes.
For some amateurs, it can be hard to find concentrated sulfuric acid, with acid drain cleaners being banned (as a result of acid throwing or illicit drug manufacture) or very contaminated in some countries. So here we shall provide a concise list of available methods of making sulfuric acid.
The most well-tested method of concentrating sulfuric acid is described in a sub-article: Boiling the Bat.
- If you have technical grade sulfuric acid of concentrations from 80% to 94%, it can be converted to the pure compound by Zintl-Karyakin distillation. This process yields sulfuric acid of the highest quality and of concentration above the azeotrope. However, it is demanding in terms of glassware and very risky if performed at home. To perform this distillation, you need chromium trioxide or a dichromate salt (any will do, except ammonium: ammonium dichromate will decompose on heating, and you'll have green murky acid contaminated with chromium (III) oxide and chromium sulfate) that will work as an azeotrope breaker. Add this to a round-bottom flask, pour the acid in and connect it to an air-cooled condenser. Put thermal insulation (asbestos, rockwool) on the flask and start heating it. Discard the first few grams of the distillate, until its density reaches 1.84; collect every drop after that. This gives pure sulfuric acid with concentration above 98%. Beware of any spillage of hexavalent chromium, it's a carcinogen! If such a spillage occurs, neutralize it with any reducing solution such as potassium iodide.
It is possible to further concentrate sulfuric acid by adding sulfur trioxide, which reacts with the remaining water to form pure sulfuric acid. Sulfur trioxide can continue to be added to the solution to form oleum, which fumes in air to form sulfuric acid droplets. When an equimolar concentration of sulfuric acid and sulfur trioxide are added, it forms pyrosulfuric acid, which is a solid at room temperature. Sulfur trioxide can easily be obtained through the pyrolysis of copper(II) sulfate.
- Producing metal sulfates
- Producing nitro compounds through nitration
- The dehydration of sucrose to produce elemental carbon
- Esterifications that require a dehydrating agent, such as that of methyl salicylate
- Making simple rayon fibers with Schweizer's reagent and cellulose
- Producing other concentrated acids by reaction of sulfuric acid with an anhydrous salt, such as in the production of fuming nitric acid and glacial acetic acid
When heating sulfuric acid, it is important to DO NOT OVERFILL THE FLASK. Concentrated sulfuric acid's volume increases by nearly 16% between 0 and 330°C, an overfilled flask will spill its content. Also, sulfuric acid, even diluted, tends to bump when it boils, accumulating heat to release a violent burst of steam from time to time. The use of boiling chips reduces this phenomena, but there is no way to stop it completely. It is advised to take measures to prevent spills, an anti-splash adapter with ground glass joint being a very convenient option.
Hot concentrated sulfuric acid may decompose to form sulfur dioxide and sulfur trioxide, which are toxic and corrosive, respectively. It fumes profusely when hot, the fumes consist of sulfuric acid droplets and a SOx mix. These fumes are very dangerous and a known lung carcinogen.
When carrying glass bottles of sulfuric acid and you worry there's a risk you might break it, a good tip would be to carry it in a (plastic) bucket, partially filled with sand.
Sulfuric acid should be stored in closed bottles. While glass bottles, being inert, are good for storing concentrated sulfuric acid, concentrated (80-98%) sulfuric acid is often stored in PE (more specifically UDPE or UHDPE) bottles, as PE is not brittle, so in the event you drop the bottle on a hard surface, it will not shatter and splash conc. sulfuric all over the place. Unfortunately, PE bottles are sensitive to light and will degrade over the years if exposed to sunlight, so they must be stored in a dark place away from UV light, like a cupboard. Commercial PE bottles used for conc. sulfuric acids tend to be colored, which helps to limit degradation from strong light and oxygen. However, if you plan to store the acid for more that several years, it's recommended to use glass bottles.
Sulfuric acid can be neutralized with any base or carbonate, preferably calcium hydroxide or carbonate.
Concentrated sulfuric acid, like any concentrated acid, should be first strongly dilute it in a large volume of water before neutralizing it with a base. Another method would be to add it in an acid-resistant container with a lid and slowly add solid calcium hydroxide/carbonate or sodium bicarbonate chunks and close the lid to limit splashing. Wait until it stopped fizzing then keep adding until it no longer reacts. Be careful, as the thicker the solution becomes, the stronger the foaming gets.
Relevant Sciencemadness threads
- Sulfuric Acid Production: Revisited
- H2SO4 by the Lead Chamber Process - success
- I will now be building and testing my new Batparatus!
- cleaning sulfuric acid
- Sulfuric Acid at Home
- Concentrating dilute sulphuric acid(battery acid) without distillation
- Sulfuric acid from gypsum using diaphragm cell
- Sulfuric acid purification
- sulfuric acid turned black
- Distilling Sulfuric Acid
- Sulfuric acid in NZ
- Should I get rid of my H2SO4?
- sulfuric acid accident
- Sulfuric acid storage
- HDPE as a storage for Sulfuric Acid
- Safely Storing H2SO4 (35%)
- Storage for Sulfuric Acid (H2SO4)
- Sulfuric Acid and LDPE issue