Methanol

Methanol
Methanol
Identifiers
CAS number 67-56-1 YesY
PubChem 887
ChemSpider 864 YesY
UNII Y4S76JWI15 YesY
EC number 200-659-6
UN number 1230
KEGG D02309 YesY
MeSH Methanol
ChEBI CHEBI:17790 YesY
ChEMBL CHEMBL14688 YesY
RTECS number PC1400000
Beilstein Reference 1098229
Gmelin Reference 449
3DMet B01170
Jmol-3D images Image 1
Properties
Molecular formula CH4O
Molar mass 32.04 g mol−1
Exact mass 32.026214750 g mol−1
Appearance Colorless liquid
Density 0.7918 g cm−3
Melting point

−98--97 °C, 175-176 K, -144--143 °F

Boiling point

65 °C, 338 K, 149 °F

log P -0.69
Vapor pressure 13.02 kPa (at 20 °C)
Acidity (pKa) 15.5[2]
Viscosity 5.9×10−4 Pa s (at 20 °C)
Dipole moment 1.69 D
Hazards[3]
MSDS External MSDS
EU Index 603-001-00-X
EU classification Flammable F Toxic T
R-phrases R11, R23/24/25, R39/23/24/25
S-phrases (S1/2), S7, S16, S36/37, S45
NFPA 704
NFPA 704.svg
3
1
0
Flash point 11–12 °C
Autoignition
temperature
385 °C
Explosive limits 36%
Related compounds
Related compounds Methanethiol

Silanol

Supplementary data page
Structure and
properties
n, εr, etc.
Thermodynamic
data
Phase behaviour
Solid, liquid, gas
Spectral data UV, IR, NMR, MS
 YesY (verify) (what is: YesY/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Methanol, also known as methyl alcohol, wood alcohol, wood naphtha or wood spirits, is a chemical with the formula CH3OH (often abbreviated MeOH). It is the simplest alcohol, and is a light, volatile, colorless, flammable liquid with a distinctive odor very similar to, but slightly sweeter than, ethanol (drinking alcohol).[4] At room temperature, it is a polar liquid, and is used as an antifreeze, solvent, fuel, and as a denaturant for ethanol. It is also used for producing biodiesel via transesterification reaction.

Methanol is produced naturally in the anaerobic metabolism of many varieties of bacteria, and is ubiquitous in the environment. As a result, there is a small fraction of methanol vapor in the atmosphere. Over the course of several days, atmospheric methanol is oxidized with the help of sunlight to carbon dioxide and water.

Methanol burns in air, forming carbon dioxide and water:

2 CH3OH + 3 O2 → 2 CO2 + 4 H2O

Because of its toxic properties, methanol is frequently used as a denaturant additive for ethanol manufactured for industrial uses — this addition of methanol exempts industrial ethanol from liquor excise taxation. Methanol is often called wood alcohol because it was once produced chiefly as a byproduct of the destructive distillation of wood.

Contents

History

In their embalming process, the ancient Egyptians used a mixture of substances, including methanol, which they obtained from the pyrolysis of wood. Pure methanol, however, was first isolated in 1661 by Robert Boyle, when he produced it via the distillation of buxus (boxwood). It later became known as "pyroxylic spirit". In 1834, the French chemists Jean-Baptiste Dumas and Eugene Peligot determined its elemental composition.

They also introduced the word "methylene" to organic chemistry, forming it from Greek methy = "wine" + hȳlē = wood (patch of trees), with Greek language errors: "wood (substance)" (Greek xylon) was intended, and the components in the wrong order for Greek. The term "methyl" was derived in about 1840 by back-formation from "methylene", and was then applied to describe "methyl alcohol". This was shortened to "methanol" in 1892 by the International Conference on Chemical Nomenclature. The suffix -yl used in organic chemistry to form names of carbon groups, was extracted from the word "methyl".

In 1923, the German chemists Alwin Mittasch and Mathias Pier, working for BASF, developed a means to convert synthesis gas (a mixture of carbon monoxide, carbon dioxide, and hydrogen) into methanol. A patent was filed Jan 12 1926 (reference no. 1,569,775). This process used a chromium and manganese oxide catalyst, and required extremely vigorous conditions—pressures ranging from 50 to 220 atm, and temperatures up to 450 °C. Modern methanol production has been made more efficient through use of catalysts (commonly copper) capable of operating at lower pressures, the modern low pressure methanol (LPM) was developed by ICI in the late 1960s with the technology now owned[citation needed] by Johnson Matthey, which is a leading licensor of methanol technology.

Methanol is one of the most heavily traded chemical commodities in the world, with an estimated global demand of around 27 to 29 million metric tons. In recent years, production capacity has expanded considerably, with new plants coming on-stream in South America, China and the Middle East, the latter based on access to abundant supplies of methane gas. Even though nameplate production capacity (coal-based) in China has grown significantly, operating rates are estimated to be as low as 50 to 60%. No new production capacity is scheduled to come on-stream until 2015.

The main applications for methanol are formaldehyde (used in construction and wooden boarding), acetic acid (basis for a.o. PET-bottles), MTBE (fuel component) and more recently as an ester group in the production of bio-diesel. In China, demand is expected to grow exponentially, not only caused by a growing internal market of the traditional applications, but accelerated by new applications, such as direct blending (with gasoline), Methanol-To-Olefins (e.g. propylene) and DME. Methanol can also be used to produce gasoline.

The use of methanol as a motor fuel received attention during the oil crises of the 1970s due to its availability, low cost, and environmental benefits. By the mid-1990s, over 20,000 methanol "flexible fuel vehicles" capable of operating on methanol or gasoline were introduced in the U.S. In addition, low levels of methanol were blended in gasoline fuels sold in Europe during much of the 1980s and early-1990s. Automakers stopped building methanol FFVs by the late-1990s, switching their attention to ethanol-fueled vehicles. While the methanol FFV program was a technical success, rising methanol pricing in the mid- to late-1990s during a period of slumping gasoline pump prices diminished the interest in methanol fuels. Additionally, methanol is highly corrosive to rubber and many synthetic polymers used in the automotive industry, whereas ethanol is not.[5]

In 2006, astronomers using the MERLIN array of radio telescopes at Jodrell Bank Observatory discovered a large cloud of methanol in space, 288 billion miles across.[6][7]

Production

Today, synthesis gas is most commonly produced from the methane component in natural gas rather than from coal. Three processes are commercially practiced. At moderate pressures of 4 MPa (40 atm) and high temperatures (around 850 °C), methane reacts with steam on a nickel catalyst to produce syngas according to the chemical equation:

CH4 + H2O → CO + 3 H2

This reaction, commonly called steam-methane reforming or SMR, is endothermic, and the heat transfer limitations place limits on the size of and pressure in the catalytic reactors used. Methane can also undergo partial oxidation with molecular oxygen to produce syngas, as the following equation shows:

2 CH4 + O2 → 2 CO + 4 H2

This reaction is exothermic, and the heat given off can be used in-situ to drive the steam-methane reforming reaction. When the two processes are combined, it is referred to as autothermal reforming. The ratio of CO and H2 can be adjusted to some extent by the water-gas shift reaction,

CO + H2O → CO2 + H2,

to provide the appropriate stoichiometry for methanol synthesis.

The carbon monoxide and hydrogen then react on a second catalyst to produce methanol. Today, the most widely used catalyst is a mixture of copper, zinc oxide, and alumina first used by ICI in 1966. At 5–10 MPa (50–100 atm) and 250 °C, it can catalyze the production of methanol from carbon monoxide and hydrogen with high selectivity:

CO + 2 H2 → CH3OH

It is worth noting that the production of synthesis gas from methane produces three moles of hydrogen gas for every mole of carbon monoxide, while the methanol synthesis consumes only two moles of hydrogen gas per mole of carbon monoxide. One way of dealing with the excess hydrogen is to inject carbon dioxide into the methanol synthesis reactor, where it, too, reacts to form methanol according to the equation:

CO2 + 3 H2 → CH3OH + H2O

Although natural gas is the most economical and widely used feedstock for methanol production, many other feedstocks can be used to produce syngas via steam reforming. Coal is increasingly being used as a feedstock for methanol production, particularly in China. In addition, mature technologies available for biomass gasification are being used for methanol production. For instance, woody biomass can be gasified to water gas (a hydrogen-rich syngas), by introducing a blast of steam in a blast furnace. The water-gas / syngas can then be synthesized to methanol using standard methods. The net process is carbon neutral, since the CO2 byproduct is required to produce biomass via photosynthesis.

2 C16H23O11 + 19 H2O + O2 → 42 H2 + 21 CO + 11 CO2 → 21 CH3OH + 11 CO2

Applications

Methanol, a common laboratory solvent, is especially useful for HPLC, UV/VIS spectroscopy, and LCMS due to its low UV cutoff.

Feedstock

The largest use of methanol by far is in making other chemicals. About 40% of methanol is converted to formaldehyde, and from there into products as diverse as plastics, plywood, paints, explosives, and permanent press textiles.

Also in the early 1970s, a methanol to gasoline process was developed by Mobil for producing gasoline ready for use in vehicles. One such industrial facility was built at Motunui in New Zealand in the 1980s. In the 1990s, large amounts of methanol were used in the United States to produce the gasoline additive methyl tert-butyl ether (MTBE). While MTBE is no longer marketed in the U.S., it is still widely used in other parts of the world. In addition to direct use as a fuel, methanol (or less commonly, ethanol) is used as a component in the transesterification of triglycerides to yield a form of biodiesel.

Other chemical derivatives of methanol include dimethyl ether, which has replaced chlorofluorocarbons as an aerosol spray propellant, and acetic acid. Dimethyl ether (DME) also can be blended with liquified petroleum gas (LPG) for home heating and cooking, and can be used as a diesel replacement for transportation fuel.

Fuel for vehicles

Methanol is used on a limited basis to fuel internal combustion engines. Pure methanol is required by rule to be used in Champcars, Monster Trucks, USAC sprint cars (as well as midgets, modifieds, etc.), and other dirt track series, such as World of Outlaws, and Motorcycle Speedway. Methanol is also used, as the primary fuel ingredient since the late 1940s, in the powerplants for radio control, control line and free flight airplanes (as methanol is required in the engines that primarily power them), cars and trucks, from such an engine's use of a platinum filament glow plug being able to ignite the methanol vapor through a catalytic reaction. Drag racers and mud racers, as well as heavily modified tractor pullers, also use methanol as their primary fuel source. Methanol is required with a supercharged engine in a Top Alcohol dragster and, until the end of the 2006 season, all vehicles in the Indianapolis 500 had to run methanol. Mud racers have mixed methanol with gasoline and nitrous oxide to produce more power than gasoline and nitrous oxide alone.

One of the potential drawbacks of using high concentrations of methanol (and other alcohols, such as ethanol) in fuel is its corrosivity to some metals, particularly aluminum. Methanol, although a weak acid, attacks the oxide coating that normally protects the aluminum from corrosion:

6 CH3OH + Al2O3 → 2 Al(OCH3)3 + 3 H2O

The resulting methoxide salts are soluble in methanol, resulting in a clean aluminium surface, which is readily oxidized by dissolved oxygen. Also, the methanol can act as an oxidizer:

6 CH3OH + 2 Al → 2 Al(OCH3)3 + 3 H2

This reciprocal process effectively fuels corrosion until either the metal is eaten away or the concentration of CH3OH is negligible. Concerns with methanol's corrosivity have been addressed by using methanol-compatible materials, and fuel additives that serve as corrosion inhibitors.

When produced from wood or other organic materials, the resulting organic methanol (bioalcohol) has been suggested as renewable alternative to petroleum-based hydrocarbons. Low levels of methanol can be used in existing vehicles, with the use of proper cosolvents and corrosion inhibitors. The European Fuel Quality Directive allows up to 3% methanol with an equal amount of cosolvent to be blending in gasoline sold in Europe. Today, China uses more than one billion gallons of methanol per year as a transportation fuel in both low level blends used in existing vehicles, and as high level blends in vehicles designed to accommodate the use of methanol fuels.

Other applications

Methanol is a traditional denaturant for ethanol, the product being known as "methylated spirit".[8]

Methanol is also used as a solvent, and as an antifreeze in pipelines and windshield washer fluid.

In some wastewater treatment plants, a small amount of methanol is added to wastewater to provide a carbon food source for the denitrifying bacteria, which convert nitrates to nitrogen to reduce the nitrification of sensitive aquifers.

During World War II, methanol was used as a fuel in several German military rocket designs, under the name M-Stoff, and in a mixture known as C-Stoff.

Methanol was used as an automobile coolant antifreeze in the early 1900s.[9]

Methanol is used as a denaturing agent in polyacrylamide gel electrophoresis.

Direct-methanol fuel cells are unique in their low temperature, atmospheric pressure operation, allowing them to be miniaturized to an unprecedented degree. This, combined with the relatively easy and safe storage and handling of methanol may open the possibility of fuel cell-powered consumer electronics, such as for laptop computers and mobile phones.[10]

Methanol is also a widely used fuel in camping and boating stoves. Methanol burns well in an unpressurized burner, so alcohol stoves are often very simple, sometimes little more than a cup to hold fuel. This lack of complexity makes them a favorite of hikers who spend extended time in the wilderness.

Methanol is mixed with water and injected into high performance diesel engines for an increase of power and a decrease in exhaust gas temperature in a process known as water methanol injection.

Health and safety

Toxicity

Methanol has a high toxicity in humans. If ingested, for example, as little as 10 mL of pure methanol can cause permanent blindness by destruction of the optic nerve, and 30 mL is potentially fatal,[11] although a fatal dose is typically 100–125 mL (4 fl oz) (i.e. 1–2 mL/kg of pure methanol[12]). Toxic effects take hours to start, and effective antidotes can often prevent permanent damage.[11] Because of its similarities to ethanol (the alcohol in beverages), it is difficult to differentiate between the two (such is the case with denatured alcohol).

Methanol is toxic by two mechanisms. First, methanol (whether it enters the body by ingestion, inhalation, or absorption through the skin) can be fatal due to its CNS depressant properties in the same manner as ethanol poisoning. Second, in a process of toxication, it is metabolized to formic acid (which is present as the formate ion) via formaldehyde in a process initiated by the enzyme alcohol dehydrogenase in the liver.[13] Methanol is converted to formaldehyde via alcohol dehydrogenase (ADH) and formaldehyde is converted to formic acid (formate) via aldehyde dehydrogenase (ALDH). The conversion to formate via ALDH proceeds completely, with no detectable formaldehyde remaining.[14] Formate is toxic because it inhibits mitochondrial cytochrome c oxidase, causing the symptoms of hypoxia at the cellular level, and also causing metabolic acidosis, among a variety of other metabolic disturbances.[15] Fetal tissue will not tolerate methanol.

Methanol poisoning can be treated with the antidotes ethanol or fomepizole.[13][16][17] Both drugs act to reduce the action of alcohol dehydrogenase on methanol by means of competitive inhibition, so it is excreted by the kidneys rather than being transformed into toxic metabolites.[13] Further treatment may include giving sodium bicarbonate for metabolic acidosis, and hemodialysis or hemodiafiltration can be used to remove methanol and formate from the blood.[13] Folinic acid or folic acid is also administered to enhance the metabolism of formate.[13]

The initial symptoms of methanol intoxication include central nervous system depression, headache, dizziness, nausea, lack of coordination, confusion, and with sufficiently large doses, unconsciousness and death. The initial symptoms of methanol exposure are usually less severe than the symptoms resulting from the ingestion of a similar quantity of ethanol.[4] Once the initial symptoms have passed, a second set of symptoms arises, 10 to as many as 30 hours after the initial exposure to methanol, including blurring or complete loss of vision and acidosis.[13] These symptoms result from the accumulation of toxic levels of formate in the blood, and may progress to death by respiratory failure. Small amounts of methanol are produced by the metabolism of food and are generally harmless, being metabolized quickly and completely.

Ethanol is sometimes denatured (adulterated), and thus made undrinkable, by the addition of methanol. The result is known as methylated spirit, "meths" (UK use) or "metho" (Australian slang). These are not to be confused with "meth", a common U.S. abbreviation for methamphetamine, and U.K. abbreviation for methadone.

Safety in automotive fuels

Pure methanol has been used in open wheel auto racing since the mid-1960s. Unlike petroleum fires, methanol fires can be extinguished with plain water. A methanol-based fire burns invisibly, unlike gasoline, which burns with a visible flame. If a fire occurs on the track, there is no flame or smoke to obstruct the view of fast approaching drivers, but this can also delay visual detection of the fire and the initiation of fire suppression. The decision to permanently switch to methanol in American IndyCar racing was a result of the devastating crash and explosion at the 1964 Indianapolis 500, which killed drivers Eddie Sachs and Dave MacDonald.[18] In 2007 IndyCars switched to ethanol.[19]

Methanol is readily biodegradable in both aerobic (oxygen present) and anaerobic (oxygen absent) environments. Methanol will not persist in the environment. The half-life for methanol in groundwater is just one to seven days, while many common gasoline components have half-lives in the hundreds of days (such as benzene at 10–730 days). Since methanol is miscible with water and biodegradable, it is unlikely to accumulate in groundwater, surface water, air or soil.[20]

See also

References

  1. ^ "Methanol". The PubChemProject. USA: National Center for Biotechnology Information. http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=887&loc=ec_rcs. 
  2. ^ Ballinger, P.; Long, F.A. (1960). "Acid Ionization Constants of Alcohols. II. Acidities of Some Substituted Methanols and Related Compounds". J. Am. Chem. Soc. 82 (4): 795–798. doi:10.1021/ja01489a008. 
  3. ^ "The Emergency Response Safety and Health Database: Systematic Agent: METHANOL". Centers for Disease Control and Prevention. http://www.cdc.gov/niosh/ershdb/EmergencyResponseCard_29750029.html#er. Retrieved 26 August 2009. 
  4. ^ a b National Institute for Occupational Safety and Health (August 22, 2008). "The Emergency Response Safety and Health Database: Methanol". http://www.cdc.gov/niosh/ershdb/EmergencyResponseCard_29750029.html. Retrieved March 17, 2009. 
  5. ^ James D. Halderman; Tony Martin (2009). Hybrid and alternative fuel vehicles. Pearson/Prentice Hall. ISBN 9780135044148. http://books.google.com/books?id=LqgeAQAAIAAJ. Retrieved 21 February 2011. 
  6. ^ "Upgraded MERLIN spies cloud of alcohol spanning 288 billion miles" (Press release). Jodrell Bank Centre for Astrophysics. 2006-04-19. http://www.jodrellbank.manchester.ac.uk/news/2006/cloud/. 
  7. ^ Jonathan Amos (2006-04-05). "Merlin sees vast alcohol stream". BBC News. http://news.bbc.co.uk/2/hi/science/nature/4878048.stm. 
  8. ^ Blum, Deborah (2010-02-19). "The little-told story of how the U.S. government poisoned alcohol during Prohibition. – By Deborah Blum – Slate Magazine". Slate.com. http://www.slate.com/id/2245188/. Retrieved 2010-06-10. 
  9. ^ "Methanol Antifreeze and Methanol Poisoning – Industrial & Engineering Chemistry (ACS Publications)". Pubs.acs.org. 2002-05-01. http://pubs.acs.org/doi/abs/10.1021/ie50257a020. Retrieved 2010-06-10. 
  10. ^ Sandy Berger (September 30, 2006). "Methanol Laptop Fuel". Compu·Kiss. http://www.compukiss.com/populartopics/tech_gadgetshtm/article887.htm. Retrieved 2007-05-22. 
  11. ^ a b Vale A (2007). "Methanol". Medicine 35 (12): 633–4. doi:10.1016/j.mpmed.2007.09.014. 
  12. ^ "Methanol Poisoning Overview". Antizol. http://www.antizol.com/mpoisono.htm. Retrieved 4/10/11. 
  13. ^ a b c d e f Schep LJ, Slaughter RJ, Vale JA, Beasley DM (Sep 30 2009). "A seaman with blindness and confusion". BMJ 339: b3929. doi:10.1136/bmj.b3929. PMID 19793790. http://www.bmj.com/cgi/content/full/339/sep30_1/b3929. 
  14. ^ McMartin KE, Martin-Amat G, Noker PE, Tephly TR (March 1979). "Lack of a role for formaldehyde in methanol poisoning in the monkey". Biochem. Pharmacol. 28 (5): 645–9. doi:10.1016/0006-2952(79)90149-7. PMID 109089. http://linkinghub.elsevier.com/retrieve/pii/0006-2952(79)90149-7. 
  15. ^ Liesivuori J, Savolainen H (September 1991). "Methanol and formic acid toxicity: biochemical mechanisms". Pharmacol. Toxicol. 69 (3): 157–63. doi:10.1111/j.1600-0773.1991.tb01290.x. PMID 1665561. 
  16. ^ Casavant MJ (Jan 2001). "Fomepizole in the treatment of poisoning". Pediatrics 107 (1): 170. doi:10.1542/peds.107.1.170. PMID 11134450. http://pediatrics.aappublications.org/cgi/content/full/107/1/170. 
  17. ^ Brent J (May 2009). "Fomepizole for ethylene glycol and methanol poisoning". N Engl J Med 360 (21): 2216–23. doi:10.1056/NEJMct0806112. PMID 19458366. 
  18. ^ McDonald, Norris (2007-04-21). "Green no longer bad luck at Indy". Toronto Star. http://www.thestar.com/comment/columnists/article/205088. Retrieved 2010-05-12. 
  19. ^ "IndyCar Series Teams Begin Use Of Ethanol-Blended Fuel". Indycar.com. 2005-12-01. http://www.indycar.com/news/archive/show/55-izod-indycar-series/28531-indycar-series-teams-begin-use-of-ethanol-blended-fuel/. Retrieved 2010-11-07. 
  20. ^ Reference: Evaluation of the Fate and Transport of Methanol in the Environment, Malcolm Pirnie, January 1999.

Further reading

External links


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