Recreational drug As a
central nervous system depressant, ethanol is one of the most commonly consumed
psychoactive drugs. Despite alcohol's psychoactive, addictive, and
carcinogenic properties, it is readily available and legal for sale in many countries. There are laws regulating the sale, exportation/importation, taxation, manufacturing, consumption, and possession of alcoholic beverages. The most common regulations are
excise, and prohibition for minors. In mammals, ethanol is primarily
metabolized in the
liver and
stomach by
ADH enzymes. These enzymes catalyze the
oxidation of ethanol into
acetaldehyde (ethanal): :CH3CH2OH + NAD+ → CH3CHO +
NADH + H+ When present in significant concentrations, this metabolism of ethanol is additionally aided by the
cytochrome P450 enzyme
CYP2E1 in humans, while trace amounts are also metabolized by
catalase. The resulting intermediate, acetaldehyde, is a known carcinogen, and poses significantly greater toxicity in humans than ethanol itself. Many of the symptoms typically associated with alcohol intoxication—as well as many of the health hazards typically associated with the long-term consumption of ethanol—can be attributed to acetaldehyde toxicity in humans. The subsequent oxidation of acetaldehyde into
acetate is performed by
aldehyde dehydrogenase (ALDH) enzymes. A mutation in the ALDH2 gene that encodes for an inactive or dysfunctional form of this enzyme affects roughly 50% of east Asian populations, contributing to the characteristic
alcohol flush reaction that can cause temporary reddening of the skin as well as a number of related, and often unpleasant, symptoms of acetaldehyde toxicity. This mutation is typically accompanied by another mutation in the ADH enzyme
ADH1B in roughly 80% of east Asians, which improves the catalytic efficiency of converting ethanol into acetaldehyde. This use carries the high risk of deadly
alcohol intoxication,
pulmonary aspiration and vomiting, which led to use of alternatives in antiquity, such as
opium and
cannabis, and later diethyl ether, starting in the 1840s. Ethanol is used as an
antiseptic in medical wipes and
hand sanitizer gels for its bactericidal and anti-fungal effects. Ethanol kills
microorganisms by dissolving their membrane
lipid bilayer and
denaturing their
proteins, and is effective against most
bacteria,
fungi and
viruses. It is ineffective against bacterial
spores, which can be treated with
hydrogen peroxide. A solution of 70% ethanol is more effective than pure ethanol because ethanol relies on water molecules for optimal antimicrobial activity. Absolute ethanol may inactivate microbes without destroying them because the alcohol is unable to fully permeate the microbe's membrane. Ethanol can also be used as a disinfectant and antiseptic by inducing cell dehydration through disruption of the osmotic balance across the cell membrane, causing water to leave the cell, leading to cell death. Ethanol may be administered as an
antidote to
ethylene glycol poisoning and
methanol poisoning. It does so by acting as a
competitive inhibitor against
methanol and
ethylene glycol for
alcohol dehydrogenase (ADH). Though it has more side effects, ethanol is less expensive and more readily available than
fomepizole in the role. Ethanol is used to dissolve many water-insoluble medications and related compounds. Liquid preparations of
pain medications,
cough and cold medicines, and mouth washes, for example, may contain up to 25% ethanol and may need to be avoided in individuals with adverse reactions to ethanol such as
alcohol-induced respiratory reactions. Ethanol is present mainly as an antimicrobial preservative in over 700 liquid preparations of medicine including
acetaminophen,
iron supplements,
ranitidine,
furosemide,
mannitol,
phenobarbital,
trimethoprim/sulfamethoxazole and
over-the-counter cough medicine. Some medicinal solutions of ethanol are also known as
tinctures.
Energy source The largest single use of ethanol is as an engine
fuel and
fuel additive.
Brazil in particular relies heavily upon the use of ethanol as an engine fuel, due in part to its role as one of the world's leading producers of ethanol.
Gasoline sold in Brazil contains at least 25%
anhydrous ethanol. Hydrous ethanol (about 95% ethanol and 5% water) can be used as fuel in more than 90% of new gasoline-fueled cars sold in the country. The US and many other countries primarily use E10 (10% ethanol, sometimes known as gasohol) and E85 (85% ethanol) ethanol/gasoline mixtures. Over time, it is believed that a material portion of the ≈ per year market for gasoline will begin to be replaced with fuel ethanol. ethanol for laboratory use Australian law limits the use of pure ethanol from
sugarcane waste to 10% in automobiles. Older cars (and vintage cars designed to use a slower burning fuel) should have the engine valves upgraded or replaced. According to an industry
advocacy group, ethanol as a fuel reduces harmful
tailpipe emissions of carbon monoxide, particulate matter,
oxides of nitrogen, and other ozone-forming pollutants.
Argonne National Laboratory analyzed greenhouse gas emissions of many different engine and fuel combinations, and found that
biodiesel/petrodiesel blend (
B20) showed a reduction of 8%, conventional
E85 ethanol blend a reduction of 17% and
cellulosic ethanol 64%, compared with pure gasoline. Ethanol has a much greater research octane number (RON) than gasoline, meaning it is less prone to pre-ignition, allowing for better ignition advance which means more torque, and efficiency in addition to the lower carbon emissions. Ethanol
combustion in an
internal combustion engine yields many of the products of incomplete combustion produced by gasoline and significantly larger amounts of
formaldehyde and related species such as acetaldehyde. This leads to a significantly larger photochemical reactivity and more
ground level ozone. This data has been assembled into The Clean Fuels Report comparison of fuel emissions and show that ethanol exhaust generates 2.14 times as much ozone as gasoline exhaust. When this is added into the custom
Localized Pollution Index of The Clean Fuels Report, the local pollution of ethanol (pollution that contributes to smog) is rated 1.7, where gasoline is 1.0 and higher numbers signify greater pollution. The
California Air Resources Board formalized this issue in 2008 by recognizing control standards for formaldehydes as an emissions control group, much like the conventional
NOx and reactive organic gases (ROGs). More than 20% of Brazilian cars are able to use 100% ethanol as fuel, which includes ethanol-only engines and
flex-fuel engines. Flex-fuel engines in Brazil are able to work with all ethanol, all gasoline or any mixture of both. In the United States, flex-fuel vehicles can run on 0% to 85% ethanol (15% gasoline) since higher ethanol blends are not yet allowed or efficient. Brazil supports this fleet of ethanol-burning automobiles with large national infrastructure that produces ethanol from domestically grown sugarcane. Ethanol's high
miscibility with water makes it unsuitable for shipping through modern
pipelines like liquid hydrocarbons. Mechanics have seen increased cases of damage to small engines (in particular, the
carburetor) and attribute the damage to the increased water retention by ethanol in fuel. Ethanol was commonly used as fuel in early
bipropellant rocket (liquid-propelled) vehicles, in conjunction with an
oxidizer such as liquid oxygen. The German A-4 ballistic rocket of
World War II (better known by its propaganda name ), which is credited as having begun the space age, used ethanol as the main constituent of . Under such nomenclature, the ethanol was mixed with 25% water to reduce the combustion chamber temperature. The design team helped develop U.S. rockets following World War II, including the ethanol-fueled
Redstone rocket, which launched the first U.S. astronaut on
suborbital spaceflight. Alcohols fell into general disuse as more energy-dense rocket fuels were developed, Commercial fuel cells operate on reformed natural gas,
hydrogen or methanol. Ethanol is an attractive alternative due to its wide availability, low cost, high purity and low toxicity. There is a wide range of fuel cell concepts that have entered trials including
direct-ethanol fuel cells, auto-thermal reforming systems and thermally integrated systems. The majority of work is being conducted at a research level although there are a number of organizations at the beginning of the commercialization of ethanol fuel cells. Ethanol fireplaces can be used for home heating or for decoration. Ethanol can also be used as stove fuel for cooking.
Other uses Ethanol is an important industrial ingredient with widespread uses as a precursor for other organic compounds such as ethyl
halides, ethyl
esters, diethyl ether, acetic acid, and ethyl
amines. As ethanol also has a low
boiling point, it is easy to remove from a solution that has been used to dissolve other compounds, making it a popular extracting agent for botanical oils. Ethanol is found in
paints, tinctures, markers, personal care products such as mouthwashes, perfumes and deodorants, and
wet specimen preservatives.
Polysaccharides precipitate from aqueous solution in the presence of alcohol, and ethanol precipitation is used for this reason in the purification of
DNA and
RNA. Because of its low
freezing point of and low toxicity, ethanol is sometimes used in laboratories (with
dry ice or other coolants) as a
cooling bath to keep vessels at temperatures below the freezing point of water. For the same reason, it is also used as the active fluid in
alcohol thermometers. Ethanol is also used in removing several stains, as it is considered a universal solvent. Its
molecular structure allows for the dissolving of both
polar,
hydrophilic and
nonpolar,
hydrophobic compounds. It can be used to dissolve
oils,
inks, and other substances. == Chemistry ==