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Acetic acid is produced both synthetically and by bacterial fermentation. Today, the biological route accounts for only about 10% of world production, but it remains important for vinegar production, as many nations' food purity laws stipulate that vinegar used in foods must be of biological origin. About 75% of acetic acid made for use in the chemical industry is made by methanol carbonylation, explained below. Alternative methods account for the rest. Total worldwide production of virgin acetic acid is estimated at 5 Mt/a (million tonnes per year), approximately half of which is produced in the USA.
Methanol carbonylation Most virgin acetic acid is produced by methanol carbonylation. In this process, methanol and carbon monoxide react to produce acetic acid according to the chemical equation: : CH3OH + CO → CH3COOH The process involves iodomethane as an intermediate, and occurs in three steps. A catalyst, usually a metal complex, is needed for the carbonylation (step 2). : (1) CH3OH + HI → CH3I + H2O : (2) CH3I + CO → CH3COI : (3) CH3COI + H2O → CH3COOH + HI By altering the process conditions, acetic anhydride may also be produced on the same plant. Because both methanol and carbon monoxide are commodity raw materials, methanol carbonylation long appeared to be an attractive method for acetic acid production.
Acetaldehyde oxidation Prior to the commercialization of the Monsanto process, most acetic acid was produced by oxidation of acetaldehyde. This remains the second most important manufacturing method, although it is uncompetitive with methanol carbonylation. The acetaldehyde may be produced via oxidation of butane or light naphtha, or by hydration of ethylene. When butane or light naphtha is heated with air in the presence of various metal ions, including those of manganese, cobalt and chromium; peroxides form and then decompose to produce acetic acid according to the chemical equation: : 2 C4H10 + 5 O2 → 4 CH3COOH + 2 H2O Typically, the reaction is run at a combination of temperature and pressure designed to be as hot as possible while still keeping the butane a liquid. Typical reaction conditions are 150 °C and 55 atm. Side products may also form, including butanone, ethyl acetate, formic acid, and propionic acid. These side products are also commercially valuable, and the reaction conditions may be altered to produce more of them if this is economically useful. However, the separation of acetic acid from these by-products adds to the cost of the process.
Under similar conditions and using similar catalysts as are used for butane oxidation, acetaldehyde can be oxidized by the oxygen in air to produce acetic acid
: 2 CH3CHO + O2 → 2 CH3COOH Using modern catalysts, this reaction can have an acetic acid yield greater than 95%. The major side products are ethyl acetate, formic acid, and formaldehyde, all of which have lower boiling points than acetic acid and are readily separated by distillation.
Ethylene oxidation Acetaldehyde may be prepared from ethylene via the Wacker process, and then oxidized as above. More recently a cheaper single-stage conversion of ethylene to acetic acid was commercialized by chemical company Showa Denko, which opened an ethylene oxidation plant in Ōita, Japan, in 1997. The process is catalysed by a palladium metal catalyst supported on a heteropoly acid such as tungstosilicic acid. It is thought to be competitive with methanol carbonylation for smaller plants (100-250 kt/a), depending on the local price of ethylene.
Oxidative fermentation For most of human history, acetic acid, in the form of vinegar, has been made by acetic acid bacteria of the genus Acetobacter. Given sufficient oxygen, these bacteria can produce vinegar from a variety of alcoholic foodstuffs. Commonly used feeds include apple cider, wine, and fermented grain, malt, rice, or potato mashes. The overall chemical reaction facilitated by these bacteria is: : C2H5OH + O2 → CH3COOH + H2O A dilute alcohol solution inoculated with Acetobacter and kept in a warm, airy place will become vinegar over the course of a few months. Industrial vinegar-making methods accelerate this process by improving the supply of oxygen to the bacteria.
Most vinegar today is made in submerged tank culture, first described in 1949 by Otto Hromatka and Heinrich Ebner. In this method, alcohol is fermented to vinegar in a continuously stirred tank, and oxygen is supplied by bubbling air through the solution. Using modern applications of this method, vinegar of 15% acetic acid can be prepared in only 24 hours in batch process, even 20% in 60 hour fed-batch process. Anaerobic fermentation Species of anaerobic bacteria, including members of the genus Clostridium, can convert sugars to acetic acid directly, without using ethanol as an intermediate. The overall chemical reaction conducted by these bacteria may be represented as: : C6H12O6 → 3 CH3COOH More interestingly from the point of view of an industrial chemist, these acetogenic bacteria can produce acetic acid from one-carbon compounds, including methanol, carbon monoxide, or a mixture of carbon dioxide and hydrogen: : 2 CO2 + 4 H2 → CH3COOH + 2 H2O
What else can I help you with?
What are the components of pickling brine?
Vinegar
Can you use vinegar to purify water?
Vinegar may help to disinfect water by killing some types of bacteria and pathogens, but it is not a reliable method for purifying water. It is recommended to use methods like boiling, filtering, or using water purification tablets to ensure water is safe to drink.
What are the components of mayonnaise?
the components of mayonaise are eggs vinegar and oil hoped it helped thankyou byee
What are the components of vigegar?
Vinegar is CH3COOH its also called acetic acid or ethanoic acid
Is oil and vinegar salad homogenous or heterogenous?
Heterogeneous materials can be separated as they are made from separate components. Oil and vinegar salad dressing is an example of heterogeous product.
Why does a pill dissolve in vinegar?
A pill dissolves in vinegar due to the chemical reaction between the acid in the vinegar and the components of the pill. The acid breaks down the pill's ingredients, causing it to dissolve and disperse into the liquid.
Is oil and vinegar salad dressing heterogeneous or homogeneous?
Heterogeneous materials can be separated as they are made from separate components. Oil and vinegar salad dressing is an example of heterogeous product.
Is a heterogeneous mixture oil and vinegar air vinegar in water sugar water?
Yes, a heterogeneous mixture is one in which the components are not uniformly distributed, like oil and vinegar. An example of a heterogeneous mixture is oil and vinegar salad dressing. Another example is sand and water, where the sand particles do not dissolve in the water.
Is vinegar a pure substance or a compound?
Normal table vinegar is a mixture. However, it is mostly composed of the compound: ethanoic acid or acetic acid.
Does vinegar have the same water concentration as an egg?
No, vinegar has a higher water concentration compared to an egg. Vinegar is primarily composed of water, whereas an egg has water, protein, and fats in addition to other components like vitamins and minerals.
A method of separation used to purify water?
a method of separation purify water
What is the antonym for contaminate?
The antonym for contaminate is purify.
