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The analysis involves a reaction with N,N-diethyl-1,4-phenylenediamine (DPD), which forms a compound possessing a red color at a pH of 6.2–6.5. The color is measured photometrically at 510 nm. Total chlorine is measured through the addition of potassium iodide, of which a known amount in excess of that required is added to the solution in advance.

The unfiltered water sample is extracted using a non-polar solvent (e.g., pentane), and the extract is measured using gas chromatography with a flame ionization detector.

Chloride ions are precipitated with silver nitrate as silver chloride. The endpoint of the titration can be determined by means of a conductometer. The conductivity increases as soon as all of the chloride ions are eliminated, causing the concentration of the unbound silver nitrate to increase.

Acetic acid (acetate) is converted to acetyl-CoA in the presence of the enzyme acetyl-CoA synthetase (ACS) by adenosine-5'-triphosphate (ATP) and coenzyme A (CoA). 

Acetate + ATP + CoA   \(^{\underrightarrow{ACS}}\)    Acetyl-CoA + AMP + pyrophosphate

Acetyl-CoA reacts with oxaloacetate in the presence of citrate synthase (CS) to form citrate.

Acetyl-CoA + oxaloacetate + H₂O   \(^{\underrightarrow{CS}}\)   citrate + CoA

The oxaloacetic acid required for reaction (2) is produced from malic acid and nicotinamide adenine dinucleotide (NAD) in the presence of malate dehydrogenase (MDH). In doing so, NAD is reduced to NADH:

Malate + NAD⁺    \(^{\underleftrightarrow{L-MDH}}\)   oxaloacetate + NADH + H⁺

The formation of NADH forms the basis of this analysis, which is measured as an increase in the absorbance at 340, 334 or 365 nm. Since this concerns a previous indicator reaction, the quantity of NADH is not linearly proportional to the acetic acid concentration.

Fruit juices:

The acid spectrum typical of certain types of fruit are used, along with other criteria, as a basis for recognizing unadulterated fruit juices. Tartaric acid, citric acid and L-malic acid are recorded here, which, with a few exceptions, determine the total acidity of the fruit.

Citric acid occurs as the primary acid in citrus juices and other juices. Orange juice usually contains 3–17 g/l citric acid (AIJN).

In citrus juices, an addition of citric acid can be detected via the citric acid/D-isocitric acid ratio, as this lies within relatively narrow limits. In orange juice, values below 130 are found.

D-isocitric acid is partly present in fruit products as a lactone. The lactone must first be saponified prior to enzymatic determination in order to detect the total D-isocitric acid content.

Malt, wort and beer:

Citric acid is an organic acid and is present in malt and wort and is also produced during fermentation.

Citric acid (citrate) is converted to oxaloacetic acid and acetic acid catalyzed by the enzyme citrate lyase (CL):

Citrate oxaloacetic ^{\(^{\underrightarrow{CL}}\)} acid + acetate

In the presence of the enzymes malate dehydrogenase (MDH) and lactate dehydrogenase (LDH), oxaloacetic acid and its decarboxylation product pyruvic acid are reduced to L-malic acid and L-lactic acid, respectively, by reduced nicotinamide adenine dinucleotide (NADH):

Oxaloacetate + NADH + H^{+ \(^{\underrightarrow{L-MDH}}\)} L-malate + NAD⁺

Pyruvate + NADH + H^{+   \(^{\underrightarrow{L-LDH}}\)}L-lactate + NAD⁺

The sum of the quantity of NADH consumed during the reaction is equivalent to the quantity of citric acid. The absorbance is determined photometrically at 334, 340 or 365 nm.