Wine Chemistry and Biochemistry

(Steven Felgate) #1

146 R. Marchal and P. Jeandet


5.1.5.3 Isinglass


Isinglass is a positively charged fining agent derived from the air bladder of fish. It


is available as sheet or flocculated isinglass. The flocculated form is the easiest form


to work with, because it does not have to be rinsed to remove fishy odors. Isinglass


is used principally in white still and sparkling wines to clean up the aromas, improve


clarity and modify the finish without significantly modifying tannin levels. Usage


levels are typically from 1 g/hL to 3 g/hL (Marchal et al. 2003).


5.1.5.4 Casein


Casein is nearly insoluble and must be dissolved at pH 11. Potassium caseinate


is water-soluble and is preferred for this reason. Sodium caseinate is usually not


used because it increases the sodium content of wine. Casein is a positively charged


protein that flocculates in acidic mediasuch as wine. When added to wine, casein


adsorbs and mechanically removes suspended materials as it settles. In general,


casein is used to remove undesirable odors, to bleach color and to clarify white


wines. It is sometimes used as a substitute for carbon in color modification of juice


and white wine. Usage levels are typically 10–30 g/hL.


5.1.5.5 Carbon


Activated carbons are nonspecific adsorptive agents made from wood. The sponge-


like carbon binds with weakly polar molecules, especially those containing benzene


rings. Carbon effectively removes phenolic compounds, especially small phenolic


compounds. Compounds larger than dimers are too large to be adsorbed. Stripping


of wine is often a problem with carbon because of its low selectivity and great


care has to be taken with its use. Carbon also contains a large quantity of air, and


oxidation sometimes follows carbon addition if the carbon is not quickly and thor-


oughly removed. The addition of carbon to juice rather than wine helps to diminish


carbon-induced oxidation. Usage levels are typically 10–50 g/hL.


5.1.6 Equipment for the Addition of Fining Agents to Wine


The efficaciousness of fining is dependent uponthe agent, the method of preparation


and addition, the quantity employed, the pH, the metal content, the temperature, the


age of the wine, and also previous treatments undergone by the wine. Fining is a


surface action performed by the agent (adsorption); therefore, the method of hydra-


tion and addition of the agent is of extreme importance. Four common methods


of adding fining agents are: (1) through a “Y” on the suction side of a positive


displacement pump while transferringor mixing; (2) through an “in line” propor-


tioning pump; (3) through a “T” into a Guth-type tank mixer; (4) added slowly in


slurry form to a barrel using a dowel to stir in a figure-eight motion through the


bung hole (Zoecklein 1988b).

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