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Geraniol flavour/aroma

The "impact compound that provides the primary stimulus for fruit character in the raspberry is the ketone, l-(p-hydroxphenyl)-3-butanone 11). Other important flavour contributors are cw-3-hexen-l-ol, a - and p - ionones, and a - irone (72, 13). In R. arcticus the characteristic aroma is considered to be from mesifiirane (70). It has, however, been reported that steam distillates of raspberries can be assessed for aroma content using a colorimetric procedure and 80% of aroma is accounted for by geraniol, nerol, linalool, a - terpineol and die ionones (13). [Pg.110]

Fig. 23.4 Organophilic pervaporation (PV) for in situ recovery of volatile flavour compounds from bioreactors. The principle of PV can be viewed as a vacuum distillation across a polymeric barrier (membrane) dividing the liquid feed phase from the gaseous permeate phase. A highly aroma enriched permeate is recovered by freezing the target compounds out of the gas stream. As a typical silicone membrane, an asymmetric poly(octylsiloxane) (POMS) membrane is exemplarily depicted. Here, the selective barrier is a thin POMS layer on a polypropylene (PP)/poly(ether imide) (PEI) support material. Several investigations of PV for the recovery of different microbially produced flavours, e.g. 2-phenylethanol [119], benzaldehyde [264], 6-pentyl-a-pyrone [239], acetone/buta-nol/ethanol [265] and citronellol/geraniol/short-chain esters [266], have been published... Fig. 23.4 Organophilic pervaporation (PV) for in situ recovery of volatile flavour compounds from bioreactors. The principle of PV can be viewed as a vacuum distillation across a polymeric barrier (membrane) dividing the liquid feed phase from the gaseous permeate phase. A highly aroma enriched permeate is recovered by freezing the target compounds out of the gas stream. As a typical silicone membrane, an asymmetric poly(octylsiloxane) (POMS) membrane is exemplarily depicted. Here, the selective barrier is a thin POMS layer on a polypropylene (PP)/poly(ether imide) (PEI) support material. Several investigations of PV for the recovery of different microbially produced flavours, e.g. 2-phenylethanol [119], benzaldehyde [264], 6-pentyl-a-pyrone [239], acetone/buta-nol/ethanol [265] and citronellol/geraniol/short-chain esters [266], have been published...
Cardullo AC, Ruszkowski AM, Deleo VA (1989) Allergic contact dermatitis resulting from sensitivity to citrus peel, geraniol and citral. J Am Acad Dermatol 21 395-397 Collins FW, Mitchell JC (1975) Aroma chemicals. Reference sources for perfume and flavour ingredients with special reference to cinnamic aldehyde. Contact Dermatitis 1 43-47 Fisher AA (1982) Dermatitis of the hands from food additives. Cutis 30 304... [Pg.866]

The aroma of apricots (Armeniaca vulgaris, syn. Prunus armeniaca, Rosaceae) is composed of a large number of different substances. Important components are monoterpenic hydrocarbons, alcohols and aldehydes (myrcene, hmonene, p-cymene, terpinolene, a-terpineol, geranial, geraniol and hnalool in particular) and aldehydes with green flavour, such as (Z)-hex-3-enal and acetaldehyde. Other volatile components include products of oxidation of fatty acids, such as (2 ,6Z)-nona-2,6-dienal, (Z)-octa-l,5-dien-3-one, lactones (y-hexalactone, y-octalactone, y-decalactone, y-dodecalactone, 8-decalactone and 8-dodecalactone), carboxylic acids (especially, 2-methylbutanoic and acetic acids) and degradation products of carotenoids, such as P-ionone. [Pg.612]

See other pages where Geraniol flavour/aroma is mentioned: [Pg.6]    [Pg.154]    [Pg.164]    [Pg.165]    [Pg.125]    [Pg.372]    [Pg.364]    [Pg.365]    [Pg.364]    [Pg.365]   


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