Volatile Partitioning Between Milk Fat and Aqueous Phases as Influenced by Temperature |
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Page 27
7 Flavor formation in cheese The flavor of cheese is influenced by a complex
series of chemical and biochemical reactions . Breakdown of carbohydrates , fats
and proteins leads to the development of volatile and nonvolatile flavor
compounds ...
7 Flavor formation in cheese The flavor of cheese is influenced by a complex
series of chemical and biochemical reactions . Breakdown of carbohydrates , fats
and proteins leads to the development of volatile and nonvolatile flavor
compounds ...
Page 28
well as differences in the concentration of flavor compounds developed during
ripening ON ( Dimos et al . , 1996 ... Previous studies have tried to establish a link
between the release of flavor precursors and the resulting development of flavor .
well as differences in the concentration of flavor compounds developed during
ripening ON ( Dimos et al . , 1996 ... Previous studies have tried to establish a link
between the release of flavor precursors and the resulting development of flavor .
Page 33
9 Research objectives This chapter has reviewed some of the basic principles of
partitioning and relevant me research in cheese flavor development . To further
advance this field , more research is needed . An understanding of how and why
...
9 Research objectives This chapter has reviewed some of the basic principles of
partitioning and relevant me research in cheese flavor development . To further
advance this field , more research is needed . An understanding of how and why
...
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1-butanol 1-heptanol 1-octanol and water 1-propanol according acetone achieved acid activity Additional alcohols allowed analysis anhydrous milk fat approximately aqueous phase associated calculated cheese chromatography compared comparison compounds concentration conducted constant containing correlation crystal curve decrease dependent determined Deviation difference diffusion dissolved effect emulsion energy enthalpy entropy equilibrium conditions et al ethanol experiments factor fat and water flavor development globule greater groups hydrophobic impact improve increase indicates influenced by temperature initially injection standard interactions less levels limited lipid liquid Log Kmw mass mean measured melting method milk fat minutes mixing models needed observed partition coefficient peak area physical polar prepared properties proteins ratio reactions reduced regression reported sample saturated separate slope solid fat content solubility solute solvent stirring suggest Table understanding values verify versus vial volatiles volume water partitioning