Volatile Partitioning Between Milk Fat and Aqueous Phases as Influenced by Temperature |
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Materials and Methods 35 3.1 Partitioning between 1 - octanol and water . ... 44 3.2.1 Partitioning of alcohols in milk fat and water as influenced by temperature .45 3.2.2 Method controls in milk fat and water partitioning systems .
Materials and Methods 35 3.1 Partitioning between 1 - octanol and water . ... 44 3.2.1 Partitioning of alcohols in milk fat and water as influenced by temperature .45 3.2.2 Method controls in milk fat and water partitioning systems .
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List of Figures Figure # Title Page # 4.1 Deviation between ethanol partitioning in 1 - octanol and water versus in milk fat and water as influenced by temperature 79 4.2 Deviation between 1 - propanol partitioning in 1 - octanol and ...
List of Figures Figure # Title Page # 4.1 Deviation between ethanol partitioning in 1 - octanol and water versus in milk fat and water as influenced by temperature 79 4.2 Deviation between 1 - propanol partitioning in 1 - octanol and ...
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3.2.2 Method controls in milk fat and water partitioning systems Blanks ( negative controls ) were prepared by combining water with injection standard and acetone in the same proportions as aqueous phase samples .
3.2.2 Method controls in milk fat and water partitioning systems Blanks ( negative controls ) were prepared by combining water with injection standard and acetone in the same proportions as aqueous phase samples .
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Contents
Review of Literature | 3 |
Materials and Methods | 35 |
Results and Discussion | 50 |
4 other sections not shown
Common terms and phrases
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 error ethanol evidence 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 Sangster saturated separate similar slope solid fat content solubility solute solvent stirring suggest Table understanding verify versus vial volatiles volume water partitioning