Method and Apparatus for Characterization and Analysis of Aroma Mixtures
- Technology Benefits
- The novel invention allows for the non-reductive characterization of complex aromas and flavors. The invention can be used to identify subsets of compounds in a sample that are responsible for the aroma character of the sample.The invention does not require chemical standards, reductive aroma models, or calculation of Odor Activity Values to identify important subsets of compounds that contribute to a substance's aroma and flavor. The invention allows for the characterization of emergent perceptual properties that arise from the interactions of complex volatile mixtures that are encountered in everyday smell and flavor situations.
- Technology Application
- Analysis and characterization of aromas and component volatiles are vital features in food, beverage, substance detection, and cosmetic industries
- Detailed Technology Description
- Aroma perception is the result of stimulation of the olfactory system by volatile chemicals and mixtures. Most current analytical approaches for characterizing and quantifying the relationship between aroma perception and chemical composition in complex mixtures (e.g., foods, beverages and perfumes) require an initial separation of the mixture into individual components. The components are identified and quantified and those compounds that are determined to be present at concentrations above sensory thresholds may be obtained in pure form and then mixed back together to make an aroma reconstitute that matches as closely as possible the original aroma of the sample. Such methodologies are necessarily reductive in their approach, however, and do not fully assess the aroma quality of complex mixtures of compounds, particularly in cases where not all aroma-active compounds can be characterized or accurately quantified. As a result, these previous methods frequently suffer "reconstitution discrepancy," wherein the aroma of the reconstitution still smells different from the original mixture. Researchers at the University of California Davis have devised a novel platform to assess the perceptual effect of mixing an arbitrary number of volatile compounds from a mixture without the need for reconstitution with pure chemical standards. This novel instrumentation and method allow for in-instrument preparation of mixtures containing precise sections from a sample's chromatogram, up to and including the entire volatile fraction, allowing for aroma characterization of the impact of one or a few volatiles in a complex mixture.
- Supplementary Information
- Patent Number: MY126511A
Application Number: MY1999PI1023A
Inventor: DR. CHAN SEI
Priority Date: 18 Mar 1999
Priority Number: MY126511A
Application Date: 18 Mar 1999
Publication Date: 31 Oct 2006
IPC Current: H02K003700
Assignee Applicant: Institut Teknologi Mara
Title: TWO PHASE VARI
Usefulness: TWO PHASE VARI
Summary: Two-phase switched variable reluctance motor e.g. axial flux motor and linear reluctant motor (all claimed).
Novelty: Two-phase switched variable reluctance motor e.g. axial flux motor, has stator including poles with unequal pitches, where rotor pole is in zero torque generating position while another rotor pole is in position for generating torque
- Industry
- Measurement/Testing
- Sub Category
- Measurement Platform
- Application No.
- 9188568
- Others
-
Related Materials
Tech ID/UC Case
22331/2012-462-0
Related Cases
2012-462-0
- *Abstract
-
Complex mixtures of aroma compounds are often responsible for the overall aroma of a food, beverage, cosmetic or other product. Two or more odorants can frequently lead to an aroma that is not similar to any of its components. A new method and apparatus allow for more precise and informative analysis and characterization of aromas and volatile constituents.
- *IP Issue Date
- Nov 17, 2015
- *Principal Investigator
-
Name: Susan Ebeler
Department:
Name: Arielle Johns
Department:
Name: Greg Hirson
Department:
- Country/Region
- USA
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