Different degrees of roasting result in differences in the quality and flavor of large-leaf yellow tea. The current sensory evaluation and chemical detection methods cannot meet the requirement of online differentiation of LYT roasting degree, so an accurate and comprehensive assessment method needs to be developed urgently. First, the two aroma sensing technologies were compared. Two variable screening methods and three recognition algorithms were employed to build discriminant models. The results showed that the discrimination rate of the colorimetric sensor array (CSA) in the prediction set reached 91.89 %, outperforming that of the E-nose. Subsequently, three fusion strategies were applied to improve the discrimination accuracy. The discrimination rate of the middle fusion strategy resulted in an optimal resolution of 94.59 %. The results obtained from the homologous fusion were able to evaluate the roasting degree comprehensively and accurately, which provides a new method and idea for tea aroma quality.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10828643 | PMC |
| http://dx.doi.org/10.1016/j.fochx.2024.101124 | DOI Listing |
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Article Synopsis
- The study explored how different roasting degrees of coffee affect caffeine content and extraction yields, using 30 unique combinations of coffee varieties, roasting degrees, and brew times.
- An AeroPress was used for brewing, and measurement techniques included refractometry for extraction yield and HPLC for caffeine content, showing that higher roasting degrees increased seed porosity but generally reduced extraction yields.
- Interestingly, while caffeine concentrations were lower in dark roasts compared to light and medium roasts under the same brewing conditions, dark roasts had higher caffeine levels when extraction yields were matched, suggesting complex interactions between roasting and brewing processes.
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