Flavor quality evaluation of Pixian Douban fermented in the closed system of multi-scale temperature and flow fields

In this study, a material of pseudoplastic fluid was obtained by dealing with the original material of Pixian Douban (PXDB). The multi-scale temperature and flow fields (MTFF) were established, and a PXDB product fermented in the MTFF (PFM) was obtained. Meanwhile, the material of pseudoplastic fluid and the original material was also fermented into PXDB products named MPTF and OMP, respectively, following the traditional process. The contents of major physicochemical indexes, organic acids and free amino acids in the PFM were higher than those in the MPTF and OMP. A total of 112, 102, 105 volatile compounds were detected in the PFM, MPTF and OMP. The PFM was rich in esters and alcohols while MPTF was abundant in aldehydes. The PFM possessed higher soy sauce-like, umami, sour taste and sour smell by quantitative descriptive analysis (QDA). The PFM was positively correlated with many indexes by partial least squares discriminant analysis (PLS-DA), such as all physicochemical properties, Asp, Glu, C3 and A8. These results indicated that the flavor of PFM was richest, which showed that a PXDB product with higher quality could be obtained in MTFF.

Automated summary

In this study, a pseudoplastic fluid material was obtained from the original material of Pixian Douban. By establishing the multi-scale temperature and flow fields, a fermented Pixian Douban product was obtained. Compared to the traditional process, the fermented product had higher physicochemical indexes, organic acids and free amino acids. The volatile compounds in the product were also different. The quantitative descriptive analysis and partial least squares discriminant analysis showed that the product had a richer flavor and was positively correlated with various indexes.