Yu JingHua scite author profile

Yu JingHua

4Publications

14Citation Statements Received

315Citation Statements Given

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194

309

Affiliations

Shanghai Shipbuilding Technology Research Institute, Tianjin University of Science and Technology

Publications

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Comparison of backslopping and two‐stage fermentation methods for koumiss powder production based on chemical composition and nutritional properties

Wang

Zhang

et al. 2020

J Sci Food Agric

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BACKGROUND: Koumiss is a traditional fermented beverage made from mare's milk. The traditional backslopping method for koumiss production has shortcomings in terms of microbiological diversity and nutritional characteristics. In this study, a twostage fermentation method was established to scale up the production of koumiss powder. The chemical composition and nutritional properties of a novel two-stage fermentation koumiss powder (TKP) were compared with backslopping koumiss powder (BKP).RESULTS: The TKP exhibited important nutritional and functional properties, including a high percentage of essential amino acids, and high polyunsaturated fatty acid, vitamin, and mineral content. The essential amino acid content of TKP was not significantly different from that of BKP. The oleic acid, linoleic acid, linolenic acid, and water-soluble vitamin content of TKP was higher than that of BKP. The Ca:P ratio of TKP was also close to the optimal Ca:P ratio in humans.CONCLUSION: The novel method could be applied for the scaled-up production of koumiss powder with similar nutritional properties to traditional backslopping koumiss powder. The successful production of koumiss powder could also promote the development of the koumiss industry.

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Membrane separation processes for enrichment of bovine and caprine milk oligosaccharides from dairy byproducts

Wang

JingHua

2021

Comp Rev Food Sci Food Safe

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Breast milk is an ideal source of human milk oligosaccharides (HMOs) for isolation and purification. However, breast milk is not for sale and at most is distributed to neonatal intensive care units as donor milk. To overcome this limitation, isolating HMOs analogs including bovine milk oligosaccharides (BMOs) and caprine milk oligosaccharides (CMOs) from other sources is timely and significant. Advances in the development of equipment and analytical methods have revealed that dairy processing byproducts are good sources of BMOs and CMOs. Enrichment of these oligosaccharides from dairy byproducts, such as whey, permeate, and mother liquor, is of increasing academic and economic value. The commonly employed approach for oligosaccharides purification is chromatographic technique, but it is only used at lab scale. In the dairy industry, chromatographic methods (large‐scale ion exchange, 10,000 L size) are currently routinely used for the isolation/purification of milk proteins (e.g., lactoferrin). In contrast, membrane technology has been proven to be a suitable approach for the isolation and purification of BMOs and CMOs from dairy byproducts. Therefore, this review simply introduces BMOs and CMOs in dairy processing byproducts. This review also summarizes membrane separation processes for isolating and purifying BMOs and CMOs from different dairy byproducts. Finally, the technological challenges and solutions of each processing strategy are discussed in detail.

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Rapid Assessment of Cell Viability of Lactobacillus casei after Freeze-Drying by Measurement Cell Membrane Using Flow Cytometry and Fluorescence Probes

Wang

Liu

JingHua

2013

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Research on the Pre-sintering Temperature During the Preparation of (1-x) NBT–xBaTiO₃ Serial Ceramics

JingHua

Feng

2021

J. Phys.: Conf. Ser.

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According to the formula of (1-x)NBT-xBaTiO3, this study selects different composition points and measures the volume density and piezoelectric property of the samples at different pre-sintering temperatures, ultimately determining the optimal pre-sintering temperature. Experiments show that for ceramic based on (1-x)NBT-xBaTiO3, when x<0.06 the optimal pre-sintering temperature should be 900°C; when x≥0.06, it should be 950°C.

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Yu JingHua

Comparison of backslopping and two‐stage fermentation methods for koumiss powder production based on chemical composition and nutritional properties

Membrane separation processes for enrichment of bovine and caprine milk oligosaccharides from dairy byproducts

Rapid Assessment of Cell Viability of Lactobacillus casei after Freeze-Drying by Measurement Cell Membrane Using Flow Cytometry and Fluorescence Probes

Research on the Pre-sintering Temperature During the Preparation of (1-x) NBT–xBaTiO₃ Serial Ceramics

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Yu JingHua

Comparison of backslopping and two‐stage fermentation methods for koumiss powder production based on chemical composition and nutritional properties

Membrane separation processes for enrichment of bovine and caprine milk oligosaccharides from dairy byproducts

Rapid Assessment of Cell Viability of Lactobacillus casei after Freeze-Drying by Measurement Cell Membrane Using Flow Cytometry and Fluorescence Probes

Research on the Pre-sintering Temperature During the Preparation of (1-x) NBT–xBaTiO3 Serial Ceramics

Contact Info

Product

Resources

About

Research on the Pre-sintering Temperature During the Preparation of (1-x) NBT–xBaTiO₃ Serial Ceramics