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中国精品科技期刊2020
李瑞林,郭玉杰,刘济千,等. 骨胶原蛋白肽纳滤脱盐工艺优化及其对产品整体感官品质的提升作用[J]. 食品工业科技,2023,44(10):160−167. doi: 10.13386/j.issn1002-0306.2022070068.
引用本文: 李瑞林,郭玉杰,刘济千,等. 骨胶原蛋白肽纳滤脱盐工艺优化及其对产品整体感官品质的提升作用[J]. 食品工业科技,2023,44(10):160−167. doi: 10.13386/j.issn1002-0306.2022070068.
LI Ruilin, GUO Yujie, LIU Jiqian, et al. Optimization of Nanofiltration Desalination Process of Bone Collagen Peptide and Its Effect on Improving the Overall Sensory Quality of Products[J]. Science and Technology of Food Industry, 2023, 44(10): 160−167. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022070068.
Citation: LI Ruilin, GUO Yujie, LIU Jiqian, et al. Optimization of Nanofiltration Desalination Process of Bone Collagen Peptide and Its Effect on Improving the Overall Sensory Quality of Products[J]. Science and Technology of Food Industry, 2023, 44(10): 160−167. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022070068.

骨胶原蛋白肽纳滤脱盐工艺优化及其对产品整体感官品质的提升作用

Optimization of Nanofiltration Desalination Process of Bone Collagen Peptide and Its Effect on Improving the Overall Sensory Quality of Products

  • 摘要: 为了降低骨胶原蛋白肽灰分含量,并提升骨胶原蛋白肽产品的品质。本文采用纳滤脱盐的方法对灰分进行脱除,通过设计响应面试验对骨胶原蛋白肽纳滤脱盐工艺参数进行优化,并分析纳滤膜处理后样品的理化指标、氨基酸含量、分子量分布、各元素的含量及感官评分的变化。结果表明,骨胶原蛋白肽最优脱盐工艺条件为样品浓度5%,循环次数7次,压力0.5 MPa,此时脱盐率为65.89%±1.25%;纳滤膜处理后样品品质明显提升,但氨基酸含量变化不大;通过分子量分布的测定,发现纳滤脱盐对分子量分布变化影响较小,样品分子量小于3000 Da的组分占比97%,符合食品安全国家标准GB 31645-2018骨胶原蛋白肽的规定;利用ICP-MS对脱盐前后的各元素含量变化进行分析,发现样品中各元素含量均有不同程度的减少,Na、K、P、Mg、Ca等元素含量显著减少(P<0.05);通过感官评价发现经纳滤脱盐的样品颜色变化不大,清澈度提升,咸味明显减弱,整体可接受度提升。本研究将为生产高品质骨胶原蛋白肽产品提供技术支撑。

     

    Abstract: To reduce the ash content of bone collagen peptide and improve the quality of bone collagen peptide products. In this paper, the method of nanofiltration desalination was used to remove ash. The process parameters for nanofiltration desalination of bone collagen peptides were optimized through design response tests. The changes in physical and chemical indicators, amino acid content, molecular weight distribution, content of various elements, and sensory scores of samples treated with nanofiltration membranes were analyzed. Results showed that, the optimal desalination process conditions were sample concentration of 5%, cycle times of 7 times and pressure of 0.5 MPa. Under this condition, the desalination rate was 65.89%±1.25%. After nanofiltration membrane treatment, the quality of the sample was significantly improved, but the amino acid content did not change much. Through the measurement of molecular weight distribution, it was found that nanofiltration desalination had little impact on the change of molecular weight distribution, the components with molecular weight less than 3000 Da accounted for 97%, which was in line with the provisions of the national food safety standard GB 31645-2018 bone collagen peptides. ICP-MS was used to analyze the changes in the content of various elements before and after desalination, and it was found that the content of various elements in the sample decreased to varying degrees, the content of Na, K, P, Mg, Ca decreased significantly (P<0.05). Through sensory evaluation, it was found that the color of the samples did not change while the clarity increased, the saltiness decreased significantly, the overall acceptability increased. This study would provide technical support for the production of high-quality bone collagen peptide products.

     

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