食品科学 ›› 2020, Vol. 41 ›› Issue (19): 140-145.doi: 10.7506/spkx1002-6630-20190903-043

• 食品工程 • 上一篇    下一篇

蒸汽爆破对牛骨理化特性的影响

张舒晴,刘圣勇,马鹏   

  1. (1.河南农业大学机电工程学院,河南?郑州 450002;2.河南农业大学 农业农村部农村可再生能源新材料与装备重点实验室,河南?郑州 450002;3.郑州工程技术学院生物质高值利用研发中心,河南?郑州 450044)
  • 出版日期:2020-10-15 发布日期:2020-10-23
  • 基金资助:
    河南省科技开放合作项目(182106000012);公益性行业(农业)科研专项(201503135); 郑州工程技术学院引进高层次人才基金项目

Effect of Steam Explosion on Physicochemical Characteristics of Bovine Bone

Zhang Shuqing, Liu Shengyong, MA Peng   

  1. (1. College of Mechanical and Electrical Engineering, Henan Agricultural University, Zhengzhou 450002, China; 2. Key Laboratory of New Materials and Facilities for Rural Renewable Energy, Ministry of Agriculture and Rural Affairs, Henan Agricultural University, Zhengzhou 450002, China; 3. Research and Development Center of High Value Utilization of Biomass, Zhengzhou Institute of Technology, Zhengzhou 450044, China)
  • Online:2020-10-15 Published:2020-10-23

摘要: 目的:为探究蒸汽爆破对牛骨理化特性的影响,并为牛骨加工提供新的处理方式。方法:以牛骨为原料,采用蒸汽爆破技术制备骨液,使用物质结构分析仪、傅里叶变换红外光谱仪、凯氏定氮仪等对样品进行分析,研究其粒度、硬度、蛋白质含量、钙和磷含量及成分结构的变化。将压强和时间作为蒸汽爆破处理的参数,分别选取5 个水平,配对成25 组实验。结果:蒸汽爆破后固态牛骨的占比随着压强的增大及时间的延长而减少;牛骨液中蛋白质及钙含量显著增大(P<0.05)。特别是高压及长时间蒸汽爆破能够加速牛骨中无机物及蛋白质的流失、弱化骨骼强度、使骨碎片化、增强钙离子的释放率。通过对比傅里叶变换红外光谱图发现,牛骨经蒸汽爆破后,其图谱随着压强的增大和时间的延长逐渐接近羟基磷灰石的图谱,并且C—H键强度的减小证实蒸汽爆破可以有效地减少牛骨中的有机成分。结论:蒸汽爆破技术可作为制备牛骨深加工产品及羟基磷灰石的一种前期处理手段,实现牛骨的高效利用。

关键词: 牛骨;理化特性;蒸汽爆破;羟基磷灰石

Abstract: Objective: This study aimed to explore the effect of steam explosion on the physicochemical properties of bovine bones for the purpose of providing a new method for beef bone processing. Methods: Steam explosion was applied to treat bovine bone to investigate the granularity, hardness, and protein, calcium and phosphorus contents of the treated samples as a function of pressure and holding time. Five levels were selected for either processing parameter, and they were combined to form 25 experiments. The treated samples were analyzed by a texture analyzer, Fourier transform infrared spectrometer (FTIR), and a Kjeldahl analyzer. Results: Bone hardness decreased with increasing either pressure or holding time. The amounts of protein and calcium released from bones increased markedly (P < 0.05). In particular, steam explosion under the condition of high pressure or long holding time accelerate the loss of inorganic matters and protein, weakened bone strength, fragmented bones, and enhanced the release of calcium ions. As the pressure or holding time increased, the FTIR spectrum of the treated bovine bones was increasingly similar to that of hydroxyl apatite, and the intensity of C–H bond vibrations decreased indicating that steam explosion causes significant loss of organic components from bovine bones. Conclusion: Steam explosion is useful as a pretreatment approach for the preparation of deeply processed bovine bone products and hydroxyl apatite for high-efficiency utilization of bovine bones.

Key words: bovine bones; physicochemical characteristics; steam explosion; hydroxyl apatite

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