Novel assistive technologies for efficient freezing of pork based on high voltage electric field and static magnetic field: A comparative study

IF 6.3 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Innovative Food Science & Emerging Technologies Pub Date : 2022-08-01 DOI:10.1016/j.ifset.2022.103087
Rui Hu , Min Zhang , Arun S. Mujumdar
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引用次数: 13

Abstract

To enhance the freezing rate and thawed product quality of pork tenderloin, an experimental study was conducted using the high voltage electric field and static magnetic field separately during freezing. Pork tenderloin pieces were frozen at −20 °C under several high voltage electric fields (10 kV/m (HVEF1), 30 kV/m (HVEF3), 50 kV/m (HVEF5)) and magnetic fields of 2 mT (MF2), 4 mT (MF4), 6 mT (MF6) and 8 mT (MF8). The effects of different methods on freezing rate, ice crystal size as well as the distribution, and product quality after thawing were investigated. The freezing time of pork tenderloin was reduced by 40.04% and 37.81% respectively, under the optimal electric and magnetic field conditions tested. The thawing loss decreased from 5.7% of conventional freezing to 1.7% of HVEF1 and 2.4% of MF2, respectively. In addition, both high-voltage electric field freezing and magnetic field freezing can better maintain the moisture state in the sample. The results for color and pH confirmed that the thawed product quality using HVEF1 and MF2 was superior to that obtained under other conditions. The myofibrillar protein in the thawed products obtained from HVEF1 and MF2 treatments was also found to be thermally more stable. It is noteworthy that the HVEF1 treated sample has the highest umami signal and the lowest salty signal. Considering the enhanced freezing efficiency and improved quality, application of HVEF1 is recommended as a viable strategy to produce high-quality frozen pork tenderloin.

Industrial relevance

The slow freezing rate of frozen meat products and serious deterioration of product quality are the key problems. Therefore, improving the efficiency of freezing is desirable. This study provides ideas for pork preservation. It caters to the need of industrial production of meat product where better efficiency freezing process is highly desirable, and the findings of this study is beneficial to the meat processing industry.

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基于高压电场和静磁场的猪肉高效冷冻新辅助技术的比较研究
为提高猪里脊肉的冷冻速率和解冻产品质量,在冷冻过程中分别使用高压电场和静磁场进行了实验研究。猪里脊肉块在- 20°C的低温下,在10 kV/m (HVEF1)、30 kV/m (HVEF3)、50 kV/m (HVEF5)的高压电场和2 mT (MF2)、4 mT (f4)、6 mT (MF6)和8 mT (MF8)的磁场下冷冻。考察了不同冷冻方式对冷冻速率、冰晶大小、冰晶分布及解冻后产品质量的影响。在最佳电场和磁场条件下,猪里脊肉的冷冻时间分别缩短了40.04%和37.81%。解冻损失从传统冷冻的5.7%下降到HVEF1的1.7%和MF2的2.4%。此外,高压电场冻结和磁场冻结都能更好地保持样品中的水分状态。颜色和pH值的测定结果表明,HVEF1和MF2的解冻产品质量优于其他条件下的解冻产品。从HVEF1和MF2处理中获得的解冻产品中的肌原纤维蛋白也被发现在热上更稳定。值得注意的是,HVEF1处理后的样品鲜味信号最高,咸味信号最低。考虑到冷冻效率的提高和品质的改善,推荐采用HVEF1作为生产高品质冷冻猪里脊的可行策略。冷冻肉制品的冷冻速度慢,产品质量严重恶化是关键问题。因此,提高冷冻效率是可取的。本研究为猪肉保鲜提供了思路。它满足了肉制品工业生产对高效冷冻工艺的要求,本研究结果对肉制品加工业有一定的借鉴意义。
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来源期刊
CiteScore
12.00
自引率
6.10%
发文量
259
审稿时长
25 days
期刊介绍: Innovative Food Science and Emerging Technologies (IFSET) aims to provide the highest quality original contributions and few, mainly upon invitation, reviews on and highly innovative developments in food science and emerging food process technologies. The significance of the results either for the science community or for industrial R&D groups must be specified. Papers submitted must be of highest scientific quality and only those advancing current scientific knowledge and understanding or with technical relevance will be considered.
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