冰点预冷-变速液氮冻结对生鲜黄鳝片品质的影响及冻结能耗特性评价

doi:10.7506/spkx1002-6630-20250916-128

食品科学 ›› 2026, Vol. 47 ›› Issue (7): 251-261.doi: 10.7506/spkx1002-6630-20250916-128

冰点预冷-变速液氮冻结对生鲜黄鳝片品质的影响及冻结能耗特性评价

刘娜，王双琳，廖鄂，陈季旺，杨倩

（1.武汉轻工大学食品科学与工程学院，湖北武汉 430023；2.农产品加工与转化湖北省重点实验室（武汉轻工大学），湖北武汉 430023；3.湖北仙桃黄鳝加工乡村振兴科技创新示范基地，湖北仙桃 433018；4.湖北允泰坊食品有限公司，湖北仙桃 433018）

出版日期:2026-04-15 发布日期:2026-05-08
基金资助:
湖北省重点研发计划项目（2023BBB111）；中央引导地方科技发展专项（2022BGE247）；湖北省乡村振兴科技支撑项目（2022BBA147）；农产品加工与转化湖北省重点实验室项目（2023HBSQGDKFA01）

Effect of Freezing-Point Precooling Followed by Variable-Rate Liquid Nitrogen Freezing on the Quality of Fresh Monopterus albus Slices and Evaluation of Freezing Energy Consumption Characteristics

LIU Na, WANG Shuanglin, LIAO E, CHEN Jiwang, YANG Qian

(1. School of Food Science and Engineering, Wuhan Polytechnic University, Wuhan 430023, China;2. Hubei Key Laboratory for Processing and Transformation of Agricultural Products (Wuhan Polytechnic University), Wuhan 430023, China; 3. Hubei Xiantao Monopterus albus Processing Rural Revitalization Science and Technology Innovation Demonstration Base, Xiantao 433018, China; 4. Hubei Yuntaifang Food Co. Ltd., Xiantao 433018, China)

Online:2026-04-15 Published:2026-05-08

摘要/Abstract

摘要： 为提升生鲜黄鳝片液氮冻结品质并降低能耗成本，本研究通过多梯度液氮冻结温度（－50～－120 ℃）拟合冻结速率-温度曲线，探究不同冻结速率对生鲜黄鳝持水力（水分含量、持水率、解冻损失率）、水分状态、质构特性、冰晶形态、肌肉组织微观结构等品质指标的影响，开发“冰点预冷-变速液氮冻结（freezing-point precooling variable-rate liquid nitrogen freezing，PC-V-LNF）”（－1.36 ℃→9 ℃/min→4 ℃/min）技术并进行冻结能耗特性评价。结果表明：液氮冻结温度与冻结速率间存在线性关系（y＝－3.668 6x－43.082，R2＝0.981）；与6 ℃/min液氮冻结速率样品相比，9 ℃/min冻结样品的结合水占比（P21）降低19.00%，不易流动水占比（P22）提升1.40%，硬度、咀嚼性分别增长39.44%、264.90%（P＜0.05），且冰晶间隙减小、肌纤维结合更紧密；当冻结速率增加至12 ℃/min时，较9 ℃/min冻结样品中咀嚼性下降21.23%（P＜0.05），冰晶间隙稍有增大。恒速液氮冻结（constant-rate liquid nitrogen freezing，C-LNF）（9 ℃/min）、变速液氮冻结（variable-rate liquid nitrogen freezing，V-LNF）（9 ℃/min→4 ℃/min）、PC-V-LNF（－1.36 ℃→9 ℃/min→4 ℃/min）样品较冰柜冻结（freezer freezing，FF）（0.38 ℃/min）样品水分含量提升7.87%～10.90%，持水率提升11.36%～13.39%，解冻损失率降低27.60%～35.43%（P＜0.05）；其中，PC-V-LNF冻结处理样品较C-LNF、V-LNF处理组，持水力、水分状态、硬度、弹性、咀嚼性和回复性及肌纤维完整性均无显著差异（P＞0.05）。能耗特性评价结果显示，C-LNF、V-LNF和PC-V-LNF处理每1 t样品的液氮消耗量分别为7 920、6 712、5 233 L，耗电量分别为16.8、14.4、2.52 kW·h；经核算，PC-V-LNF较C-LNF、V-LNF液氮消耗量分别降低33.93%、22.04%，综合费用分别降低34.02%、22.15%。综上所述，本研究开发的PC-V-LNF技术可在提升生鲜黄鳝冻结品质的同时显著降低能耗成本，为黄鳝生鲜制品高效液氮速冻保鲜提供理论依据与技术支撑。

关键词: 生鲜黄鳝；液氮；冰点预冷；变速冻结；冻结品质；能耗特性

Abstract: To enhance the quality of liquid nitrogen-frozen fresh Monopterus albus fillets and reduce energy consumption costs, this study established a freezing rate versus temperature curve for liquid nitrogen freezing at various temperature gradients (–50 to –120 ℃), and investigated the effects of varying freezing rates on quality parameters of fresh M. albus, including water-holding capacity (moisture content, water-holding rate, and thawing loss), water state, textural properties, ice crystal morphology, and muscle tissue microstructure. On this basis, a “freezing-point precooling followed by variable-rate liquid nitrogen freezing” protocol (PC-V-LNF, precooling at −1.36 ℃ and then freezing at varying rates from 9 to 4 ℃/min) was developed, and its energy consumption characteristics were evaluated. The results demonstrated a linear relationship between liquid nitrogen freezing temperature and freezing rate (y = −3.668 6x − 43.082, R2 = 0.981). Compared with samples frozen at 6 ℃/min, the proportion of bound water (P21) in samples frozen at 9 ℃/min decreased by 19.00%, and the proportion of immobilized water (P22) increased 1.40%; the hardness and chewiness increased by 39.44% and 264.90%, respectively (P < 0.05), accompanied by reduced gaps between ice crystals and more compact arrangement of muscle fibers. As the freezing rate increased from 9 to 12 ℃/min, the chewiness decreased by 21.23% (P < 0.05), and the gaps between ice crystals slightly increased. Relative to freeze-frozen samples (FF, 0.38 ℃/min), the moisture content of samples subjected to constant-rate liquid nitrogen freezing (C-LNF, 9 ℃/min), variable-rate liquid nitrogen freezing (V-LNF, 9 → 4 ℃/min), or PC-V-LNF increased by 7.87%–10.90%, the water-holding rate increased by 11.36%–13.39%, and the thawing loss decreased by 27.60%–35.43% (P < 0.05). Notably, PC-V-LNF resulted in no significant differences in water-holding capacity, water state, hardness, springiness, chewiness, resilience, or muscle fiber integrity compared with C-LNF and V-LNF (P > 0.05). The evaluation results of energy consumption characteristics revealed that the liquid nitrogen consumption of C-LNF, V-LNF, and PC-V-LNF were 7 920, 6 712, and 5 233 L per ton of samples, respectively, with electricity consumption of 16.8, 14.4, and 2.52 kW·h, respectively. Compared with C-LNF and V-LNF, PC-V-LNF reduced liquid nitrogen consumption by 33.93% and 22.04% and lowered comprehensive cost by 34.02% and 22.15%, respectively. In conclusion, PC-V-LNF enhances freezing quality in fresh M. albus while significantly reducing energy costs, providing theoretical and technical support for the efficient liquid nitrogen quick-freezing preservation of fresh M. albus products.

Key words: fresh Monopterus albus; liquid nitrogen; freezing-point precooling; variable-rate freezing; freezing quality; energy consumption characteristics

中图分类号:

TS254.4

刘娜，王双琳，廖鄂，陈季旺，杨倩. 冰点预冷-变速液氮冻结对生鲜黄鳝片品质的影响及冻结能耗特性评价[J]. 食品科学, 2026, 47(7): 251-261.

LIU Na, WANG Shuanglin, LIAO E, CHEN Jiwang, YANG Qian. Effect of Freezing-Point Precooling Followed by Variable-Rate Liquid Nitrogen Freezing on the Quality of Fresh Monopterus albus Slices and Evaluation of Freezing Energy Consumption Characteristics[J]. FOOD SCIENCE, 2026, 47(7): 251-261.

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冰点预冷-变速液氮冻结对生鲜黄鳝片品质的影响及冻结能耗特性评价

Effect of Freezing-Point Precooling Followed by Variable-Rate Liquid Nitrogen Freezing on the Quality of Fresh Monopterus albus Slices and Evaluation of Freezing Energy Consumption Characteristics

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