Linbao Wei, Weiqiang Qiu, Yingshan Jin, Ruilin Zheng, K. Row, Yudong Cheng, Yinzhe Jin
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引用次数: 8
摘要
摘要研究了热风干燥(HAD)、微波干燥(MD)和热风-微波复合干燥(HAMCD)工艺对罗非鱼鱼片干燥特性、复水化能力、色泽、质地、水分状态、微观结构和能量特性的影响。采用HAMCD对罗非鱼鱼片的复水率和回收率最高,分别为58.96和39.24%。经MD处理后,罗非鱼鱼片迅速呈焦黄色。hammcd能提高罗非鱼鱼片的硬度、嚼劲和弹性值,并能得到酥脆的罗非鱼鱼片。在水分状态峰图像中,70°C + 250 W (H3M)条件下获得的T21(固定水)峰的对称性最好,不对称系数(As)为1.04。在MRI图像中,质子密度加权图像亮度由高到低排列为:HAD > HAMCD > MD。利用SEM对HAMCD制备的罗非鱼鱼片进行微观结构分析,发现鱼片表面存在大量小孔。与HAD工艺相比,使用HAMCD的比能耗降低了1.8倍,热效率提高了5倍。结果表明,HAMCD可用于罗非鱼鱼片的高质量加工和低成本生产。
Effects of different drying methods on quality changes and energy characteristics of tilapia fillets
Abstract The effects of different drying methods (hot air drying (HAD), microwave drying (MD), and hot air-microwave combined drying (HAMCD) processes) on the drying characteristics, rehydration ability, colour, texture, moisture state, microstructure, and energy characteristics of tilapia fillets have been investigated. The best rehydration and recovery ratios of tilapia fillets were obtained using HAMCD (58.96 and 39.24%, respectively). Tilapia fillets quickly become a burnt-yellow colour by MD. HAMCD can improve the hardness, chewiness, and elasticity values, and can obtain crispy tilapia fillets. In the moisture state peak image, the symmetry of the T21 (fixed water) peak obtained at 70 °C + 250 W (H3M) was the best with an asymmetry factor (As) of 1.04. In the MRI image, the brightness of the proton density weighted image was arranged from high to low as follows: HAD > HAMCD > MD. Using SEM, the microstructure of the tilapia fillets prepared using HAMCD showed a large number of small holes. The specific energy consumption was reduced ∼1.8 fold and the thermal efficiency increased ∼5 fold using HAMCD when compared with the HAD process. It was concluded that HAMCD can be used for to process tilapia fillets with high quality and low operating costs.
期刊介绍:
The Journal of the Microwave Power Energy (JMPEE) is a quarterly publication of the International Microwave Power Institute (IMPI), aimed to be one of the primary sources of the most reliable information in the arts and sciences of microwave and RF technology. JMPEE provides space to engineers and researchers for presenting papers about non-communication applications of microwave and RF, mostly industrial, scientific, medical and instrumentation. Topics include, but are not limited to: applications in materials science and nanotechnology, characterization of biological tissues, food industry applications, green chemistry, health and therapeutic applications, microwave chemistry, microwave processing of materials, soil remediation, and waste processing.
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