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Improvement of Temperature Distribution Uniformity of Ready-to-Eat Rice during Microwave Reheating via Optimizing Packaging Structure

Chai Liu, Liuyang Shen, Huiran Liu, Xue Gong, Chenghai Liu, Xianzhe Zheng, Shuo Zhang, Chen Ning Yang

2023Foods12 citationsDOIOpen Access PDF

Abstract

The taste quality of ready-to-eat rice is influenced by the uniformity of temperature distribution during microwave reheating. The temperature distribution uniformity of ready-to-eat rice loaded in a rectangular lunch box is investigated under microwave reheating. The results show that with a 10-80 °C temperature increase in the ready-to-eat rice, the thermal conductivity increases, dielectric constant, and specific heat increase and then decrease, while the dielectric loss factor decreases and then slightly increases. The microwave-heating process of ready-to-eat rice exhibits a clear 'corner effect', and the observed 'hot spot' results in poor temperature uniformity in ready-to-eat rice. A metalized packaging structure design is subsequently proposed to ameliorate the temperature non-uniformity. According to comparative results of four metalized packaging forms, the spray film volume and film thickness corresponding to film volume are developed as 3.5×10-4 mL/mm2, 0.30 mm, respectively, which levels off the difference in temperature to improve the temperature distribution uniformity of ready-to-eat rice by microwave reheating.

Topics & Concepts

MicrowaveMaterials scienceDielectricVolume (thermodynamics)Thermal conductivityComposite materialOptoelectronicsThermodynamicsQuantum mechanicsPhysicsPostharvest Quality and Shelf Life ManagementNanocomposite Films for Food PackagingFood Drying and Modeling
Improvement of Temperature Distribution Uniformity of Ready-to-Eat Rice during Microwave Reheating via Optimizing Packaging Structure | Litcius