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Heat source replacement strategy using catalytic infrared: A future for energy saving drying of fruits and vegetables.

Xingrui BeiXiaojie YuDaqing LiQiaolan SunYanhua YuYuqing WangClinton Emeka OkonkwoCunshan Zhou
Published in: Journal of food science (2023)
Drying is an important process for fruits and vegetables, which requires a lot of heat and the heat sources are mainly coal, electricity, natural gas, and solar energy. Most of the heat is usually wasted due to the long drying process and poor transfer efficiency. The use of coal also pollutes the environment. The national electricity curtailment policy regulates the drying industry. Therefore, the fruits and vegetables drying industry is facing new challenges due to its own development needs and external factors. Catalytic infrared drying (CIR) technology brings solutions to these problems. Compared with other drying technologies, CIR has a high drying efficiency and can effectively reduce the use of electric energy, avoid waste, and minimize pollution of water. However, improper processing conditions still cause quality deficits such as severe browning, and the drying is difficult due to weak infrared penetration. Although CIR has shortcomings, it is still expected to establish an energy-saving and efficient fruit and vegetable drying system.
Keyphrases
  • heavy metals
  • particulate matter
  • health risk assessment
  • healthcare
  • heat stress
  • human health
  • metabolic syndrome
  • health risk
  • drinking water
  • air pollution
  • early onset
  • current status
  • room temperature