Mechanism and Engineering Research on Processing, Storage and Preservation of Fresh Food

doi:10.3390/books978-3-0365-9988-5

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Mechanism and Engineering Research on Processing, Storage and Preservation of Fresh Food

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January 2024

328 pages

ISBN978-3-0365-9987-8 (Hardback)
ISBN978-3-0365-9988-5 (PDF)

https://doi.org/10.3390/books978-3-0365-9988-5

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This book is a reprint of the Special Issue Mechanism and Engineering Research on Processing, Storage and Preservation of Fresh Food that was published in

Biology & Life Sciences

Chemistry & Materials Science

Engineering

Public Health & Healthcare

Summary

The COVID-19 pandemic has highlighted the fragility and importance of the fresh food supply chain system. The pandemic has affected the production and transportation of high-value, labor-intensive, perishable, and nutritious fresh foods, such as fruits and vegetables, meat, and aquatic products. On the other hand, changes in the characteristics of microorganisms, production methods, environment, and ecology, and the increasing amount of fresh food in world markets have created new risks. Over the years, food preservation processes have satisfied consumers’ increased demand for high-quality fresh foods. Consequently, exploring the novel technologies of processing, storage, and preservation is becoming essential for fresh food. Innovative and promising technologies have been adopted to ensure safe productions with changing consumer needs and fresh food-health issues. This Special Issue aspired to collate a range of original research and review articles on the latest progress, challenges, and prospects of new processing, storage, and fresh-keeping technologies for fresh food.

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Keywords

HRW; SAEW; fresh-cut; kiwifruit; antioxidant metabolism; nitrogen synthesis; nitrogen degradation; lactic acid bacteria; nitrite reductase; antioxidant; nitrite degradation; vanillin; crucian carp; anesthetic effect; physiological and biochemical indices; pathology; volatile components; apple polyphenols; three-dimensional printing; processed cheese; antioxidant activity; structural stability; refrigerated truck; computational fluid dynamics; carcass traceability; temperature field; walnut; shell breaking; drying; artificial neural network; genetic algorithm; multi-objective optimization; three-dimensional appearance; drying methods; quality; microstructure; Pleurotus eryngii; 4D printing; shape change; microwave induction; vegetable-based food; temperature distribution; harvest time; metabolomic profiling; polyunsaturated fatty acid; pond culture; aflatoxin M₁; electrochemical detection; gold nanoparticles; Fe³⁺; Salmonella Enteritidis; thymol; carvacrol; cinnamaldehyde; nanocellulose; anthocyanin; hydrogel; intelligent indicator label; freshness; AFB1; Auricularia auricular; adsorption; liver protection; low-temperature forming; low-viscosity ink; printing temperature; formability; low-temperature forming; numerical simulation; rheological properties; printing temperature; eugenol; anesthesia; crucian crap; physiological and biochemical indexes; histology; flavor; ecological ice temperature; chilling stress; anhydrous live preservation; regulation mechanism; Patinopecten yessoensis; prepared fried rice; food processing; quality monitoring; food safety; antifungal; Botrytis cinerea; cinnamaldehyde; gray mold; induced defense; pepper fruit; n/a