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W1796221542 endingPage "17" @default.
W1796221542 startingPage "1" @default.
W1796221542 abstract "Abstract New advancements in biotechnology has made many biotechnological products such as yeast, bacteria, vitamins, enzymes, proteins, carbohydrates, antibiotics, fungi, lysine, blood, plasma, realize in industry and commercial market. Most of these products appear in the form of liquid, suspension, or paste, which require refrigeration for storage. Refrigeration however limits the widespread application of the products mentioned above, as the operating costs and handling of frozen products is high and difficult. As such, dehydration and drying can be deployed to reduce the handling cost, while prolonging the shelf life, retaining the active ingredients activity, maintaining the cell survival and vitality, as well as its physical, textural, sensory, and optical properties. Biotechnological products are heat sensitive. Conventional drying methods for nonbiotechnological products such as hot air drying may damage and denature the product, destroy the cell and active ingredients, cause case hardening and browning. Over the years, freeze‐drying is the most common method used in the drying of some of the biotechnological products mentioned above. However, the operating cost and the drying time of freeze‐drying are comparatively high. As oil prices are skyrocketing and there is no sign that the price will ease in the near future, researchers and scientists have designed, tested, and improved various drying methods in order to improve drying efficiency and performance. This article discusses various conventional drying methods, which are common to the drying of biotechnological products, and describes various advanced drying technologies that give improvements and better performance with reference to drying strategy, drying medium, handling of drying materials, and mode of heat input. These include intermittent drying, pulse combustion drying, impinging stream drying, cyclic pressure vacuum drying, spray‐freeze‐drying, atmospheric freeze‐drying, vacuum fluidized bed drying, low‐pressure spray drying, superheated steam drying, heat pump drying, inert medium drying, supercritical fluid drying, sorption drying, spouted bed drying, jet spouted bed drying, vibrating fluidized bed drying, pulse fluidized bed drying, high electric field drying, and microwave drying. Recent research findings of these drying technologies are given as well." @default.
W1796221542 created "2016-06-24" @default.
W1796221542 creator A5006200409 @default.
W1796221542 creator A5013998879 @default.
W1796221542 date "2009-12-15" @default.
W1796221542 modified "2023-10-10" @default.
W1796221542 title "Drying: Biological Materials" @default.
W1796221542 cites W1541483025 @default.
W1796221542 cites W1596351537 @default.
W1796221542 cites W1964734471 @default.
W1796221542 cites W1968283031 @default.
W1796221542 cites W1973586215 @default.
W1796221542 cites W1973730372 @default.
W1796221542 cites W1974303270 @default.
W1796221542 cites W1975487858 @default.
W1796221542 cites W1977269601 @default.
W1796221542 cites W1981645750 @default.
W1796221542 cites W1982468340 @default.
W1796221542 cites W1985507889 @default.
W1796221542 cites W1989121614 @default.
W1796221542 cites W1989361218 @default.
W1796221542 cites W1989794946 @default.
W1796221542 cites W1989823114 @default.
W1796221542 cites W1990365236 @default.
W1796221542 cites W1994911334 @default.
W1796221542 cites W1997548933 @default.
W1796221542 cites W1999082073 @default.
W1796221542 cites W1999689463 @default.
W1796221542 cites W2007058477 @default.
W1796221542 cites W2007347244 @default.
W1796221542 cites W2012586240 @default.
W1796221542 cites W2019388507 @default.
W1796221542 cites W2023001148 @default.
W1796221542 cites W2023308156 @default.
W1796221542 cites W2027836528 @default.
W1796221542 cites W2027872907 @default.
W1796221542 cites W2029001557 @default.
W1796221542 cites W2033860781 @default.
W1796221542 cites W2036085538 @default.
W1796221542 cites W2037318510 @default.
W1796221542 cites W2037375302 @default.
W1796221542 cites W2037663054 @default.
W1796221542 cites W2037987568 @default.
W1796221542 cites W2042175071 @default.
W1796221542 cites W2043024677 @default.
W1796221542 cites W2045156859 @default.
W1796221542 cites W2045491665 @default.
W1796221542 cites W2053153529 @default.
W1796221542 cites W2053327324 @default.
W1796221542 cites W2054863343 @default.
W1796221542 cites W2056428286 @default.
W1796221542 cites W2057263808 @default.
W1796221542 cites W2057663307 @default.
W1796221542 cites W2059707582 @default.
W1796221542 cites W2060823909 @default.
W1796221542 cites W2063337031 @default.
W1796221542 cites W2064156781 @default.
W1796221542 cites W2065347401 @default.
W1796221542 cites W2067252274 @default.
W1796221542 cites W2067304360 @default.
W1796221542 cites W2068887268 @default.
W1796221542 cites W2070011722 @default.
W1796221542 cites W2070438177 @default.
W1796221542 cites W2074814553 @default.
W1796221542 cites W2076434506 @default.
W1796221542 cites W2081399726 @default.
W1796221542 cites W2085058369 @default.
W1796221542 cites W2087179755 @default.
W1796221542 cites W2091752806 @default.
W1796221542 cites W2092631652 @default.
W1796221542 cites W2094039948 @default.
W1796221542 cites W2094491765 @default.
W1796221542 cites W2095306162 @default.
W1796221542 cites W2099996776 @default.
W1796221542 cites W2106128293 @default.
W1796221542 cites W2111274389 @default.
W1796221542 cites W2113151858 @default.
W1796221542 cites W2113278548 @default.
W1796221542 cites W2123059023 @default.
W1796221542 cites W2127610646 @default.
W1796221542 cites W2139287231 @default.
W1796221542 cites W2141744637 @default.
W1796221542 cites W2149792844 @default.
W1796221542 cites W2162945152 @default.
W1796221542 cites W2165215448 @default.
W1796221542 cites W2167973172 @default.
W1796221542 cites W2169380534 @default.
W1796221542 cites W3022533114 @default.
W1796221542 cites W4256523435 @default.
W1796221542 doi "https://doi.org/10.1002/9780470054581.eib264" @default.
W1796221542 hasPublicationYear "2009" @default.
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