SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2804467589> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W2804467589 endingPage "24" @default.
W2804467589 startingPage "11" @default.
W2804467589 abstract "Abstract Background The availability and movement of water inside the food materials play essential roles for food stability by affecting their physical and chemical properties, and microbiological activity. Understanding the moisture sorption behavior is a necessary step to control food properties. Food processing unit operations like drying and cooking influence the behavior of starch since such systems trigger swelling or shrinkage as a result of moisture sorption or desorption mechanisms. Also, these processes alter many aspects of starch-containing foods such as acceptability, nutritional value, quality, and shelf-life. Scope and approach Therefore, understanding the water transport in starchy foods and the changes occurring in functional properties of starch has a great importance to describe and model their sorption and drying behavior. First, the primary mechanisms occurring during water transport such as moisture sorption, swelling, gelatinization, and glass transition are discussed using experimental results presented in the literature. Additionally, the hybrid mixture theory (HMT) and its potential for predicting transport mechanisms in starchy foods is discussed. Key findings and conclusions In addition to experimental considerations, the mathematical modeling provides complementary information to predict the heat and fluid transfer. The hybrid mixture theory based multiscale models are able to describe the physico-chemical changes and general transport mechanisms occurring within a porous food matrix. This theory can also be used to predict the quality changes in food products during processing." @default.
W2804467589 created "2018-06-01" @default.
W2804467589 creator A5054075923 @default.
W2804467589 creator A5074230245 @default.
W2804467589 date "2018-08-01" @default.
W2804467589 modified "2023-09-25" @default.
W2804467589 title "Water transport in starchy foods: Experimental and mathematical aspects" @default.
W2804467589 cites W1597962853 @default.
W2804467589 cites W1960079744 @default.
W2804467589 cites W1966537769 @default.
W2804467589 cites W1966780171 @default.
W2804467589 cites W1968894699 @default.
W2804467589 cites W1969837650 @default.
W2804467589 cites W1973425682 @default.
W2804467589 cites W1973487230 @default.
W2804467589 cites W1977021296 @default.
W2804467589 cites W1977416933 @default.
W2804467589 cites W1980795676 @default.
W2804467589 cites W1982429129 @default.
W2804467589 cites W1987412580 @default.
W2804467589 cites W1992157259 @default.
W2804467589 cites W1993682601 @default.
W2804467589 cites W1994596217 @default.
W2804467589 cites W1994926103 @default.
W2804467589 cites W1996470135 @default.
W2804467589 cites W1998734666 @default.
W2804467589 cites W1998873513 @default.
W2804467589 cites W2004141879 @default.
W2804467589 cites W2007127258 @default.
W2804467589 cites W2008828643 @default.
W2804467589 cites W2011799565 @default.
W2804467589 cites W2014912012 @default.
W2804467589 cites W2015249186 @default.
W2804467589 cites W2022111085 @default.
W2804467589 cites W2022499419 @default.
W2804467589 cites W2023937310 @default.
W2804467589 cites W2032533418 @default.
W2804467589 cites W2034402218 @default.
W2804467589 cites W2035663042 @default.
W2804467589 cites W2036975076 @default.
W2804467589 cites W2037951590 @default.
W2804467589 cites W2038438145 @default.
W2804467589 cites W2041756028 @default.
W2804467589 cites W2042288088 @default.
W2804467589 cites W2043050592 @default.
W2804467589 cites W2044279796 @default.
W2804467589 cites W2045324615 @default.
W2804467589 cites W2046761590 @default.
W2804467589 cites W2051897518 @default.
W2804467589 cites W2055679882 @default.
W2804467589 cites W2055866301 @default.
W2804467589 cites W2059510870 @default.
W2804467589 cites W2063426910 @default.
W2804467589 cites W2066844601 @default.
W2804467589 cites W2069134532 @default.
W2804467589 cites W2069410738 @default.
W2804467589 cites W2070207822 @default.
W2804467589 cites W2070363149 @default.
W2804467589 cites W2070451060 @default.
W2804467589 cites W2070831341 @default.
W2804467589 cites W2072315844 @default.
W2804467589 cites W2073741296 @default.
W2804467589 cites W2078856187 @default.
W2804467589 cites W2080082555 @default.
W2804467589 cites W2083393493 @default.
W2804467589 cites W2085944966 @default.
W2804467589 cites W2086646013 @default.
W2804467589 cites W2090946675 @default.
W2804467589 cites W2102876329 @default.
W2804467589 cites W2102917770 @default.
W2804467589 cites W2111300797 @default.
W2804467589 cites W2115833441 @default.
W2804467589 cites W2116162619 @default.
W2804467589 cites W2122018758 @default.
W2804467589 cites W2122953514 @default.
W2804467589 cites W2126700698 @default.
W2804467589 cites W2131738708 @default.
W2804467589 cites W2135724078 @default.
W2804467589 cites W2146561631 @default.
W2804467589 cites W2152499213 @default.
W2804467589 cites W2331212077 @default.
W2804467589 cites W2334245152 @default.
W2804467589 cites W2334751333 @default.
W2804467589 cites W239183539 @default.
W2804467589 cites W2436491118 @default.
W2804467589 cites W2563240611 @default.
W2804467589 cites W2745206420 @default.
W2804467589 cites W2769463688 @default.
W2804467589 cites W28022285 @default.
W2804467589 cites W4253538687 @default.
W2804467589 cites W97406804 @default.
W2804467589 doi "https://doi.org/10.1016/j.tifs.2018.05.015" @default.
W2804467589 hasPublicationYear "2018" @default.
W2804467589 type Work @default.
W2804467589 sameAs 2804467589 @default.
W2804467589 citedByCount "14" @default.
W2804467589 countsByYear W28044675892019 @default.
W2804467589 countsByYear W28044675892020 @default.