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100   $a20061222d2007      uy         0
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200 10$aApplications of fluidisation in food processing$b[electronic resource] /$fP.G. Smith
205   $a1st ed.
210   $aOxford ;$aAmes, Iowa $cBlackwell Science$dc2007
215   $a1 online resource (264 p.)
300   $aDescription based upon print version of record.
311   $a0-632-06456-0 
320   $aIncludes bibliographical references and index.
327   $aApplications of Fluidization to Food Processing; Contents; Preface; Glossary; Part One: Fundamentals of Fluidization; 1 A Description of Fluidized Bed Behaviour; An introduction to fluidization; Industrial applications of fluidization; Applications of fluidization in the food industry; Gas-solid fluidized bed behaviour; Influence of gas velocity; Geldart's classification; Bubbles and particle movement; Bubble formation at the distributor; Bubble growth and bubble shape; Minimum bubbling velocity; Bubble rise velocity; Particle movement due to bubble motion; Distributor plate design
327   $aCharacterisation of particulate solidsParticle size distribution; Mean particle size; Particle shape; Bulk particle properties; Terminal falling velocity and particle drag coefficient; Minimum fluidizing velocity in aggregative fluidization; Voidage and pressure drop at incipient fluidization; Carman-Kozeny equation; Ergun equation; Minimum fluidizing velocity as a function of terminal falling velocity; Semi-empirical correlations; Experimental measurement; Fluidized bed behaviour at high gas velocities; Slugging; Turbulent fluidization and fast fluidization; Elutriation and entrainment
327   $aOther types of fluidizationSpouted beds; Centrifugal fluidization; Particulate fluidization; Nomenclature; References; 2 Characteristics of Aggregative Fluidization; Heat transfer; Correlations for heat transfer coefficients; Bed-surface heat transfer; Gas-particle heat transfer; Gas-particle heat transfer coefficient; Mass transfer; Correlations for mass transfer coefficients; Gas-particle mass transfer; Mixing; Introduction; Mechanisms of solids mixing; Mixing in fluidized beds; Vertical mixing of solids: the dispersion model; Rate of mixing; Mixing and segregation of dissimilar particles
327   $aMechanismsPatterns of particle segregation; Examples of fluidized bed segregation; Nomenclature; References; Part Two: Applications; 3 Freezing; Low-temperature preservation of foods; Introduction; Industrial freezing equipment; Fluidized bed freezing; Capacity of fluidized bed freezers; Freezing rate and freezing point of foods; Prediction of freezing time; Design of fluidized bed freezers; Introduction; Heat transfer in fluidized bed freezers; Mixing, dispersion and residence time; Applications of fluidized bed freezing; Nomenclature; References; 4 Drying; Introduction; Principles of drying
327   $aWater activityEffect of water activity on microbial growth; Effect of drying on food structure; Isotherms and equilibrium; Drying kinetics; Classification of driers; Fluidized bed drying; Material and energy balances; The well-mixed drier; The plug flow drier; Variations in fluidized bed drier design; Other fluidized bed drying techniques; Vibro-fluidization; Mechanical agitation; Centrifugal fluidization; Spouted bed drying; Microwave drying; Nomenclature; References; 5 Granulation; Granulation and particle growth; Particle-particle bonding; Bonding mechanisms
327   $aGrowth mechanisms in granulation
330   $aFluidization is a technique that enables solid particles to take on some of the properties of a fluid. Despite being very widely used within the food processing industry, understanding of this important technique is often limited.Applications of Fluidization to Food Processing sets out the established theory of fluidization and relates this to food processing applications, particularly in:* Drying* Freezing* Mixing* Granulation* FermentationThis important and thorough book, written by Peter Smith, who has many years' experience teaching and researching in fo
606   $aFluidization
606   $aFluid dynamics
606   $aFood industry and trade
615  0$aFluidization.
615  0$aFluid dynamics.
615  0$aFood industry and trade.
676   $a664/.024
700   $aSmith$b P. G$g(Peter Geoffrey),$f1954-$0308351
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200 10$aPredicting envelope leakage in attached dwellings /$fprepared by O. Faakye, L. Arena, D. Griffiths
210  1$aGolden, CO :$cU.S. Department of Energy, Energy Efficiency & Renewable Energy, Building Technologies Office,$d2013.
215   $a1 online resource (ix, 29 pages) $cillustrations (some color)
300   $aTitle from title screen (viewed Sept. 11, 2015).
300   $a"Prepared for the National Renewable Energy Laboratory, on behalf of the U.S. Department of Energy's Building America Program, Office of Energy Efficiency and Renewable Energy."
300   $a"July 2013."
300   $a"NREL technical monitor: Cheryn Metzger."
300   $a"DOE/GO-102013-3839."
320   $aIncludes bibliographical references (page 25).
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712 02$aNational Renewable Energy Laboratory (U.S.),
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