| Document Type
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BL
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| Record Number
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662722
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| Doc. No
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dltt
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| Main Entry
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Fohr, Jean-Paul
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| Title & Author
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Heat and moisture transfer between human body and environment /\ Jean-Paul Fohr
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| Series Statement
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Focus series in fluid mechanics
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| Page. NO
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1 online resource :: illustrations.
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| ISBN
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9781119245612
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: 1119245613
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: 9781119245629
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: 1119245621
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9781848218932
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1848218931
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| Bibliographies/Indexes
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Includes bibliographical references and index
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| Contents
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Machine generated contents note: ch. 1 Building a Model for a Coupled Problem -- 1.1.Basic equations of the models (Appendix 1) -- 1.2.Boundary layers -- 1.2.1.Forced convection -- 1.2.2.Natural convection -- 1.3.Heat balance for a "system" and boundary conditions -- 1.4.On the problem of cooling of a cup of tea -- 1.4.1.Balance equations -- 1.4.2.Research of transfer correlations -- 1.4.3.Surface temperature as a function of average temperature of the liquid -- 1.4.4.Liquid temperature as a function of time -- 1.5.Bather on a beach -- ch. 2 Approximate Determination of Transfer Coefficients -- 2.1.Natural convection around an isolated sphere -- 2.1.1.Equations of boundary layers depending on velocity and temperature -- 2.1.2.Integration over the boundary layer thickness -- 2.1.3.Dimensionless formulation -- 2.1.4.Numerical solution -- 2.2.Coupled exchanges around the head of a baby lying down -- 2.2.1.System of equations -- 2.2.2.Boundary layers for the horizontal disk -- 2.2.3.Boundary layers on curved surfaces -- 2.3.Forced convection around a cylinder -- 2.3.1.System of equations -- 2.3.2.Integration of the equations of the dynamic boundary layer -- 2.3.3.Dimensionless integral equation -- 2.3.4.Resolution of the upwind dynamic boundary layer -- 2.3.5.Resolution of the downwind dynamic boundary layer -- 2.3.6.Resolution of the thermal boundary layer -- ch. 3 Human Thermal Models -- 3.1.The Fanger model: from climatic chamber to standard -- 3.1.1.Environment and human body physical parameters -- 3.1.2.Equilibrium balance equation in the Fanger model -- 3.1.3.Examples of ambient environment qualifications -- 3.2.Gagge model -- 3.2.1.A simple, unsteady and regulated geometrical model -- 3.2.2.Response of "human system" to a sudden change in metabolism -- 3.3.Stolwijk 25 node model -- 3.4.Thermal model of a baby lying down -- 3.4.1.Geometrical division -- 3.4.2.Metabolism and respiration -- 3.4.3.Exchanges of the uncovered part of the head -- 3.4.4.Conduction between body layers -- 3.4.5.Sensible heat exchanges of the trunk -- 3.4.6.Trunk evaporation -- 3.4.7.Blood convection -- 3.4.8.System of equations -- 3.4.9.Simulation results -- ch. 4 Heat and Humidity Transfer in Clothing -- 4.1.From heterogeneous porous to continuous model media -- 4.2.Heat diffusion and convection -- 4.3.Vapor diffusion -- 4.4.The effect of bound water -- 4.5.Liquid water diffusion -- 4.6.Mass and energy balances -- 4.7.Limit conditions -- 4.8.Processing for a numerical resolution -- 4.9.First example: condensation in a multilayer -- 4.10.Convection and diffusion -- 4.11.Taking account of radiation -- 4.12.Second example: firefighters' clothing -- 4.13.Traditional warm weather clothing -- Appendices -- Appendix 1 -- Appendix 2 -- Appendix 3
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| Subject
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Fluid dynamics-- Mathematical models.
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| Subject
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Heat-- Transmission.
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Heat exchangers.
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Human physiology.
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| Dewey Classification
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620.1064
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| LC Classification
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QA911
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| Added Entry
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Ohio Library and Information Network.
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