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TRANSPORT PHENOMENA IN BIOLOGICAL SYSTEMS FREE
Binary systems 2.5.1.2 Property changes of mixing 2.5.1.3 Ideal gas 2.5.1.4 Gibbs free energy of an ideal gas mixture 2.5.2 Pure component fugacity 2.5.2.1 Calculating the pure component fugacity 2.5.3 Fugacity of a component in a mixture 2.5.4 The ideal solution 2.6 Phase equilibrium 2.6.1 Pure component phase equilibrium 2.6.1.1 Fugacity of a pure component as compressed liquid 2.6.2 Excess properties 2.6.3 Phase equilibrium in mixtures 2.6.3.1 Solubility of a solid in a liquid solvent 2.6.3.2 Depression of the freezing point of a solvent by a solute 2.6.3.3 Equilibrium between a solid and a gas phase 2.6.3.4 Solubility of a gas in a liquid 2.6.3.5 Osmotic pressure 2.6.3.6 Distribution of a solute between two liquid phases 2.6.3.7 Vapor-liquid equilibrium 2.6.3.8 Flammability limits 2.6.3.9 Thermodynamics of surfaces 3. A REVIEW OF THERMODYNAMIC CONCEPTS 2.1 The first law of thermodynamics 2.1.1 Closed systems 2.1.2 Steady flow systems 2.2 The second law of thermodynamics 2.2.1 Reversible processes 2.3 Properties 2.3.1 Heat capacity 2.3.2 Calculating the change in entropy 2.3.1.1 Entropy change of an ideal gas 2.3.3 The Gibbs and Helmholtz free energy 2.3.3.1 Gibbs free energy 2.3.3.2 Helmholtz free energy 2.4 The fundamental property relations 2.4.1 Exact differentials 2.5 Single phase open systems 2.5.1 Partial molar properties 2.5.1.1.
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INTRODUCTION 1.1 Review of units and dimensions 1.1.1 Units 1.1.2 Fundamental dimensions 1.1.2.1 Mass and weight 1.1.2.2 Temperature 1.1.2.3 Mole 1.1.3 Derived dimensional quantities 1.1.3.1 Pressure 1.1.3.2 Volume 1.1.3.3 Equations of state 1.2 Dimensional equation 1.3 Tips for solving engineering problems 1.4 Conservation of mass 1.4.1 Law of conservation 1.4.2 Chemical reactions 1.4.3 Material balances 2. Specific recommendations, made by the panelists with input from the international heat transfer community and directed to the National Science Foundation, are included in several reports.Bibliography Includes bibliographical references (p. Integration of research thrusts and education activities is highlighted throughout. Matters involving innovation, entrepreneurship, and globalization of the engineering profession have emerged, and the responsibility to improve the technical literacy of the public-at-large is discussed. Societal sustainability received major attention in two of the reports.
TRANSPORT PHENOMENA IN BIOLOGICAL SYSTEMS ARCHIVE
The need to develop new metrology techniques to collect and archive reliable property data persists. A continued need to understand the coupling between broad length (and time) scales persists, but the emerging need to better understand transport phenomena at the macro/mega scale has evolved. A strong interest in sustainable energy is evident. Based upon the final recommendations on the topical matter of the workshop, several trends become apparent.
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Approximately 300 invited participants from academia, business and government from the US and abroad attended. The workshop provided a venue for researchers, educators and policy-makers to identify frontier challenges and associated opportunities in heat and mass transfer. A US National Science Foundation-sponsored workshop entitled “Frontiers in Transport Phenomena Research and Education: Energy Systems, Biological Systems, Security, Information Technology, and Nanotechnology” was held in May of 2007 at the University of Connecticut.