This page intentionally left blank SEPARATION PROCESS PRINCIPLES Chemical and Biochemical Operations THIRD EDITION J. D. Seader Department of Chemical Engineering University of Utah Ernest J. Henley Department of Chemical Engineering University of Houston D. Keith Roper Ralph E. Martin Department of Chemical Engineering University of Arkansas John Wiley & Sons‚ Inc. Vice President and Executive Publisher: Don Fowley Acquisitions Editor: Jennifer Welter Developmental Editor:
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SYSTEM………………......5 4.6 CORROSION OF THE MATERIAL………………………………5 4.7 PHASE SEGREGATION AND SUBCOOLING………………….H 4.8 FIRE RETARDATION OF PCM………………………………….K 4. ENCAPSULATION OF THE MATERIAL……………………………K 5. STORAGE CAPACITY AND THERMODYNAMIC PROPERTIES.K 6. SYSTEM APLICATIONS……………………………………………….K 7.9 FOR MASS CONCRETE BLOCK…………………………………K 7.10 IN REFRIGERATION PLANT……………………………………..K 7.11 FOR BRICK WALL………………………………………………….K 7.12 FOR COLD STOREGE OF PERISHEBLE
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ETME 3252 ‚ Fall 2004 Thermodynamics and Heat Transfer Laboratory Manual – 11th edition Edited by: Professor Ed Braun Department of Engineering Technology Copyright ©2004. Material in this document is for your educational use only. This document contains copyrighted and other proprietary information. You may not in any way make commercial or other unauthorized use‚ by publication‚ re-transmission‚ distribution‚ caching‚ or otherwise‚ of this material‚ except as permitted by the Copyright
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A TECHNICAL REPORT ON PHASE CHANGE MATERIALS & SOLAR WATER HEATING USING PHASE CHANGE MATERIALS INDEX 1. Introduction 2. Types of Phase Change Materials 3. Selection criteria 4. Principle of solar water heater with phase change materials 5. Heat transfer analysis between water and PCM’s 6. Results 7. Conclusion CHAPTER – 1 INTRODUCTION PHASE CHANGE MATERIALS: The materials which undergo either boiling or condensing by absorbing heat from a medium or liberating
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III Naminosuke Kubota Propellants and Explosives Thermochemical Aspects of Combustion Second‚ Completely Revised and Extended Edition IV The Author Prof. Dr. Naminosuke Kubota Asahi Kasei Chemicals Propellant Combustion Laboratory Arca East‚ Kinshi 3-2-1‚ Sumidaku Tokyo 130-6591‚ Japan All books published by Wiley-VCH are carefully produced. Nevertheless‚ authors‚ editors‚ and publisher do not warrant the information contained in these books‚ including this book‚ to be
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will be able to serve a wide range of hot water consumers. Solar heater‚ water heater‚ solar energy‚ baPery‚ solar water‚ electric equipment‚ thermodynamics‚ flow
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determining heat of capacity of a calorimeter and measuring enthalpy of change for three reactions. It also enforced methods of analyzing data obtained through experimentation and calculating enthalpy. These procedures are used in the branch of thermodynamics known as thermochemistry which is the study of energy changes that accompany chemical reactions. Concepts from this lab can be used to determine the potential energy of a chemical reaction. Much of the energy people depend on comes from chemical
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Title of Experiment 12: The Effect of Ionic Strength on the solubility of an Electrolyte Aim: The purpose of this experiment was to determine the thermodynamics variable of enthalpy‚ ∆H for the dissolution reaction of boric acid in water. The solubility of boric acid was measured over a range of various temperatures by finding out at what temperature crystallization began for solution of different molarities. A graphical relationship between the natural logarithm of molal concentration and the inverse
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Enthalpy of Neutralization Introduction Energy changes always accompany chemical reactions. If energy‚ in the form of heat‚ is liberated the reaction is exothermic and if energy is absorbed the reaction is endothermic. Thermochemistry is concerned with the measurement of the amount of heat evolved or absorbed. The heat (or enthalpy) of neutralization (∆H) is the heat evolved when an acid and a base react to form a salt plus water. Eq. 1 HNO2(aq) + NAOH(aq) → NaNO2(aq) + H2O(l) + Q Q in the
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