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Handbook on material and energy balance calculations in materials processing / Arthur E. Morris, Gordon Geiger, H. Alan Fine

By: Morris, Arthur E, 1935- [autor]
Contributor(s): Fine, H. Alan [autor] | Geiger, Gordon, 1979- [autor]
Publisher: New Jersey Wiley ©2011Edition: 3th. EditionDescription: xix, 616 pages ; illustrations, figures, tables. 28 cm 1 CD-ROMContent type: Media type: Carrier type: ISBN: 1118065654; 978118065655Subject(s): Balance de energía | Metalurgia | Procesos químicos -- materialesDDC classification: 660.28
Contents:
Dimensions, Units, and Conversion Factors. - - Thermophysical and Related Properties of Materials. - - Statistical Concepts Applied to Measurement and Sampling. - - Fundamentals of Materials Balances with Applications to Non-Reacting Systems. - - Stoichiometry and the Chemical Equation. - - Reactive Material Balances. - - Energy and the First Law of Thermodynamics. - - Enthalpy Balances in Non-Reactive Systems. - - System Balances on Reactive Processes. - - Case Studies.
Summary: Lately, there has been a renewed push to minimize the waste of materials and energy that accompany the production and processing of various materials. This third edition of this reference emphasizes the fundamental principles of the conservation of mass and energy, and their consequences as they relate to materials and energy. New to this edition are numerous worked examples, illustrating conventional and novel problem-solving techniques in applications such as semiconductor processing, environmental engineering, the production and processing of advanced and exotic materials for aerospace, electronic, and structural applications. [Taken of the book]
List(s) this item appears in: Ingeniería Química
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Item type Current location Collection Call number Vol info Copy number Status Date due Barcode Item holds
Reserve Book Reserve Book B. Campus los Cerros
Colección general 660.28 M875 (Browse shelf) 3th. Edition. 2011 1 Available 0000056502
Multimedia annex Multimedia annex B. Campus los Cerros
Colección general
Colección general CD 660.28 M875 (Browse shelf) 3th. Edition. 2011 1 Available 0000056532
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Enhanced descriptions from Syndetics:

Lately, there has been a renewed push to minimize the waste of materials and energy that accompany the production and processing of various materials. This third edition of this reference emphasizes the fundamental principles of the conservation of mass and energy, and their consequences as they relate to materials and energy. New to this edition are numerous worked examples, illustrating conventional and novel problem-solving techniques in applications such as semiconductor processing, environmental engineering, the production and processing of advanced and exotic materials for aerospace, electronic, and structural applications.

Include index and appendix. - - Computational tools for making material and heat balance calculations.

Revised edition of: Handbook on material and energy balance calculations in metallurgical processes. 1979.

Include bibliographical references.

Dimensions, Units, and Conversion Factors. - - Thermophysical and Related Properties of Materials. - - Statistical Concepts Applied to Measurement and Sampling. - - Fundamentals of Materials Balances with Applications to Non-Reacting Systems. - - Stoichiometry and the Chemical Equation. - - Reactive Material Balances. - - Energy and the First Law of Thermodynamics. - - Enthalpy Balances in Non-Reactive Systems. - - System Balances on Reactive Processes. - - Case Studies.

Lately, there has been a renewed push to minimize the waste of materials and energy that accompany the production and processing of various materials. This third edition of this reference emphasizes the fundamental principles of the conservation of mass and energy, and their consequences as they relate to materials and energy. New to this edition are numerous worked examples, illustrating conventional and novel problem-solving techniques in applications such as semiconductor processing, environmental engineering, the production and processing of advanced and exotic materials for aerospace, electronic, and structural applications. [Taken of the book]

Table of contents provided by Syndetics

  • Preface to the First Edition (p. xiv)
  • Preface to the Third Edition (p. xvii)
  • Acknowledgements (p. xix)
  • Chapter 1 Dimensions, Units, and Conversion Factors (p. 1)
  • 1.1 The SI System of Units (p. 1)
  • 1.2 The American Engineering System (AES) of Units (p. 4)
  • 1.3 Conversion of Units (p. 6)
  • 1.4 Unit Conversions Using the U-Converter Program (p. 11)
  • 1.5 Amount of Substance û the Mole Unit (p. 11)
  • 1.6 Density and Concentration (p. 13)
  • 1.7 Electrical Units (p. 20)
  • 1.8 Calculation Guidelines (p. 21)
  • 1.9 Summary (p. 22)
  • Chapter 2 Thermophysical and Related Properties of Materials (p. 26)
  • 2.1 State of a System and Properties of a Substance (p. 26)
  • 2.2 The Gibbs Physical Rule (p. 27)
  • 2.3 The Gas Phase (p. 30)
  • 2.4 Condensed Phases (p. 34)
  • 2.5 Vapor-Liquid Equilibrium (VLE) (p. 35)
  • 2.6 Effect of Pressure on Phase Transformation Temperatures (p. 42)
  • 2.7 Stream and Air Property Calculators (p. 44)
  • 2.8 Properties of Solutions (p. 44)
  • 2.9 Summary (p. 50)
  • Chapter 3 Statistical Concepts Applied to Measurement and Sampling (p. 54)
  • 3.1 Basic Statistical Concepts and Descriptive Tools (p. 55)
  • 3.2 Distributions of Random Variables (p. 62)
  • 3.3 Basic Applications of Inferential Statistics to Measurement (p. 75)
  • 3.4 Curve Fitting (p. 95)
  • 3.5 Experimental Design (p. 119)
  • 3.6 Summary (p. 137)
  • Chapter 4 Fundamentals of Materials Balances with Applications to Non-Reacting Systems (p. 144)
  • 4.1 System Characteristics (p. 144)
  • 4.2 Process Classifications (p. 145)
  • 4.3 Flowsheets (p. 146)
  • 4.4 The General Balance Equation (p. 150)
  • 4.5 Material Balances on Simple Non-Reactive Systems (p. 151)
  • 4.6 Strategy for Making Material Balance Calculations (p. 154)
  • 4.7 Degree-of-Freedom Analysis (p. 158)
  • 4.8 Using Excel-based Calculations Tools to Solve Equations (p. 174)
  • 4.9 Balances on Systems with Multiple Devices (p. 179)
  • 4.10 Extension of ExcelÆs Calculational Tools for Repetitive Solving (p. 194)
  • Special Multiple-Device Configurations I û Recycle and Bypass (p. 197)
  • Special Multiple-Device Configurations II û Counter-Current Flow (p. 205)
  • Using FlowBal for Material Balance Calculations (p. 216)
  • Continuous-Mixing Devices (p. 223)
  • Graphical Representation of Material Balances (p. 232)
  • Measures of Performance (p. 232)
  • Controllers (p. 234)
  • Summary (p. 239)
  • Stoichiometry and the Chemical Equation (p. 248)
  • Use of Chemical Reactions in FlowBal (p. 279)
  • Balancing Aqueous (Ionic) Reactions (p. 283)
  • Summary (p. 286)
  • Reactive Material Balances (p. 294)
  • Time-Varying Processes (p. 384)
  • Systems Containing Aqueous Electrolytes (p. 389)
  • Summary (p. 402)
  • Energy and the First Law of Thermodynamics (p. 410)
  • The Use of FREED in Making Heat Balances (p. 437)
  • Heat of Solution (p. 441)
  • Summary (p. 445)
  • Enthalpy Balances in Non-Reactive Systems (p. 450)
  • Graphical Representation of a Heat Balance (p. 499)
  • Summary (p. 500)
  • System Balances on Reactive Processes (p. 505)
  • Case Studies (p. 577)
  • Material Balance for an H-Iron Reduction Process with Gas Tempering and Recycle (p. 577)
  • Mass and Heat Balance Simulation for the Use of DRI in EAF Steelmaking (p. 581)
  • Natural Gas Combustion Control and the Wobbe Index (p. 588)
  • Reduction of Hematite to Magnetite (p. 592)
  • Conversion of Quartz to Cristobalite in a Fluidized Bed (p. 598)

Author notes provided by Syndetics

<p>Arthur E. Morris is Professor Emeritus of Metallurgical Engineering in the Department of Metallurgical Engineering at the Missouri University of Science and Technology--Rolla, where he taught for thirty years. A consultant to several industrial corporations, he was asked by the U.S. Bureau of Mines to organize a new department-wide research group--the Generic Mineral Technology Center for Pyrometallurgy, where he was principal investigator until his retirement in 1996. He has prepared CDs for other texts and developed short courses on materials processing, as well as publishing nearly seventy papers on various aspects of the subject.</p>

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