Handbook on material and energy balance calculations in materials processing
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 rel...
| Autor principal: | |
|---|---|
| Otros Autores: | , , |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken, NJ :
John Wiley
c2011.
|
| Edición: | 3rd ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009664724606719 |
Tabla de Contenidos:
- Handbook on Material and Energy Balance Calculations in Materials Processing; Contents; Preface to the First Edition; Preface to the Third Edition; Acknowledgements; Chapter 1. Dimensions, Units, and Conversion Factors; 1.1 The SI System of Units; 1.1.1 Derived Units; 1.1.2 Units Outside the SI; 1.1.3 Comments on Some Quantities and Their Units; 1.2 The American Engineering System (AES) of Units; 1.3 Conversion of Units; 1.3.1 Conversion Factor Tables; 1.3.2 The Dimension Table; 1.3.3 Conversion Equations - Temperature and Pressure; 1.4 Unit Conversions Using the U-Converter Program
- 1.5 Amount of Substance - the Mole Unit1.6 Density and Concentration; 1.6.1 Density; 1.6.2 Composition and Concentration; 1.6.3 Composition of Gases; 1.7 Electrical Units; 1.8 Calculation Guidelines; 1.9 Summary; References and Further Reading; Exercises; Chapter 2. Thermophysical and Related Properties of Materials; 2.1 State of a System and Properties of a Substance; 2.2 The Gibbs Phase Rule; 2.2.1 Consequences of the Phase Rule for Non-Reactive and Reactive Systems; 2.2.2 Application of the Phase Rule to One-Phase Non-Reactive Systems
- 2.2.3 Application of the Phase Rule to Multi-Phase Non-Reactive Systems2.2.4 Application of the Phase Rule to Reactive Systems; 2.3 The Gas Phase; 2.3.1 The Ideal Gas Law; 2.3.2 Non-Ideal Gas Behavior; 2.4 Condensed Phases; 2.5 Vapor-Liquid Equilibrium (VLE); 2.5.1 Mixtures of Condensable and Non-Condensable Gases; 2.5.2 Software for Making Dew Point and Humidity Calculations; 2.6 Effect of Pressure on Phase Transformation Temperatures; 2.7 Steam and Air Property Calculators; 2.8 Properties of Solutions; 2.8.1 Ideal Solutions - Raoult's Law; 2.8.2 Non-Ideal Solutions - Activity Coefficients
- 2.8.3 Solutions of Gases in Condensed Phases2.8.4 The Solubility Limit; 2.8.5 The Solubility of Ionic Species in Water; the Solubility Product; 2.9 Summary; References and Further Reading; Exercises; Chapter 3. Statistical Concepts Applied to Measurement and Sampling; 3.1 Basic Statistical Concepts and Descriptive Tools; 3.1.1 Histograms and Frequency Distributions; 3.1.2 Mean, Standard Deviation, and Variance; 3.1.3 Median, Percentile and Quantile; 3.2 Distributions of Random Variables; 3.2.1 The Uniform Distribution; 3.2.2 The Normal Distribution
- 3.3 Basic Applications of Inferential Statistics to Measurement3.3.1 Sampling Distributions of the Mean and the Central Limit Theorem; 3.3.2 Confidence Intervals; 3.3.3 Treatment of Errors; 3.3.4 Error Propagation; 3.4 Curve Fitting; 3.4.1 Simple Linear Regression and Excel's Trendline Tool; 3.4.2 Using Solver to Develop Single-Variable Regression Models; 3.4.3 Multiple Linear and Non-linear Regression; 3.4.4 Using Solver and Excel's SSD Tool to Find Equation Coefficients; 3.4.5 Choosing Among Models; 3.4.6 Polynomial vs. Rational Function Models; 3.4.7 Outliers; 3.4.8 Warnings
- 3.5 Experimental Design
