ABSTRACT
Increasing competitive pressure for improved quality and efficiency on one hand and tightening emissions and operating requirements on the other leave the modern process engineer squeezed in the middle. While effective modeling can help balance these demands, the current literature offers overly theoretical treatments on modeling that do not transl
TABLE OF CONTENTS
chapter 1|8 pages
Introduction to Modeling
chapter |11 pages
Example 1.6 Partial Fraction Expansion
chapter |4 pages
TYPE CHARACTER
chapter 1|53 pages
6A Linear Algebra Primer
part |2 pages
XaGy
chapter |11 pages
H' H' H' H'
part 2|1 pages
Introduction to Combustion
chapter 2|33 pages
1 General Overview
chapter 2|8 pages
4 Mass Balance for Combustion in Air
chapter |11 pages
Example 2.7 Emissions Corrections to Specified Reference Conditions
chapter 2|18 pages
6 Mechanical Energy Balance
part 3|1 pages
Experimental Design and Analysis
chapter 3|16 pages
1 Some Statistics
chapter |6 pages
Example 3.1 ANOVA for a Single-Factor Investigation
chapter |24 pages
Example 3.3 Construction of a 2 Factorial Design
chapter |47 pages
Example 3.10 Genuine Replicates
chapter 4|17 pages
Analysis of Nonideal Data
chapter |76 pages
Example 4.2 The Characteristic Equation Using the Trace Operator
chapter 4|8 pages
8 Mixture Designs
chapter |26 pages
Example 4.9 Construction of a Simplex-Centroid in Five Components
part |1 pages
References