Basic Principles and Calculations in Process Technology

A Practical Guide to Physical and Chemical Principles and Calculations for Today’s Process Control Operators

In Basic Principles and Calculations in Process Technology, author T. David Griffith walks process technologists through the basic principles that govern their operations, helping them collaborate with chemical engineers to improve both safety and productivity. He shows process operators how to go beyond memorizing rules and formulas to understand the underlying science and physical laws, so they can accurately interpret anomalies and respond appropriately when exact rules or calculation methods don’t exist.

Using simple algebra and non-technical analogies, Griffith explains each idea and technique without calculus. He introduces each topic by explaining why it matters to process technologists and offers numerous examples that show how key principles are applied and calculations are performed. For end-of-chapter problems, he provides the solutions in plain-English discussions of how and why they work. Chapter appendixes provide more advanced information for further exploration.

Basic Principles and Calculations in Process Technology is an indispensable, practical resource for every process technologist who wants to know “what the numbers mean” so they can control their systems and processes more efficiently, safely, and reliably.

T. David Griffith received his B.S. in chemical engineering from The University of Texas at Austin and his Ph.D. from the University of Wisconsin-Madison, then top-ranked in the discipline. After working in research on enhanced oil recovery (EOR), he cofounded a small chemical company, and later in his career he developed a record-setting Electronic Data Interchange (EDI) software package. He currently instructs in the hydrocarbon processing industry.

Coverage includes

• Preparing to solve problems by carefully organizing them and establishing consistent sets of measures

• Calculating areas and volumes, including complex objects and interpolation

• Understanding Boyle’s Law, Charles’s Law, and the Ideal Gas Law

• Predicting the behavior of gases under extreme conditions

• Applying thermodynamic laws to calculate work and changes in gas enthalpy, and to recognize operational problems

• Explaining phase equilibria for distillation and fractionalization

• Estimating chemical reaction speed to optimize control

• Balancing material or energy as they cross system boundaries

• Using material balance calculations to confirm quality control and prevent major problems

• Calculating energy balances and using them to troubleshoot poor throughput

• Understanding fluid flow, including shear, viscosity, laminar and turbulent flows, vectors, and tensors

• Characterizing the operation of devices that transport heat energy for heating or cooling

• Analyzing mass transfer in separation processes for materials purification

Dr. David Griffith received his Bachelor of Science in chemical engineering from the University of Texas at Austin, and his Ph.D. from the University of Wisconsin-Madison, then ranked number one in chemical engineering. After working in research on enhanced oil recovery (EOR), he and two friends started a small chemical company in Wisconsin specializing in furniture restoration products. Later, his career took a major shift when he developed a record-setting electronic data interchange (EDI) software package for his wife’s computer software consulting business, and provided support to users as far away as Australia. Now, he is doing what he enjoys most, teaching in the hydrocarbon processing industry.

In addition to technical papers based on his graduate school and industrial research, he also wrote and published the user manuals for his EDI software, with which users set implementation records with trading partners J.C. Penney’s and Marathon Oil.

Griffith says, “One would be amazed with the parallels between teaching students, reporting research results to associates, and supporting business customers over long distances.” Besides his background in chemical engineering, he was also mentored by one of the most outstanding statisticians in the world who also had a B.S. and M.S. in chemical engineering along with an M.S. and Ph.D. in statistics. He also says that he tries to be practical and takes the approach of understanding processes instead of just working with equations.

1. Introduction, Units of Measure

2. Areas and Volumes
3. Gas Laws: P/V/T

4. Thermodynamics: Energy, Heat and Work

5. Shell Balances

6. Reaction Kinetics

7. Transport Phenomena: Fluid Flow
8. Transport Phenomena: Heat Transfer

9. Transport Phenomena: Mass Transfer

10. Business Economics

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