Buch, Englisch, 336 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 653 g
Principles, Applications, and Design Correlations in Chemical Engineering Fields of Practice
Buch, Englisch, 336 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 653 g
ISBN: 978-1-032-46912-6
Verlag: CRC Press
Advanced Manufacturing Operations Technologies: Principles, Applications, and Design Correlations in Chemical Engineering Fields of Practice fills the gap in the connection between production and regulated applications in several industries. It highlights established concepts and provides a new, fresh outlook by concentrating on and creating linkages in the implementation of practices in manufacturing and safe, clean energy systems. Case studies for the overall design, installations, and construction of manufacturing operations in various industries as well as the standard operating procedures are offered. The book also discusses the correlation between design strategies including step-by-step processes to ensure the reliability, safety, and efficacy of products. The fundamentals of controlled techniques, quality by design, risk assessment, and management are covered in support of operations applications and continuous improvement.
This comprehensive book is helpful to all professionals, students, and academicians in many scientific disciplines that utilize fundamental principles of chemical engineering. It is engineering-driven and will be of use to those in industrial and manufacturing, chemical, biochemical, mechanical engineering, and automated control systems fields.
Zielgruppe
Professional Practice & Development and Undergraduate Advanced
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
1. Instrumentation. 2. Chemical Plant - Engineering Materials. 3. Pressure Vessels. 4. Thermodynamics – Mass, Enthalpy, Entropy, Free Energy, Internal Energy in Closed and Open Systems. 5. Fluid Dynamics – Crystallization, Sedimentation, and Particle Dynamics. 6. Fluid Mechanics. 7. Heat Transmission – Natural Convection, Forced Convection, Single- and Two-Phase (Boiling) Flow Systems. 8. Transport Phenomena. 9. Chemical Reaction Engineering. 10. Fuel and Power. 11. Electrochemistry/Corrosion. 12. Unit Operations. 13. Process Dynamics. 14. Mathematics. 15. Numerical Methods – Computation. 16. Chemical Plant Design. 17. Experimentation. 18. Multi-Phase Flow. 19. Bio-Chemical Engineering. 20. Industrial Inks, Dyes, and Pigments. 21. Industrial Plastics. 22. Coating. 23. Industrial Adhesives. 24. Electronic Materials Processing. 25. Nuclear Power Plant - Reactor Heat Removal. 26. Pharmaceutical Manufacturing. Appendix I. Process Flow Diagram – Component Preparation, Compounding, Fill/Finish, and Packaging of Liquid Aseptic Operation. Appendix II. Master Validation Plan. Appendix III. Hand Calculations – System Architecture and Computations for Nuclear Reactor Heat Removal Systems Computer Program. Appendix IV. Chemical Reaction Fouling. Appendix V. Proposal for New Plant construction. Appendix VI. The Accident at Three Mile Island. Appendix VII. Water Hammer in Nuclear Power Plants. Appendix VIII. Selection and Design of Industrial Furnace Heaters. Appendix IX. Chemical Reaction Fouling in Unit Operations. Appendix X. Analysis of Single-Phase Flow in Power Plant Drain Systems. Appendix XI. Case Studies. Appendix XII. Heavy Metals Testing.
