1Preface
493.4.2 Synthesis
2Chapter - 1 Chemical Industry
503.4.3 Biological Synthesis
31.1 Chemical industry
513.4.4 Modification of Natural Polymers
41.2 History
523.4.5 Properties
51.2.1 Industrial Revolution
533.4.6 Monomers and Repeat Units
61.2.2 Expansion and Maturation
543.5 Process Design: 3.5.1 Design Considerations
71.3 Products
553.6 Ceramic Technology
81.4 Overview
563.6.1 Materials
91.4.1 Life Sciences
573.6.2 Crystalline Ceramics
101.4.2 Specialty Chemicals
583.6.3 Non-crystalline Ceramics
111.4.3 Consumer Products
593.7 Exercise
121.5 Technology
60Chapter - 4 Chemical Weapons
131.6 World Chemical Production
614.1 introduction
141.6.1 Distillation Columns
624.2 International law
151.6.2 Continents and Countries
634.2.1 Before the Second World War
161.7 Exercise
644.2.2 Modern Agreements
17Chapter - 2 Understanding Chemical Engineering
654.3 Use
182.1 Introduction
664.4 Manner and form
192.2 History
674.5 Disposal: 4.5.1 United States
202.3 New concepts and innovations
684.6 Lethality
212.4 Safety and hazard developments
694.7 Unitary versus binary weapons
222.5 Recent progress
704.8 Exercise
232.6 Origin
71Chapter - 5 Applications of Chemical Product Engineering
242.7 Professional associations
725.1 Petrochemicals: 5.1.1 Petrochemical Feedstock Sources
252.8 Definitions
735.2 Olefins: 5.2.1 Aromatics
262.9 Unit operation
745.3 Agrochemicals
272.10 Unit processes
755.3.1 Ecology
282.10.1 Plant Design and Construction
765.3.2 History
292.10.2 Process Design and Analysis
775.4 Oleochemistry
302.10.3 Transport Phenomena
785.4.1 Processes
312.11 Applications and practice
795.4.2 Hydrolysis
322.12 Exercise
805.4.3 Transesterification
33Chapter - 3 The Schematics of Chemical Product Engineering
815.4.4 Applications
343.1 Biomedical Engineering
825.5 Oleochemical industry development
353.1.1 Bioinformatics
835.5.1 Europe
363.1.2 Biomaterial
845.5.2 Southeast Asia
373.1.3 Biomedical Optics
855.6 Elastomer
383.1.4 Tissue Engineering
865.7 Industrial Gas: 5.7.1 Early History
393.2 Genetic engineering
875.8 Gas production technology
403.2.1 Pharmaceutical Engineering
885.8.1 Gasification
413.2.2 Implants
895.8.2 Gas Distribution
423.2.3 Biomedical Sensors
905.8.3 Gas Delivery
433.2.4 Rehabilitation Engineering
915.8.4 What defines an Industrial Gas
443.3 Membrane Technology
925.9 Exercise
453.3.1 Membrane Systems
93Appendix
463.3.2 Membrane Fouling
94Glossary
473.4 Polymerization
95Index
483.4.1 Common Examples
