Biochemical engineering management /
Simpson, Callum
Biochemical engineering management / Callum Simpson - London ED - Tech Press 2019 - 327 p.
We are all aware of opportunities created by advances in molecular biology. Living cells and their components can be used to produce a large number of useful compounds such as therapeutics and other products. But to obtain significant benefits as a commercial operation, molecular biology needs the support of biochemical engineering. The vital area of biotechnology that is concerned with the practical application of biological agents (whole cell systems and biocatalysts) and the methodologies and processes associated with it on an industrial scale is biochemical engineering.
Biochemical engineering is applicable in different areas of biotechnology, such as biochemical reactions, enzyme technology, and environmental biotechnology. microbial manipulations, bio-separation technology, plant and animal cell cultures, and food technology. It consists of the development of new process technology, designing bioreactors, and developing efficient, and economically feasible extraction and purification procedures (downstream processing). Chapters 1 and 2 discuss about the basic concepts of biotechnology and biochemical engineering. Chapter 3 tells about the concept of enzyme kinetics, their evolution and use in biochemical engineering. Chapter4. and 5 describe immobilized enzymes and industrial applications of enzymes. Chapter 6 depicts about industrial microbiology.
This chapter discusses different concepts about the fermentation process, cell products and other modified compounds. Chapter 7 tells about different types of cell cultivations in microbial, animal, and plant. Chapter 8 discusses about the fermentation process and its control. Chapter 9 and 10 describe cell kinetics and fermenter design and also how the cell grows. Chapter 11: discuss about the bioreactor design. Chapter 12 depicts the downstream processing, centrifugation, sedimentation and other technology. Chapter 13 tells about the sterilisation.
Contents: 1. Introduction, 2. Fundamentals of Biochemical Engineering, 3. Enzyme Kinetics, 4. Immobilized Enzyme, 5. Industrial Applications of Enzymes, 6. Industrial Microbiology. 7. Cell Cultivations, 8. Fermentation Process Control, 9. Cell Kinetics and Fermenter Design, 10. Growth Kinetics, 11. Bioreactor Design, 12. Downstream Processing, 13. Sterilisation, 14. Membrane Separation Processes, 15. Advanced Downstream Processing in Biotechnology.
9781788821384
Enzyme Kinetics
Fermenter Design
Sterilization
Bioreactor Design
660.63 SIM-C
Biochemical engineering management / Callum Simpson - London ED - Tech Press 2019 - 327 p.
We are all aware of opportunities created by advances in molecular biology. Living cells and their components can be used to produce a large number of useful compounds such as therapeutics and other products. But to obtain significant benefits as a commercial operation, molecular biology needs the support of biochemical engineering. The vital area of biotechnology that is concerned with the practical application of biological agents (whole cell systems and biocatalysts) and the methodologies and processes associated with it on an industrial scale is biochemical engineering.
Biochemical engineering is applicable in different areas of biotechnology, such as biochemical reactions, enzyme technology, and environmental biotechnology. microbial manipulations, bio-separation technology, plant and animal cell cultures, and food technology. It consists of the development of new process technology, designing bioreactors, and developing efficient, and economically feasible extraction and purification procedures (downstream processing). Chapters 1 and 2 discuss about the basic concepts of biotechnology and biochemical engineering. Chapter 3 tells about the concept of enzyme kinetics, their evolution and use in biochemical engineering. Chapter4. and 5 describe immobilized enzymes and industrial applications of enzymes. Chapter 6 depicts about industrial microbiology.
This chapter discusses different concepts about the fermentation process, cell products and other modified compounds. Chapter 7 tells about different types of cell cultivations in microbial, animal, and plant. Chapter 8 discusses about the fermentation process and its control. Chapter 9 and 10 describe cell kinetics and fermenter design and also how the cell grows. Chapter 11: discuss about the bioreactor design. Chapter 12 depicts the downstream processing, centrifugation, sedimentation and other technology. Chapter 13 tells about the sterilisation.
Contents: 1. Introduction, 2. Fundamentals of Biochemical Engineering, 3. Enzyme Kinetics, 4. Immobilized Enzyme, 5. Industrial Applications of Enzymes, 6. Industrial Microbiology. 7. Cell Cultivations, 8. Fermentation Process Control, 9. Cell Kinetics and Fermenter Design, 10. Growth Kinetics, 11. Bioreactor Design, 12. Downstream Processing, 13. Sterilisation, 14. Membrane Separation Processes, 15. Advanced Downstream Processing in Biotechnology.
9781788821384
Enzyme Kinetics
Fermenter Design
Sterilization
Bioreactor Design
660.63 SIM-C
