Biochemical engineering and biotechnology

Biochemical engineering and biotechnology

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Biochemical Engineering and Biotechnology, Second Edition outlines the principles of biochemical processes and explains their use in the manufacturing of everyday products. The text covers the major concepts of biochemical engineering and biotechnology, and is an ideal reference for chemical enginee...

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Detalles Bibliográficos
Autor principal: Najafpour, Ghasem D., aut (Autor)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Amsterdam, Netherlands : Elsevier 2015.
Edición:Second edition
Colección:Science Direct e-books.
Acceso en línea:Conectar con la versión electrónica
Ver en Universidad de Navarra:https://innopac.unav.es/record=b34549535*spi
Tabla de Contenidos:
  • Front Cover; BIOCHEMICAL ENGINEERING AND BIOTECHNOLOGY; Copyright; Contents; Author Biography; Book Audience and Overview; WHO SHOULD READ THIS BOOK?; Preface; PREFACE TO THE SECOND EDITION; PREFACE TO THE FIRST EDITION; Chapter 1
  • Industrial Microbiology; 1.1 INTRODUCTION; 1.2 ROLE OF BIOTECHNOLOGY; 1.3 ROLE OF BIOSCIENCES; 1.4 MICROBE FUNCTIONS; 1.5 PROCESS FERMENTATION; 1.6 APPLICATION OF FERMENTATION PROCESSES; 1.7 BIOPROCESS PRODUCTS; 1.8 PRODUCTION OF LACTIC ACID; 1.9 PRODUCTION OF VINEGAR; 1.10 PRODUCTION OF AMINO ACIDS (LYSINE AND GLUTAMIC ACID) AND INSULIN.
  • 1.11 ANTIBIOTICS, PRODUCTION OF PENICILLIN1.12 PRODUCTION OF ENZYMES; 1.13 PRODUCTION OF BAKER'S YEAST; References; Chapter 2
  • Enzyme Technology; sub chapter 2.1
  • Introduction; 2.2 ENZYME ELEMENTARY REACTION RATE; 2.3 ENZYME CLASSIFICATIONS; 2.4 ENZYMES SPECIFIC FUNCTION; 2.5 ENZYMES ACT AS CATALYSTS; 2.6 INHIBITORS OF ENZYME-CATALYZED REACTIONS; 2.7 INDUSTRIAL APPLICATION OF ENZYMES; 2.8 COENZYMES; 2.9 EFFECT OF PH ON ENZYME ACTIVITIES; 2.10 ENZYME UNIT ACTIVITIES; 2.11 ENZYME DEACTIVATION; NOMENCLATURE; 2.12 SOLVE PROBLEMS; References.
  • Subchapter 2.13
  • Case Study: Solid-State Fermentation of Sugarcane Bagasse in a Tray Bioreactor for Production of Lipase U ... 2.13.1 INTRODUCTION; 2.13.2 MATERIAL AND METHODS; 2.13.3 RESULTS AND DISCUSSION; References; Chapter 3
  • Gas and Liquid System (Aeration and Agitation) " subchapter 3.1
  • Introduction; 3.2 AERATION AND AGITATION; 3.3 AIR SPARGER; 3.4 AGITATION AND MIXING PHENOMENA; 3.5 TYPES OF AGITATOR; 3.6 OTR IN A FERMENTER; 3.7 MASS TRANSFER IN A GAS-LIQUID SYSTEM; 3.8 GAS HOLD-UP; 3.9 MASS TRANSFER COEFFICIENTS FOR STIRRED TANKS; 3.10 AGITATED SYSTEM AND MIXING PHENOMENA.
  • 3.11 MASS TRANSFER LIMITED PROCESSNOMENCLATURE; GREEK SYMBOLS; References; subchapter 3.13
  • Case Study: Oxygen Transfer Rate Model in an Aerated Tank for Pharmaceutical Wastewater; 3.13.1 INTRODUCTION; 3.13.2 MATERIAL AND METHOD; 3.13.3 RESULTS AND DISCUSSION; 3.13.4 CONCLUSION; NOMENCLATURE; References; subchapter 3.14
  • Case Study: Fuel and Chemical Production from the Water-Gas Shift Reaction by Fermentation Processes " 3.14.1 INTRODUCTION; 3.14.2 KINETICS OF GROWTH IN A BATCH BIOREACTOR; 3.14.3 EFFECT OF SUBSTRATE CONCENTRATION ON MICROBIAL GROWTH; 3.14.4 MASS TRANSFER PHENOMENA.
  • 3.13.5 KINETIC OF WATER GAS SHIFT REACTION3.14.6 GROWTH KINETICS OF CO SUBSTRATE ON C. LJUNGDAHLII; NOMENCLATURE; Acknowledgments; References; Chapter 4
  • Fermentation Process Control; 4.1 INTRODUCTION "THIS CASE STUDY WAS PARTIALLY WRITTEN WITH CONTRIBUTIONS FROM:HOSSEIN ZARE, BIOTECHNOLOGY RESEARCH LAB., FACU ... ; 4.2 BIOREACTOR CONTROLLING PROBES; 4.3 CHARACTERISTICS OF BIOREACTOR SENSORS; 4.4 TEMPERATURE MEASUREMENT AND CONTROL; 4.5 DISSOLVED OXYGEN MEASUREMENT AND CONTROL; 4.6 PH/REDOX MEASUREMENT AND CONTROL; 4.7 DETECTION AND PREVENTION OF FOAM; 4.8 BIOSENSORS; NOMENCLATURE; References; Chapter 5
  • Growth Kinetics.

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