Industrial chemistry /

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Industrial Chemistry is a book that brings the subject matter of a chemistry curriculum to life. It examines the major chemistry performed by industry and looks at how such chemical processes affect our lives. In addition, as each process is presented and examined, there is a significant discussion...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Benvenuto, Mark A. (Mark Anthony)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Berlin ; Boston : Walter de Gruyter GmbH & Co. KG, [2014]
Colección:De Gruyter graduate.
Temas:
Chemical engineering > Textbooks.
SCIENCE > Chemistry > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Chemical engineering
Technische Chemie
Chemical Engineering.
Chemical Industry.
Process Engineering.
Textbooks
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; 1 Overview and Introduction to the Chemical Industry; 1.1 Introduction; 1.2 Listing of U.S. Top 50 Chemical Producers; 1.3 List of Top Chemical ProducersWorldwide; 1.4 Employment; 1.5 Recycling; 2 Sulfuric Acid; 2.1 Introduction; 2.2 Methods of Production, Sulfur; 2.3 Methods of Production, Sulfuric Acid; 2.3.1 The Contact Process; 2.3.2 The Wet Sulfuric Acid Process; 2.4 Volume of Production and Sales; 2.5 Uses; 2.5.1 Production of Phosphoric Acid; 2.5.2 Production of AluminumSulfate; 2.6 Recycling; 3 Major Industrial Gases; 3.1 Introduction, Air Liquefaction; 3.2 Helium.
  • 3.3 Helium Uses3.4 Air Liquefaction; 3.5 Oxygen; 3.5.1 Storage and Uses; 3.6 Nitrogen; 3.6.1 Major Uses; 3.7 Argon; 3.7.1 Major Uses; 3.8 Carbon Dioxide; 3.8.1 Carbon Dioxide Uses; 3.9 Pollution, Recycling, By-Product Uses; 4 Nitrogen Compounds; 4.1 Inorganic Nitrogen Compounds; 4.2 Ammonia; 4.2.1 Introduction and History194.2.2 Sources of Starting Materials; 4.2.3 Reaction Chemistry; 4.2.4 Uses; 4.3 Nitric Acid; 4.4 Ammonium Nitrate; 4.5 Adipic Acid; 4.6 Urea; 4.7 Ammonium Sulfate; 4.7.1 Pollution; 4.7.2 Recycling Possibilities; 5 Chemicals from Limestone; 5.1 Introduction; 5.2 Lime.
  • 5.3 Sodium Carbonate5.3.1 Soda Ash Uses; 5.3.2 Sodium Bicarbonate Uses; 5.4 Calcium Chloride; 5.4.1 Uses; 5.5 Pollution and Recycling; 6 Sodium Chloride; 6.1 Introduction; 6.2 Methods of Recovery, Production, and Extraction; 6.2.1 Evaporation; 6.2.2 Mining; 6.2.3 Uses; 6.3 Chemicals Produced From Sodium Chloride; 6.3.1 Sodium Hydroxide Production; 6.3.2 The Mercury Cell; 6.3.3 The Diaphragm Cell; 6.3.4 The Membrane Cell; 6.3.5 Production Statistics; 6.4 Uses of NaOH; 6.5 Chlorine; 6.5.1 Uses of Chlorine; 6.6 Hydrochloric Acid; 6.6.1 Production of Hydrochloric Acid.
  • 6.6.2 Uses of Hydrochloric Acid6.7 Titanium Dioxide; 6.7.1 Production of Titanium Dioxide; 6.7.2 Uses of Titanium Dioxide; 6.8 Recycling407 Further Inorganics; 7.1 Carbon black; 7.2 Producers; 7.3 Production Methods; 7.4 Uses; 7.5 Recycling; 7.6 Potash; 7.6.1 Producers; 7.7 Production by Country; 7.8 Recycling; 7.9 Sodium Tri-Poly-Phosphate; 7.10 Producers; 7.11 Production; 7.12 Uses; 7.13 Recycling; 8 Water; 8.1 Introduction, Sources; 8.2 Purification Techniques; 8.2.1 Desalination; 8.2.2 Sewage Treatment; 8.3 Uses, Residential; 8.4 Uses, Industrial; 8.5 High Purity Water, Uses.
  • 8.6 Recycling8.7 Further; 9 Simple Organics from Petroleum; 9.1 Introduction and History; 9.2 Sources, Geographically; 9.3 Extractive Techniques; 9.3.1 Offshore; 9.3.2 Onshore; 9.4 Refining and Distillation; 9.4.1 Simple De-Salting; 9.4.2 Distillation; 9.4.3 Hydrotreating or Hydroprocessing; 9.4.4 Cracking or Hydrocracking; 9.4.5 Coking; 9.4.6 Visbreaking; 9.4.7 Steamcracking; 9.4.8 Catalytic Reformers639.4.9 Alkylation; 9.4.10 Removal of the C1 or Natural Gas Fraction; 9.4.11 Sulfur Recovery; 9.5 Pollution; 9.6 Recycling and By-Product Uses; 10 The C1 Fraction; 10.1 Methane; 10.2 Methanol.

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