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The chemistry and technology of magnesia [[electronic resource] /] / Mark A. Shand
The chemistry and technology of magnesia [[electronic resource] /] / Mark A. Shand
Autore Shand Mark A
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (286 p.)
Disciplina 661.0392
661/.0392
Soggetto topico Magnesium oxide
Magnesium oxide - Industrial applications
Magnesium oxide - Safety measures
Soggetto genere / forma Electronic books.
ISBN 1-280-45048-7
9786610450480
0-470-24953-6
0-471-98057-9
0-471-98056-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto THE CHEMISTRY AND TECHNOLOGY OF MAGNESIA; CONTENTS; Preface; Acknowledgments; 1 History of Magnesia; 1.1 History of Magnesia; Bibliography; 2 Formation and Occurrence of Magnesite and Brucite; 2.1 Introduction; 2.2 Sedimentary Magnesite-Basis for Carbonate Deposition; 2.2.1 Secondary Nodular Magnesite; 2.2.2 Biogenic Carbonate; 2.3 Serpentine Alteration by Hydrothermal Processes; 2.4 Cryptocrystalline Magnesite Formation by Infiltration; 2.5 Crystalline Magnesite-Replacement of Limestone and Dolomite; 2.6 Brucite; 2.7 Worldwide Occurrence of Magnesite and Brucite
2.7.1 United States and Canada2.7.2 Brazil; 2.7.3 Australia; 2.7.4 China; 2.7.5 North Korea; 2.7.6 Nigeria; 2.7.7 South Africa; 2.7.8 India; 2.7.9 Saudi Arabia; 2.7.10 Iran; 2.7.11 Greece; 2.7.12 Turkey; 2.7.13 Serbia and Bosnia; 2.7.14 Austria; 2.7.15 Russia; 2.7.16 Slovakia; 2.7.17 Spain; 2.8 Physical and Chemical Properties of Magnesite; 2.9 Chemical and Physical Properties of Brucite; Bibliography; References; 3 Synthetic Magnesia; 3.1 Introduction; 3.2 Composition of Seawater and Brines; 3.2.1 Seawater Chemistry; 3.2.2 Brine Extraction; 3.2.3 Sump Leaching Phase; 3.2.4 Preparation Phase
3.2.5 Production Phase3.2.6 Evaporite Production; 3.2.7 Subsurface Brines; 3.3 Process Description; 3.3.1 Precipitation Reaction; 3.3.2 Influence of Reaction Conditions on Mg(OH)(2) Particle Morphology; 3.3.3 Dolime/Lime Requirements; 3.3.4 Seawater Pretreatment; 3.3.5 Precipitation Process; 3.3.6 Settling and Compaction; 3.3.7 Washing; 3.3.8 Filtration; 3.3.9 Brine Precipitation; 3.4 Calcination; 3.5 Grinding; 3.6 Packaging; 3.7 Sampling and Testing and In-Process Quality Control; 3.7.1 Dolime; 3.7.2 Seawater; 3.7.3 Reactor; 3.7.4 Settling/Thickener; 3.7.5 Washing; 3.7.6 Filtration
3.7.7 Calcining3.7.8 Grinding; 3.7.9 Finished Product; 3.8 Aman Process; 3.8.1 Pyrohydrolysis of Magnesium Chloride Hexahydrate; 3.9 General Properties of Synthetic Magnesia; Bibliography; References; 4 Mining and Processing Magnesite; 4.1 Mining Operations; 4.1.1 Overburden Removal; 4.1.2 Drilling; 4.1.3 Bench Height; 4.1.4 Hole Diameter; 4.1.5 Burden and Spacing; 4.1.6 Subdrilling; 4.1.7 Hole Stemming; 4.1.8 Blast Hole Pattern; 4.1.9 Blast Timing; 4.1.10 Blasting Agents; 4.1.11 Secondary Blasting; 4.1.12 Chemical Contour and Muck Maps; 4.2 Processing Magnesite
4.2.1 Ore Removal and Primary Crushing4.2.2 Gyratory and Cone Crushers; 4.2.3 Jaw Crushers; 4.2.4 Roll Crushers; 4.2.5 Size Separation; 4.2.6 Screening; 4.2.7 Pneumatic (Air) Classification; 4.2.8 Hydroclones; 4.3 Gravity Concentration; 4.3.1 Float-Sink Separation; 4.3.2 Froth Floatation; 4.3.3 Floatation Reagents; 4.3.4 Floatation Machines; 4.4 Tertiary Crushing; 4.5 Postcalcination Screening and Grinding; References; 5 Calcination of Magnesium Hydroxide and Carbonate; 5.1 Calcination of Magnesite; 5.1.1 Energy Requirement for Calcination Process; 5.1.2 Effect of Time and Temperature
5.1.3 Kinetics of Calcination
Record Nr. UNINA-9910143570003321
Shand Mark A  
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
The chemistry and technology of magnesia [[electronic resource] /] / Mark A. Shand
The chemistry and technology of magnesia [[electronic resource] /] / Mark A. Shand
Autore Shand Mark A
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (286 p.)
Disciplina 661.0392
661/.0392
Soggetto topico Magnesium oxide
Magnesium oxide - Industrial applications
Magnesium oxide - Safety measures
ISBN 1-280-45048-7
9786610450480
0-470-24953-6
0-471-98057-9
0-471-98056-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto THE CHEMISTRY AND TECHNOLOGY OF MAGNESIA; CONTENTS; Preface; Acknowledgments; 1 History of Magnesia; 1.1 History of Magnesia; Bibliography; 2 Formation and Occurrence of Magnesite and Brucite; 2.1 Introduction; 2.2 Sedimentary Magnesite-Basis for Carbonate Deposition; 2.2.1 Secondary Nodular Magnesite; 2.2.2 Biogenic Carbonate; 2.3 Serpentine Alteration by Hydrothermal Processes; 2.4 Cryptocrystalline Magnesite Formation by Infiltration; 2.5 Crystalline Magnesite-Replacement of Limestone and Dolomite; 2.6 Brucite; 2.7 Worldwide Occurrence of Magnesite and Brucite
2.7.1 United States and Canada2.7.2 Brazil; 2.7.3 Australia; 2.7.4 China; 2.7.5 North Korea; 2.7.6 Nigeria; 2.7.7 South Africa; 2.7.8 India; 2.7.9 Saudi Arabia; 2.7.10 Iran; 2.7.11 Greece; 2.7.12 Turkey; 2.7.13 Serbia and Bosnia; 2.7.14 Austria; 2.7.15 Russia; 2.7.16 Slovakia; 2.7.17 Spain; 2.8 Physical and Chemical Properties of Magnesite; 2.9 Chemical and Physical Properties of Brucite; Bibliography; References; 3 Synthetic Magnesia; 3.1 Introduction; 3.2 Composition of Seawater and Brines; 3.2.1 Seawater Chemistry; 3.2.2 Brine Extraction; 3.2.3 Sump Leaching Phase; 3.2.4 Preparation Phase
3.2.5 Production Phase3.2.6 Evaporite Production; 3.2.7 Subsurface Brines; 3.3 Process Description; 3.3.1 Precipitation Reaction; 3.3.2 Influence of Reaction Conditions on Mg(OH)(2) Particle Morphology; 3.3.3 Dolime/Lime Requirements; 3.3.4 Seawater Pretreatment; 3.3.5 Precipitation Process; 3.3.6 Settling and Compaction; 3.3.7 Washing; 3.3.8 Filtration; 3.3.9 Brine Precipitation; 3.4 Calcination; 3.5 Grinding; 3.6 Packaging; 3.7 Sampling and Testing and In-Process Quality Control; 3.7.1 Dolime; 3.7.2 Seawater; 3.7.3 Reactor; 3.7.4 Settling/Thickener; 3.7.5 Washing; 3.7.6 Filtration
3.7.7 Calcining3.7.8 Grinding; 3.7.9 Finished Product; 3.8 Aman Process; 3.8.1 Pyrohydrolysis of Magnesium Chloride Hexahydrate; 3.9 General Properties of Synthetic Magnesia; Bibliography; References; 4 Mining and Processing Magnesite; 4.1 Mining Operations; 4.1.1 Overburden Removal; 4.1.2 Drilling; 4.1.3 Bench Height; 4.1.4 Hole Diameter; 4.1.5 Burden and Spacing; 4.1.6 Subdrilling; 4.1.7 Hole Stemming; 4.1.8 Blast Hole Pattern; 4.1.9 Blast Timing; 4.1.10 Blasting Agents; 4.1.11 Secondary Blasting; 4.1.12 Chemical Contour and Muck Maps; 4.2 Processing Magnesite
4.2.1 Ore Removal and Primary Crushing4.2.2 Gyratory and Cone Crushers; 4.2.3 Jaw Crushers; 4.2.4 Roll Crushers; 4.2.5 Size Separation; 4.2.6 Screening; 4.2.7 Pneumatic (Air) Classification; 4.2.8 Hydroclones; 4.3 Gravity Concentration; 4.3.1 Float-Sink Separation; 4.3.2 Froth Floatation; 4.3.3 Floatation Reagents; 4.3.4 Floatation Machines; 4.4 Tertiary Crushing; 4.5 Postcalcination Screening and Grinding; References; 5 Calcination of Magnesium Hydroxide and Carbonate; 5.1 Calcination of Magnesite; 5.1.1 Energy Requirement for Calcination Process; 5.1.2 Effect of Time and Temperature
5.1.3 Kinetics of Calcination
Record Nr. UNINA-9910830023403321
Shand Mark A  
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
The chemistry and technology of magnesia / / Mark A. Shand
The chemistry and technology of magnesia / / Mark A. Shand
Autore Shand Mark A
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (286 p.)
Disciplina 661/.0392
Soggetto topico Magnesium oxide
Magnesium oxide - Industrial applications
Magnesium oxide - Safety measures
ISBN 1-280-45048-7
9786610450480
0-470-24953-6
0-471-98057-9
0-471-98056-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto THE CHEMISTRY AND TECHNOLOGY OF MAGNESIA; CONTENTS; Preface; Acknowledgments; 1 History of Magnesia; 1.1 History of Magnesia; Bibliography; 2 Formation and Occurrence of Magnesite and Brucite; 2.1 Introduction; 2.2 Sedimentary Magnesite-Basis for Carbonate Deposition; 2.2.1 Secondary Nodular Magnesite; 2.2.2 Biogenic Carbonate; 2.3 Serpentine Alteration by Hydrothermal Processes; 2.4 Cryptocrystalline Magnesite Formation by Infiltration; 2.5 Crystalline Magnesite-Replacement of Limestone and Dolomite; 2.6 Brucite; 2.7 Worldwide Occurrence of Magnesite and Brucite
2.7.1 United States and Canada2.7.2 Brazil; 2.7.3 Australia; 2.7.4 China; 2.7.5 North Korea; 2.7.6 Nigeria; 2.7.7 South Africa; 2.7.8 India; 2.7.9 Saudi Arabia; 2.7.10 Iran; 2.7.11 Greece; 2.7.12 Turkey; 2.7.13 Serbia and Bosnia; 2.7.14 Austria; 2.7.15 Russia; 2.7.16 Slovakia; 2.7.17 Spain; 2.8 Physical and Chemical Properties of Magnesite; 2.9 Chemical and Physical Properties of Brucite; Bibliography; References; 3 Synthetic Magnesia; 3.1 Introduction; 3.2 Composition of Seawater and Brines; 3.2.1 Seawater Chemistry; 3.2.2 Brine Extraction; 3.2.3 Sump Leaching Phase; 3.2.4 Preparation Phase
3.2.5 Production Phase3.2.6 Evaporite Production; 3.2.7 Subsurface Brines; 3.3 Process Description; 3.3.1 Precipitation Reaction; 3.3.2 Influence of Reaction Conditions on Mg(OH)(2) Particle Morphology; 3.3.3 Dolime/Lime Requirements; 3.3.4 Seawater Pretreatment; 3.3.5 Precipitation Process; 3.3.6 Settling and Compaction; 3.3.7 Washing; 3.3.8 Filtration; 3.3.9 Brine Precipitation; 3.4 Calcination; 3.5 Grinding; 3.6 Packaging; 3.7 Sampling and Testing and In-Process Quality Control; 3.7.1 Dolime; 3.7.2 Seawater; 3.7.3 Reactor; 3.7.4 Settling/Thickener; 3.7.5 Washing; 3.7.6 Filtration
3.7.7 Calcining3.7.8 Grinding; 3.7.9 Finished Product; 3.8 Aman Process; 3.8.1 Pyrohydrolysis of Magnesium Chloride Hexahydrate; 3.9 General Properties of Synthetic Magnesia; Bibliography; References; 4 Mining and Processing Magnesite; 4.1 Mining Operations; 4.1.1 Overburden Removal; 4.1.2 Drilling; 4.1.3 Bench Height; 4.1.4 Hole Diameter; 4.1.5 Burden and Spacing; 4.1.6 Subdrilling; 4.1.7 Hole Stemming; 4.1.8 Blast Hole Pattern; 4.1.9 Blast Timing; 4.1.10 Blasting Agents; 4.1.11 Secondary Blasting; 4.1.12 Chemical Contour and Muck Maps; 4.2 Processing Magnesite
4.2.1 Ore Removal and Primary Crushing4.2.2 Gyratory and Cone Crushers; 4.2.3 Jaw Crushers; 4.2.4 Roll Crushers; 4.2.5 Size Separation; 4.2.6 Screening; 4.2.7 Pneumatic (Air) Classification; 4.2.8 Hydroclones; 4.3 Gravity Concentration; 4.3.1 Float-Sink Separation; 4.3.2 Froth Floatation; 4.3.3 Floatation Reagents; 4.3.4 Floatation Machines; 4.4 Tertiary Crushing; 4.5 Postcalcination Screening and Grinding; References; 5 Calcination of Magnesium Hydroxide and Carbonate; 5.1 Calcination of Magnesite; 5.1.1 Energy Requirement for Calcination Process; 5.1.2 Effect of Time and Temperature
5.1.3 Kinetics of Calcination
Record Nr. UNINA-9910876798703321
Shand Mark A  
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui