ISBN-13: 9783030544508 / Angielski / Twarda / 2020 / 316 str.
ISBN-13: 9783030544508 / Angielski / Twarda / 2020 / 316 str.
1. Mineral Adsorbents and Characteristics
Author: Dr. Yunliang Zhao
Chapter 1. Mineral Adsorbents and Characteristics1.1 Gerenal introduction
1.2 Mineral adsorbents classification1.2.1 Layered minerals
1.2.2 Porous Mineral1.2.3 Other minerals
1.3 Characterization technology of mineral absorbents1.3.1 X-Ray Diffraction (XRD)
1.3.2 X-ray fluorescence (XRF)1.3.3 ICP-AES
1.3.4 AFM1.3.5 SEM 43
1.3.6 TEM1.3.7 XPS 47
1.3.8 FTIR 491.3.9 Raman spectrum
1.3.10 Nuclear magnetic resonance
1.3.11 Specific surface area and porosity
1.3.12 Zeta potential (ξ)
References
2. Surface Chemistry of Mineral Adsorbents
Author: Dr. Shaoxian Song, Dr. Weijun Peng, Dr. Hongqiang Li
2.1 Introduction2.2 Internal and External Surfaces
2.2.1 Characteristics2.2.2 Measurements
2.3 Surface Charges2.3.1 Characteristics
2.3.2 Auxiliary Categories of Surface Charge2.3.3 Surface charge of trilayer mineral adsorbents
2.3.4 Surface charge of Bilayer clay minerals2.3.5 Surface charge for adsorption
2.4 Surface Interactions2.4.1 Water-mineral adsorbents surface interaction
2.4.2 Surface interaction for adsorption2.5 Adsorption Thermodynamics
2.5.1 Adsorption reaction process
2.5.2 Activation energy
2.5.3 Thermodynamic parameters
2.6 Adsorption Kinetics
2.6.1 Surface reaction
2.6.2 Intra-particle diffusion2.6.3 Liquid film diffusion
2.7 Characterization technology of adsorption2.7.1 Component characterization technology
2.7.2 Structural and Morphology characterization technology2.7.3 Surface and interface properties characterization technology
2.7.4 Characterization technology of other propertyReferences
3.Modification of Mineral Surfaces and Microstructures
Author:Dr. ShenxuBao
3.1 Introduction
3.2 Modification methods for mineral surface and microstructure
3.3 Modifying agents and applications
3.3.1 Coupling reagent
3.3.2 Surfactant3.3.3 Organosilicon
3.3.4 Unsaturated organic acids3.3.5 Polyolefin oligomer
3.3.6 Water-soluble macromolecule
3.3.7 Inorganic surface modifier
3.4 Evaluation of modification
3.4.1 Chemical and morphology analysis3.4.3 Contact angle analysis
References
4. Adsorption of Minerals to Anions
Author:Dr. FeifeiJia and Dr. Min Dai
Introduction
4.1 Arsenic adsorption
4.1.1 Arsenic species, toxicity and distribution
4.1.2 Adsorption4.1.3 Adsorption mechanism
4.2 Phosphorus adsorption4.2.1 Contamination, origin, harm, distribution
4.2.2 Adsorption4.2.3 Adsorption mechanism
4.3 Fluoride Adsorption4.3.1 Fluoride Contamination
4.3.2 Adsorbents4.3.3 Adsorption behaviour
4.3.4 Effecting factors4.3.5 Adsorption Mechanism
4.4 Nitrate Adsorption4.4.1 Contamination, origin, harm and treatment technology of nitrate
4.4.2 Mineral adsorbent4.4.3 Interference
4.4.4 MechanismReferences
5. Adsorption of Minerals to Cations
Author:Dr. Feng Rao
5.1. General introduction
5.2 Fundamentals of adsorption of minerals to cations
5.2.1 Types of mineral adsorbents and adsorption mechanisms5.2.2 Determining cation adsorption amount and phenomenon
5.3 Adsorption of minerals to heavy metal cations in water treatment5.3.1 Adsorption of lead (Pb), copper (Cu), cadmium (Cd) and mercury (Hg) on mineral surface
5.3.2 Cr adsorption on mineral surface5.4 Adsorption of minerals to cations in flotation
5.5 Examples of the adsorption of minerals to cations in other engineering processes5.5.1 Biological process
5.5.2 Ag-PILC synthesesReferences
6. Adsorption of Minerals to Organic Compounds
Author:Dr. Bowen Li, and Jing Su
6.1 General Introduction6.1.1 Organic compounds
6.1.2 Adsorption of organic compounds
6.1.3 The adsorption mechanisms on minerals
6.1.3.1 Electrostatic attraction
6.2 Dyes adsorption on minerals6.2.1 General introduction of dyes
6.2.2 Dyes adsorption on minerals6.3 Phenolic compounds adsorption on minerals
6.3.1 General introduction of phenolic compounds6.3.2 Phenolic compounds adsorption on minerals
6.3.3 P-nitrophenol(PNP) adsorption on minerals6.3.4 Bisphenol A adsorption on minerals.
6.4 Antibiotic adsorption on minerals6.4.1 General introduction of antibiotics
6.4.2 Minerals for antibiotic adsorption6.5 Perfluorooctanesulphonate (PFOS) adsorption on minerals
6.5.1 The introduction of perfluorooctanesulphonate (PFOS)6.5.2 Minerals for PFOS adsorption
Reference
7. Bioadsorption of Minerals
Author:Dr. Ling Xia and Dr. Liyuan Ma
7.1 General Introduction
7.2 Bacteria adsorption
7.2.1 Adsorption mechanism7.2.2 Factors affecting adsorption of bacteria on mineral surface
7.2.3 Influences on minerals and bacteria7.2.4 Bioweathering by bacteria
7.2.5 Biobeneficiation by bacteria7.2.6 Application of bacteria-minerals interaction in environmental engineering
7.3 Fungi adsorption7.4 Algae adsorption
7.4.1 Algal surface property7.4.2 Algal bioweathering and biomineralization
7.4.3 Application of algal-minerals interaction in environmental engineering7.5 Biomacromolecules adsorption
7.5.1 Humic substances
7.5.2 Extracellular polymeric substances
7.5.3 Proteins7.5.4 Nuclear acids
References
8. Contaminated Water Treatment
Author: Dr. Changsheng Peng
8.1 Contaminated Water/ Wastewater
8.2 Sources of Wastewater Generation and their Characteristics8.3 Types and Sources of Wastewater Pollutants
8.3.1 Point Sources8.3.2 Non-Point Sources
8.4 Treatment Technologies for Various Types of Wastewaters8.5 Adsorption Technology in Wastewater Treatment
8.5.1 Adsorption Mechanisms8.5.2 Reversible adsorption
8.5.3 Irreversible adsorptionReferences
9. Dewatering of Mineral Adsorbents
Author:Dr. Yubiao Li
9.1 Introduction 383
9.2 Water states and types in Selected Mineral Adsorbents
9.3 Dewatering Methods and Processes
9.4 Dewatering mechanisms
References
Dr. Bowen Li is a Research Professor at the Department of Materials Science and Engineering and Institute of Materials Processing at Michigan Technological University, USA. His research interests include applied mineralogy, materials characterization, metal extraction, ceramic processing, antimicrobial surface treatment, and solid waste reuse. He has authored over 100 publications, authored/co-edited 8 books, and holds 15 patents. Dr. Li received his Ph.D. in Mineralogy and Petrology from China University of Geosciences Beijing in 1998, and his Ph.D. in Materials Science and Engineering from Michigan Technological University, USA, in 2008. He has been an active member in The Minerals, Metals and Materials Society, the Society for Metals, Mining and Exploration, and the China Ceramic Society.
Dr. Shaoxian Song is the Chief Professor and Dean of the School of Resources and Environmental Engineering at Wuhan University of Technology, China, and is also a Tenured Professor at the Universidad Autonoma de San Luis Potosi, Mexico. He received his Ph.D. in Mineral Engineering from the Central South University, China. He worked as a Postdoctoral Fellow at the University of Toronto, Canada. He has authored about 300 publications, including three books in the areas of colloid chemistry, mineral engineering, and water treatment. He is a member of the Mexican Academy of Science.
This book introduces the latest research regarding the adsorption of heavy metals, toxic ions, and organic compounds at the interfaces of water/minerals, such as mineralogical characterizations, surface chemistry, and modification of natural minerals as adsorbents, as well as the adsorption of cations, anions, and organic compounds in water. Presenting findings by the authors and their co-workers, the book helps readers grasp the principals and benefits of using minerals for water treatment, as well as the advanced technologies in the area developed over last 30 years, especially the last 10 years.
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