Advanced Nano-Bio Technologies for Water and Soil Treatment
This edited work presents a comprehensive treatise on the latest progress in the field of selected innovative nanotechnologies, biotechnologies, and their possible combinations for efficient elimination of a broad range of pollutants from various types of water and soil. It covers the underlying pri...
| Other Authors: | , , , |
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| Format: | eBook |
| Language: | English |
| Published: |
Cham
Springer International Publishing
2020, 2020
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| Edition: | 1st ed. 2020 |
| Series: | Applied Environmental Science and Engineering for a Sustainable Future
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| Subjects: | |
| Online Access: | |
| Collection: | Springer eBooks 2005- - Collection details see MPG.ReNa |
Table of Contents:
- Field Study III: Evidence Gained from Site Studies for the Performance of Ferrate(VI) in Water and Wastewater Treatment
- Field Study IV: Arsenic Removal from Groundwater by Ferrate with the Concurrent Disinfecting Effect—Semi-pilot on-site Application
- Field Study V: Combined Oxidation Technology using Ferrates (FeIV–VI) and Hydrogen Peroxide for Rapid and Effective Remediation of Contaminated Water—Comprehensive Practically Focused Study
- Part III Biotechnologies for Water Treatment
- Biotechnologies for Water Treatment
- Enzyme-Based Nanomaterials in Bioremediation
- Bioelectrochemical Processes for the Treatment of Oil-Contaminated Water and Sediments
- Field Study VI: The Effect of Loading Strategies on Removal Efficiencies of a Hybrid Constructed Wetland Treating mixed Domestic and Agro-Industrial Wastewaters
- Field Study VII: Field Study of Three Different Injectable Oxygen Sources to Enhance Mono-Aromatic Solvents in situ Biodegradation
- Part VII Technical Chapters.-Tool I: Characterization of nZVI Mobility in 1D and Cascade Columns by Ferromagnetic Susceptibility Sensor
- Tool II: Membrane Interface Probe
- Tool III: Fracturing for Enhanced Delivery of In situ Remediation Substances in Contaminated Sediments
- Tool IV: Monitoring of nZVI Migration and Fate in the Groundwater Conditions
- Tool V: Microbiological Methods for Monitoring nZVI Performance in Groundwater Conditions
- Field Study VIII: Nano-bioremediation: nZVI for Inorganic and Organic Contamination
- Part IV Biotechnologies for Soil Treatment
- Biotechnologies for Soil Treatment
- Mycoremediation of Contaminated Soils
- Composting Practices for the Remediation of Matrices Contaminated by Recalcitrant Organic Pollutants
- Modern Bioremediation Approaches: Use of Biosurfactants, Emulsifiers, Enzymes, Biopesticides, GMOs
- Field Study IX: Pilot-Scale Composting of PAH-Contaminated Materials—Two Different Approaches
- Field Study X: Oil Waste Processing Using Combination of Physical Pretreatment and Bioremediation
- Part V Ecotoxicology of Both Environmental Pollutants and Nanomaterials Used for Remediation
- Ecotoxicology of Environmental Pollutants
- Ecotoxicity of Nanomaterials Used for Remediation
- VI Future Prospects
- Future Prospects for Treating Contaminants of Emerging Concern in Water and Soils/Sediments
- Preface
- Part I Reductive Technologies
- Geochemical Principles of Reductive Remediation Processes
- Nanoscale Zero-Valent Iron Particles for Water Treatment: from Basic Principles to Field-Scale Applications
- Other Chemical Reductive Methods
- Combination of Electrokinetics and nZVI Remediation
- Field Study I: In Situ Chemical Reduction Using Nanoscale Zero-valent Iron Materials to Degrade Chlorinated Hydrocarbons
- Field Study II: Pilot Application of nZVI/DC-combined Methods at Aargau Site
- Part II Oxidative Technologies
- Introduction to Oxidative Technologies for Water Treatment
- Ferrates as Powerful Oxidants in Water Treatment Technologies
- Radical Reactions and Their Application for Water Treatment
- Photo-oxidation Technologies for Advanced Water Treatment
- The Use of Nanomaterials in Electro-Fenton and Photoelectro-Fenton Processes